CN117960270A - Rice processing polisher capable of controlling conveying amount and method - Google Patents

Abstract

The invention belongs to the technical field of rice processing and polishing machines and discloses a rice processing and polishing machine with controllable conveying capacity, which comprises a machine body device, wherein a supporting part is arranged at the bottom of the machine body device, after rice is quantitatively poured onto the surface of an inner backing plate for accumulation, a worker starts a motor, the motor drives a top gear to rotate forward and backward to drive a second belt pulley in a hidden grid at the top of the machine body device through an output shaft, the second belt pulley drives an inner wall meshed gear to rotate, at the moment, the rotation of the gear at the inner wall of the second belt pulley drives a second top plate with fixed inner wall to variably swing, at the same time, the swing of the second top plate drives the inner backing plate connected with the top to continuously rotate, the continuously rotating inner backing plate can accumulate rice in a continuously swinging mode on the surface, and the whole rice in a static state can swing, at the moment, the rice on the surface of the inner backing plate can be swung respectively enter the inside of a round hole cylinder, and the whole accumulation under the static condition of the rice can be effectively reduced.

Description

Rice processing polisher capable of controlling conveying amount and method

Technical Field

The invention belongs to the technical field of rice processing and polishing machines, and particularly relates to a rice processing and polishing machine capable of controlling conveying capacity and a method thereof.

Background

The rice processing polisher with controllable conveying amount is one surface polishing machine for quantitative rice and consists of mainly rice polisher body and quantitative material cylinder installed on the top of the rice polisher body and is used widely in rice processing industry.

The existing rice processing and polishing machine with controllable conveying capacity is used by pouring rice into a quantitative charging barrel by a worker, enabling the interior of the quantitative charging barrel to be in a full-up state, and then enabling the quantitative charging barrel to enable the rice to flow down from a bottom mesh to the interior of the polishing machine for surface polishing.

The existing rice processing polisher capable of controlling the conveying capacity leaks downwards in the working process because filled rice is filled in the quantitative charging barrel, at the moment, the lower flow speed of the rice is slowed down due to the meshes at the bottom of the quantitative charging barrel, meanwhile, the meshes are blocked due to the whole density volume of the rice, and the meshes blocked by the whole density of the rice are not easy to fall down.

Disclosure of Invention

In order to solve the problems in the prior art, the invention provides a rice processing polisher capable of controlling the conveying capacity and a method thereof, and solves the problems that the filled rice is leaked downwards in a quantitative charging barrel, at the moment, the flow speed of the rice is slowed down by meshes at the bottom of the quantitative charging barrel, and meanwhile, the meshes are blocked due to the whole density volume of the rice, so that the meshes blocked by the whole density of the rice are difficult to fall down.

In order to achieve the above purpose, the present invention provides the following technical solutions: the rice processing polisher with controllable conveying capacity comprises a machine body device, wherein a supporting part is arranged at the bottom of the machine body device, a discharge hole is arranged at the bottom of the machine body device, and the top of the discharge hole at the bottom of the machine body device adopts a knob capping mode;

The inner wall of the top of the machine body device is fixedly connected with a first top plate, a dark grid is formed between the top of the machine body device and the first top plate, round hole barrels distributed in an annular suspension mode are arranged in the center of the top of the machine body device, and the outer surface of the top of the machine body device is fixedly connected with a first shell supporting piece through a bent rod;

an inner backing plate is attached to the inner wall of the first support shell member in a sliding manner, a long rod member is fixedly connected to the inner wall of the top edge area of the inner backing plate, one side of the long rod member penetrates through a first top plate surface sliding groove at the top of the machine body device and extends to a hidden grid connecting gear, and the bottom of the long rod member is positioned on the outer surface of the hidden grid middle gear and is in transmission engagement with a second belt pulley;

One side of the machine body device is fixedly connected with a shell, a motor is wrapped in the shell, the top of the motor is driven by a main gear through an output shaft, and one side of the main gear at the top of the motor passes through a notch at the top of the machine body device to be in driving engagement with the outer surface of a second belt pulley in a hidden grid at the top of the machine body device;

The top inner wall of the inner backing plate is positioned at the bottom of the long rod piece and is fixedly connected with the round table plate through a supporting rod, the first stirring rod piece is in sliding joint in an annular chute at the bottom inner wall of the round table plate, and the bottom of the first stirring rod piece is suspended in the second supporting shell piece.

Preferably, the inner wall of the bottom of the first supporting shell piece is an annular distributed rotating shaft connected with a round hole barrel, the rotating shaft on the top surface of the round hole barrel is connected with a second supporting shell piece, a second top plate is connected between the round hole barrel and the inner wall of the top of the second supporting shell piece in an adaptive fit manner, and the top surface of the second top plate is detachably clamped with a cover plate piece;

The powder storage cavity is formed between the first shell supporting piece and the second shell supporting piece which are connected with the top and the bottom surfaces of the round hole barrel at intervals, one side surface of the long rod piece is fixedly connected with the second stirring rod piece, the second stirring rod piece penetrates through the inner wall of the second top plate to extend into the powder storage cavity, and a stirring rod is arranged on the surface of the second stirring rod piece.

Preferably, the inner wall of the bottom of the inner backing plate is fixedly connected with a third belt pulley, the top surface of the third belt pulley is fixedly connected with a circular ring sheet, the top surface of the circular ring sheet is in sliding clamping connection with a bottom shell, the surface of the bottom shell is rotationally connected with a round hole barrel, the edge of the round hole barrel is attached to the edge of the inner wall of the bottom of the inner backing plate, the bottom shell is positioned at the top of the second support shell in a buckle cover mode, and the bottom shell is buckled on the top of the third belt pulley to form a three-centimeter dark grid at the top of the second support shell.

Preferably, the top surface of the round hole barrel is provided with a top gear plate in a bottom hidden grid area of the bottom shell, the bottom hidden grid of the bottom shell is fixedly connected with a first round rod through a supporting rod, and the edge of the edge second shell supporting piece and the central round hole barrel are meshed and driven by the surface of the first round rod.

Preferably, the surface of the round hole barrel is provided with meshes in the area between the first supporting shell piece and the second supporting shell piece.

Preferably, the bottom rotating shaft of the round hole barrel is clamped with a bottom fluted disc, the bottom fluted disc of the round hole barrel is located in the center area of the round hole barrel and is provided with mesh blanking, a first belt pulley is meshed with the outer surface of the bottom fluted disc of the round hole barrel in a transmission mode, a gear is meshed with the outer surface of one side of the first belt pulley in a transmission mode, a second round rod is connected with the rotating shaft of the inner wall of the gear meshed with the outer side of the first belt pulley, the top of the second round rod is fixedly connected with the bottom of the first supporting shell, and one side of the gear at the bottom of the second round rod is meshed with the bottom of the long rod in a transmission mode.

Preferably, the center of the bottom fluted disc at the bottom of the round hole barrel is fixedly connected with a screw rod, the whole screw rod is positioned in the round hole barrel, a ball rod sleeve is arranged on the surface of the screw rod, a rotary shaft on the outer surface of the ball rod sleeve on the surface of the screw rod is connected with a ring piece, and a joint rod can be flexibly connected between the outer surface of the ring piece and the outer edge of a disc at the top of the screw rod.

Preferably, a folding cloth piece is connected to one side of the joint rod between the outer surface of the ring piece and the outer edge of the disc at the top of the screw rod in a folding way, a gear is also arranged between the outer ring circular hole barrel and the central independent circular hole barrel on the bottom surface of the first supporting shell piece, a third circular rod is connected to the inner wall of the gear between the edge of the bottom of the first supporting shell piece and the central circular hole barrel in a rotating shaft manner, and the top of the third circular rod is fixedly connected with the bottom of the first supporting shell piece.

Preferably, the top of the round platform plate is fixedly connected with a cylinder, the top of the cylinder is provided with a material collecting shell, and the inner wall of the cylinder is fixedly connected with a spiral material conveying sheet.

The application also provides a rice processing and polishing machine method capable of controlling the conveying amount, which comprises the following steps:

Step one, a motor drives a top gear to positively and negatively rotate through an output shaft to drive a second belt pulley in a hidden grid at the top of a machine body device, so that the second belt pulley drives an inner wall meshing gear to rotate, at the moment, the rotation of the gear at the inner wall of the second belt pulley drives a second top plate with a fixed inner wall to variably swing, meanwhile, the swing of the second top plate drives an inner base plate connected with the top to constantly rotate, the constantly rotating inner base plate can integrally shake rice with a static surface accumulating rice constantly shaking mode, and at the moment, the rice on the surface of the inner base plate can be shaken and respectively enter the inside of a round hole barrel;

Step two, under the condition that the inner backing plate rotates and swings, the whole round platform plate connected through the surface support rods is communicated and rotated, so that the first stirring rod piece clamped by the annular groove on the inner wall of the bottom part centrifugally swings under the condition that the round platform plate rotates, and the first stirring rod piece effectively stirs the rice piled on the surface of the inner backing plate in the swinging process;

Step three, in the process of rotating the inner backing plate, the bottom of the inner backing plate drives a third belt pulley to drive a top fluted disc at the top of a round hole barrel so as to drive the round hole barrel connected with an outer ring rotating shaft on the surface of the second supporting shell member, then, in the process of rotating the top fluted disc at the top of the round hole barrel on the outer ring of the second supporting shell member, a first round rod is driven to drive the top fluted disc at the top of the round hole barrel on the center of the second supporting shell member, at the moment, the second supporting shell member and the first supporting shell member are driven by the top fluted disc to rotate positively and negatively, and under the condition of rotating the whole round hole barrel, polishing powder stored between the first supporting shell member and the second supporting shell member is rotationally scraped by meshes on the surface of the round hole barrel to the inner part of the round hole barrel so as to carry out fine polishing on rice;

Step four, can make the rotation of bottom gear drive second round bar bottom gear when the rotatory in-process of stock piece, simultaneously, second round bar rotation drive first belt pulley is rotatory, can drive the whole rotations of round hole section of thick bamboo bottom fluted disc under the rotatory circumstances of first belt pulley, at this moment, the rotation of the bottom fluted disc of round hole section of thick bamboo bottom can drive the lead screw and rotate, constantly swing at the lead screw, can make a round ring spare intercommunication reciprocates in the formation of being located lead screw surface ball rod cover removal, the up-and-down movement of ring spare then can make the continuous shrink expansion of joint pole, utilize the bending of joint pole joint to beat round hole section of thick bamboo surface mesh region.

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

1. After rice is quantitatively poured onto the surface of the inner backing plate to be piled up, a worker starts a motor, the motor drives a top gear to rotate forwards and backwards through an output shaft to drive a second belt pulley in a hidden grid at the top of the engine body device, the second belt pulley drives an inner wall meshing gear to rotate, at the moment, the rotation of the gear at the inner wall of the second belt pulley can drive a second top plate with a fixed inner wall to swing variably, meanwhile, the swinging of the second top plate can drive the inner backing plate connected with the top to rotate constantly, the surface of the inner backing plate can be piled up with rice to shake the whole rice in a static mode, at the moment, the rice at the surface of the inner backing plate can be rocked to enter the inside of a round hole cylinder respectively, and the whole piling up under the static condition of the rice is effectively reduced to enable the round hole cylinder to be plugged.

2. The rotary table plate is characterized in that the rotary table plate is integrally communicated with the circular hole cylinder through the surface support rods, the circular hole cylinder is fixedly connected with the circular hole cylinder, and the circular hole cylinder is fixedly connected with the circular hole cylinder.

Drawings

FIG. 1 is a schematic diagram of the structure of the present invention;

FIG. 2 is a schematic view of the bottom of the device of the present invention;

FIG. 3 is a schematic cross-sectional view of a cylinder member according to the present invention;

FIG. 4 is a schematic view of the interior of the round hole barrel of the present invention;

FIG. 5 is a schematic representation of a first pulley of the present invention;

FIG. 6 is a schematic cross-sectional view of a first housing member and a second housing member according to the present invention;

FIG. 7 is a schematic view of a circular ring segment according to the present invention;

FIG. 8 is a schematic view of the bottom of the round hole barrel of the present invention;

FIG. 9 is a schematic cross-sectional view of a round bore cartridge of the present invention;

Fig. 10 is a schematic view of the articulating lever of the present invention.

In the figure: 1. a body device; 2. a first housing member; 3. a cylindrical member; 4. a housing; 5. a long rod member; 6. a round bedplate; 7. an inner backing plate; 8. a first top plate; 9. spiral conveying sheets; 10. a bottom case; 11. a round hole barrel; 12. a first stirring rod piece; 13. a second top plate; 131. a cover plate member; 14. a first round bar; 15. a second housing member; 16. a second stirring rod piece; 17. a first pulley; 18. a second pulley; 19. a second round bar; 20. a motor; 21. a third round bar; 22. a circular ring piece; 23. a screw rod; 24. a ring member; 25. folding the cloth piece; 26. a joint lever; 27. and a third pulley.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments.

As shown in fig. 1 to 10, the invention provides a rice processing polisher with controllable conveying capacity, which comprises a machine body device 1, wherein a supporting part is arranged at the bottom of the machine body device 1, a discharge hole is arranged at the bottom of the machine body device 1, and the top of the discharge hole at the bottom of the machine body device 1 adopts a knob cover mode;

The inner wall of the top of the machine body device 1 is fixedly connected with a first top plate 8, a dark grid is formed between the top of the machine body device 1 and the first top plate 8, round hole barrels 11 which are distributed in a ring-shaped suspension manner are arranged in the center of the top of the machine body device 1, and the outer surface of the top of the machine body device 1 is fixedly connected with a first supporting shell piece 2 through a bent rod;

The inner wall of the first supporting shell piece 2 is in sliding fit with an inner base plate 7, the inner wall of the top edge area of the inner base plate 7 is fixedly connected with a long rod piece 5, one side of the long rod piece 5 penetrates through a sliding groove on the surface of a first top plate 8 at the top of the machine body device 1 to extend to a hidden grid connecting gear, and the bottom of the long rod piece 5 is positioned on the outer surface of the hidden grid middle gear to be in transmission engagement with a second belt pulley 18;

One side of the machine body device 1 is fixedly connected with the shell 4, the motor 20 is wrapped in the shell 4, the top of the motor 20 is driven by the main gear through the output shaft, and one side of the main gear at the top of the motor 20 passes through a notch at the top of the machine body device 1 to be in driving engagement with the outer surface of the second belt pulley 18 in the hidden grid at the top of the machine body device 1;

The top inner wall of the inner backing plate 7 is positioned at the bottom of the long rod 5 and is fixedly connected with the round table plate 6 through a supporting rod, the first stirring rod 12 is in sliding joint in an annular chute at the bottom inner wall of the round table plate 6, and the bottom of the first stirring rod 12 is suspended in the second supporting shell 15.

When the polishing machine is used, at the initial stage, a worker directly pours one third of the total rice amount into the second supporting shell 15 from the top of the inner base plate 7, so as to ensure that the round hole barrel 11 is conveyed in a sufficient state when the inner base plate 7 is used for ensuring that the rice is polished;

After the rice is quantitatively poured onto the surface of the inner base plate 7 for accumulation, a worker starts the motor 20, the motor 20 drives the top gear to rotate forwards and backwards through the output shaft to drive the second belt pulley 18 in the hidden grid at the top of the engine body device 1, so that the second belt pulley 18 drives the inner wall meshing gear to rotate, at the moment, the rotation of the gear at the inner wall of the second belt pulley 18 drives the second top plate 13 with fixed inner wall to swing variably, meanwhile, the swinging of the second top plate 13 drives the inner base plate 7 connected with the top to rotate constantly, the constantly rotating inner base plate 7 can enable the rice with the surface accumulating mode to shake integrally in a static state, at the moment, the rice at the surface of the inner base plate 7 can shake to enter the inside of the round hole barrel 11 respectively, and the integral accumulation under the static condition of the rice can be effectively reduced to enable the round hole barrel 11 to be blocked;

Under the condition that the inner base plate 7 rotates and swings, the round table plate 6 connected through the surface support rods is integrally communicated and rotated, the first stirring rod piece 12 clamped by the ring groove on the inner wall of the bottom is enabled to centrifugally swing under the condition that the round table plate 6 rotates, the first stirring rod piece 12 effectively stirs the rice accumulated on the surface of the inner base plate 7 in the swinging process, and therefore the rice can quickly flow into the round hole barrel 11 and flows down into the machine body device 1.

As shown in fig. 3 to 8, the inner wall of the bottom of the first supporting shell 2 is in annular distribution and is connected with a round hole barrel 11 through a rotating shaft, the rotating shaft on the top surface of the round hole barrel 11 is connected with a second supporting shell 15, a second top plate 13 is connected between the round hole barrel 11 and the inner wall of the top of the second supporting shell 15 in an adaptive fit manner, and the top surface of the second top plate 13 is detachably clamped with a cover plate member 131;

A powder storage cavity is formed between the first supporting shell piece 2 and the second supporting shell piece 15 which are connected with the top and bottom surfaces of the round hole barrel 11 at intervals, one side surface of the long rod piece 5 is fixedly connected with a second stirring rod piece 16, the second stirring rod piece 16 penetrates through the inner wall of the second top plate 13 to extend into the powder storage cavity, and a poking rod is arranged on the surface of the second stirring rod piece 16;

The inner wall of the bottom of the inner backing plate 7 is fixedly connected with a third belt pulley 27, the top surface of the third belt pulley 27 is fixedly connected with a circular ring piece 22, the top surface of the circular ring piece 22 is in sliding clamping connection with a bottom shell 10, the surface of the bottom shell 10 is rotationally connected with a round hole barrel 11, the edge of the round hole barrel 11 is attached to the edge of the inner wall of the bottom of the inner backing plate 7, the bottom shell 10 is positioned at the top of a second shell supporting piece 15 in a buckling cover mode, and the bottom shell 10 is buckled on the top of the third belt pulley 27 to form a three-centimeter dark grid at the top of the second shell supporting piece 15;

the top outer surface of the round hole barrel 11 is provided with a top fluted disc piece in a dark grid area at the bottom of the bottom shell 10, the dark grid at the bottom of the bottom shell 10 is fixedly connected with a first round rod 14 through a supporting rod, and the edge of the edge second shell supporting piece 15 and the center round hole barrel 11 are meshed and driven by the surface of the first round rod 14;

the surface of the round hole barrel 11 is provided with meshes in the area between the first supporting shell piece 2 and the second supporting shell piece 15.

When the polishing machine is used, in the rotating process of the inner backing plate 7, the bottom of the inner backing plate 7 drives the third belt pulley 27 to drive the top fluted disc of the round hole barrel 11, so that the round hole barrel 11 connected with the surface outer ring rotating shaft of the second supporting shell piece 15 is driven, then, in the rotating process of the top fluted disc of the round hole barrel 11 positioned on the outer ring of the second supporting shell piece 15, the first round rod 14 is driven to drive the top fluted disc of the center round hole barrel 11 of the second supporting shell piece 15, at the moment, the whole round hole barrel 11 positioned on the second supporting shell piece 15 and the first supporting shell piece 2 is driven by the top fluted disc to rotate positively and negatively, under the condition that the whole round hole barrel 11 rotates, polishing powder is stored between the first supporting shell piece 2 and the second supporting shell piece 15 by the surface mesh of the round hole barrel 11 to be rubbed into the round hole barrel 11 for fine polishing with rice, so that rice in the round hole barrel 11 can be uniformly polished in a dispersing way, and the rice in each round hole barrel 11 can be uniformly polished, and the phenomenon that the rice in the whole polishing process is uneven in the whole polishing process after the whole rice is directly left in the round hole barrel 11;

When the round hole barrel 11 rotates, polishing powder stored between the first shell supporting piece 2 and the second shell supporting piece 15 is scraped and rubbed into the round hole barrel 11, the long rod piece 5 rotates and drives the second stirring piece 16 to stir the polishing powder in the powder storage chamber continuously, so that the polishing powder accumulated at the top is fed continuously to meshes on the surface of the round hole barrel 11 in the powder storage chamber, and the phenomenon that the materials cannot be fed timely when the meshes on the surface of the round hole barrel 11 rub and rub the powder in the first shell supporting piece 2 and the second shell supporting piece 15 is prevented.

For the above description, the bottom shell 10 is covered on the top of the second shell 15 to prevent rice from flowing into the bottom dark grid.

Further described is that the cover plate member 131 is movably clamped at the top of the second top plate 13, so as to facilitate the staff to take the cover plate member 131 to timely supplement the powder storage cavity between the first supporting shell member 2 and the second supporting shell member 15.

As shown in fig. 8 to 10, the bottom rotating shaft of the round hole barrel 11 is clamped with a bottom fluted disc, the bottom fluted disc of the round hole barrel 11 is provided with mesh blanking in the central area of the round hole barrel 11, the outer surface of the bottom fluted disc of the round hole barrel 11 is in transmission engagement with a first belt pulley 17, the outer surface of one side of the first belt pulley 17 is in transmission engagement with a gear, the rotating shaft of the inner wall of the gear engaged with the outer side of the first belt pulley 17 is connected with a second round rod 19, the top of the second round rod 19 is fixedly connected with the bottom of the first supporting shell member 2, and one side of the gear at the bottom of the second round rod 19 is in transmission engagement with the bottom gear of the long rod member 5;

The center of the bottom fluted disc at the bottom of the round hole barrel 11 is fixedly connected with a screw rod 23, the whole of the screw rod 23 is positioned in the round hole barrel 11, the surface of the screw rod 23 is provided with a ball rod sleeve, the outer surface of the ball rod sleeve on the surface of the screw rod 23 is connected with a ring piece 24 in a rotating shaft manner, a joint rod 26 is flexibly connected between the outer surface of the ring piece 24 and the outer edge of a disc at the top of the screw rod 23, one side of the joint rod 26 is flexibly connected with a folding cloth piece 25 between the outer surface of the ring piece 24 and the outer edge of the disc at the top of the screw rod 23, a gear is also arranged between the outer ring round hole barrel 11 and the center independent round hole barrel 11 on the bottom surface of the first support shell piece 2, a third round rod 21 is connected with the inner wall of the gear between the edge of the bottom of the first support shell piece 2 in a rotating shaft manner, and the top of the third round rod 21 is fixedly connected with the bottom of the first support shell piece 2.

When the polishing device is used, in the process of rotating the long rod piece 5, the bottom gear drives the bottom gear of the second round rod 19 to rotate, meanwhile, the second round rod 19 rotates to drive the first belt pulley 17 to rotate, the first belt pulley 17 drives the bottom fluted disc of the round hole barrel 11 to rotate completely, at the moment, the bottom fluted disc at the bottom of the round hole barrel 11 rotates to drive the screw rod 23 to rotate, the surface ball rod sleeve moves up and down continuously during continuous swinging of the screw rod 23, the ring piece 24 is driven to move up and down in the process of moving the surface ball rod sleeve of the screw rod 23, the ring piece 24 is driven to continuously shrink and expand by the upward and downward movement of the ring piece 24, the surface mesh area of the round hole barrel 11 is knocked by bending of the joint rod 26, the surface mesh of the round hole barrel 11 is effectively scraped to the inside the round hole barrel 11, and meanwhile, the inner wall mesh area of the round hole barrel 11 is vibrated by bending of the joint rod 26 joint, so that the polishing powder around the mesh of the round hole barrel 11 rapidly enters mixed polishing evenly in proportion with rice;

In the bending process of the joint rod 26 by the up-and-down movement of the ring piece 24, the struts at two sides of the folding cloth piece 25 are driven to continuously move, at the moment, the struts at two sides of the folding cloth piece 25 drive the folding cloth piece 25 to fold, but after each time the folding cloth piece 25 is opened, the polishing powder in the round hole barrel 11 is uniformly mixed with rice by stirring, and meanwhile, the polishing powder and the rice can be uniformly rubbed and polished by utilizing the cloth, the polished rice is divided into the round hole barrel 11 in advance to be uniformly pre-polished, the pre-polished rice falls into the machine body device 1 from meshes on the surface of a bottom fluted disc at the bottom of the round hole barrel 11 to be integrally polished in a collecting way, and the phenomenon that the machine body device 1 directly polishes a large amount of rice is reduced;

Under the condition that the folded cloth piece 25 is driven by the supporting rods of the circular ring pieces 24 to compress and expand, self-attached polishing powder is also enabled to be dusted, and the folded cloth piece 25 is prevented from accumulating polishing powder.

For the further explanation, the rice in the round hole barrel 11 and the polishing powder are mixed and polished and then fall into the machine body device 1 along the mesh of the bottom fluted disc at the bottom of the round hole barrel 11 together, so that the rice falls into the machine body device 1 and then the polishing powder is added independently, if the polishing powder is added independently, the waste of the polishing powder resources can be caused, and meanwhile, the polishing powder is added excessively, so that the surface of the rice is worn and seriously damaged in the polishing process.

As shown in fig. 1 to 2, the top of the circular truncated cone plate 6 is fixedly connected with a cylinder member 3, the top of the cylinder member 3 is provided with a material collecting shell, and the inner wall of the cylinder member 3 is fixedly connected with a spiral material conveying sheet 9.

When the round hole polishing machine is used, a worker in the earlier stage directly pours one third of the total amount of rice into the round hole polishing machine from the inner base plate 7, two thirds of the total amount of the remaining rice is poured into the collecting shell at the top of the round hole polishing machine 3, the round table plate 6 is driven to rotate through the rotation of the inner base plate 7, at the moment, the round table plate 6 can drive the round hole polishing machine 3 and the spiral conveying sheet 9 to rotate repeatedly, so that the rice in the round hole polishing machine is slowly polished from the inside of the round hole barrel 11 and then descends, at the moment, the round hole polishing machine 3 drives the spiral conveying sheet 9 to rotate continuously forward and backward, so that the rice in the collecting shell at the top of the round hole polishing machine 3 is uniformly descended, the rice is effectively located in the later stage and then reaches the inside of the round hole barrel 11 and is mixed with the rice which is not yet down, and the process is to prevent the later stage rice from falling into the round hole barrel 11 from the inside of the round hole polishing machine 11 from the inner base plate 7, and the polishing powder is prevented from being in proportion to the rice from being damaged with the rice and finally, and the polishing degree of the surface of the rice is affected.

The whole is described in a part, after the whole rice falling from the circular hole barrel 11 is polished by the machine body device 1, the top of the discharge hole at the bottom of the machine body device 1 can be covered and turned on, and the polished rice falling from the inside of the machine body device 1 can be collected by the collecting frame.

The surface of the first supporting shell piece 2 and the surface of the second supporting shell piece 15 are in annular rotating shaft clamping connection with the round hole barrel 11, meanwhile, the centers of the first supporting shell piece 2 and the second supporting shell piece 15 are also provided with independent round hole barrels 11, and the round hole barrels 11 connected with the rotating shafts of the outer rings of the surfaces of the first supporting shell piece 2 and the second supporting shell piece 15 and the round hole barrels 11 independently connected in the middle are in fluted disc transmission with the surfaces of the round hole barrels 11 by means of the second round rod 19, the first round rod 14 and the bottom gears of the third round rod 21.

Further described is that the polishing powder adopted in the whole scheme is special for rice in the prior daily life, and has safety.

Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (10)

1. The utility model provides a steerable conveying capacity rice processing burnishing machine, includes organism device (1), support component is installed to the bottom of organism device (1) the discharge gate is installed to the bottom of organism device (1), knob buckle closure mode is adopted at organism device (1) bottom discharge gate top, its characterized in that: the inner wall of the top of the machine body device (1) is fixedly connected with a first top plate (8), a dark grid is formed between the top of the machine body device (1) and the first top plate (8), round hole barrels (11) which are distributed in an annular suspension mode are arranged in the center of the top of the machine body device (1), and the outer surface of the top of the machine body device (1) is fixedly connected with a first supporting shell piece (2) through a bent rod;

An inner backing plate (7) is attached to the inner wall of the first supporting shell (2) in a sliding manner, a long rod piece (5) is fixedly connected to the inner wall of the top edge area of the inner backing plate (7), one side of the long rod piece (5) penetrates through a sliding groove on the surface of a first top plate (8) at the top of the machine body device (1) to extend to a hidden grid connecting gear, and the bottom of the long rod piece (5) is positioned on the outer surface of the hidden grid middle gear and is in transmission engagement with a second belt pulley (18);

One side of the machine body device (1) is fixedly connected with a shell (4), a motor (20) is wrapped in the shell (4), the top of the motor (20) is driven by a main gear through an output shaft, and one side of the main gear at the top of the motor (20) penetrates through a notch at the top of the machine body device (1) to be in driving engagement with the outer surface of a second belt pulley (18) in a hidden grid at the top of the machine body device (1);

The top inner wall of the inner backing plate (7) is positioned at the bottom of the long rod piece (5) and is fixedly connected with the round table plate (6) through a supporting rod, a first stirring rod piece (12) is connected in a sliding manner in an annular sliding groove on the bottom inner wall of the round table plate (6), and the bottom of the first stirring rod piece (12) is suspended in the second supporting shell piece (15).

2. The rice processing polisher of claim 1 with controlled delivery, wherein: the inner wall of the bottom of the first supporting shell piece (2) is an annular distribution rotating shaft connected with a round hole barrel (11), the rotating shaft on the top surface of the round hole barrel (11) is connected with a second supporting shell piece (15), a second top plate (13) is connected between the round hole barrel (11) and the inner wall of the top of the second supporting shell piece (15) in an adaptive fit manner, and the top surface of the second top plate (13) is detachably clamped with a cover plate piece (131);

The powder storage cavity is formed between a first shell supporting piece (2) and a second shell supporting piece (15) which are connected with the top and the bottom surfaces of the round hole barrel (11) at intervals, a second stirring rod piece (16) is fixedly connected with one side surface of the long rod piece (5), the second stirring rod piece (16) penetrates through the inner wall of the second top plate (13) to extend into the powder storage cavity, and a stirring rod is arranged on the surface of the second stirring rod piece (16).

3. The rice processing polisher of claim 1 with controlled delivery, wherein: the utility model discloses a novel energy-saving belt conveyor is characterized in that a third belt pulley (27) is fixedly connected to the inner wall of the bottom of an inner cushion plate (7), a circular ring piece (22) is fixedly connected to the top surface of the third belt pulley (27), a bottom shell (10) is connected to the top surface of the circular ring piece (22) in a sliding and clamping manner, a round hole barrel (11) is connected to the surface of the bottom shell (10) in a rotating manner, the edge of the round hole barrel (11) is attached to the edge of the inner wall of the bottom of the inner cushion plate (7), the bottom shell (10) is located at the top of a second shell supporting piece (15) in a buckling cover mode, and the bottom shell (10) buckles the top of the third belt pulley (27) to form a three-centimeter dark grid at the top of the second shell supporting piece (15).

4. A controllable delivery rice processing polisher according to claim 3 wherein: the top surface of round hole section of thick bamboo (11) is located the dark check area in drain pan (10) bottom and is provided with top tooth dish spare, the dark check in bottom of drain pan (10) passes through branch fixed connection first round bar (14), first round bar (14) surface is with marginal second support shell piece (15) edge and central round hole section of thick bamboo (11) meshing transmission.

5. The rice processing polisher of claim 4 with controlled delivery, wherein: the surface of the round hole barrel (11) is provided with meshes in the area between the first supporting shell piece (2) and the second supporting shell piece (15).

6. The rice processing polisher of claim 4 with controlled delivery, wherein: the bottom rotary shaft joint end fluted disc of round hole section of thick bamboo (11), mesh unloading has been seted up to round hole section of thick bamboo (11) bottom end fluted disc is located round hole section of thick bamboo (11) central zone, round hole section of thick bamboo (11) bottom end fluted disc surface transmission meshing has first belt pulley (17), one side surface transmission meshing gear of first belt pulley (17), second round bar (19) are connected in the gear inner wall pivot of first belt pulley (17) outside meshing, the bottom fixed connection of the top of second round bar (19) and first support shell piece (2), the gear one side and the stock piece (5) bottom gear transmission meshing of second round bar (19) bottom.

7. The rice processing polisher of claim 6 with controlled delivery, wherein: the novel ball screw is characterized in that a screw rod (23) is fixedly connected to the center of a bottom fluted disc at the bottom of the round hole barrel (11), the whole screw rod (23) is located inside the round hole barrel (11), a ball rod sleeve is arranged on the surface of the screw rod (23), a ring piece (24) is connected to a rotating shaft on the outer surface of the ball rod sleeve on the surface of the screw rod (23), and a joint rod (26) can be flexibly connected between the outer surface of the ring piece (24) and the outer edge of a disc at the top of the screw rod (23).

8. The controlled-delivery rice-processing polisher of claim 7, wherein: one side of a joint rod (26) between the outer surface of the circular ring piece (24) and the outer edge of a disc at the top of the screw rod (23) is connected with a folding cloth piece (25) in a foldable mode, a gear is also arranged between the outer ring circular hole barrel (11) and the central independent circular hole barrel (11) on the bottom surface of the first support shell piece (2), a third circular rod (21) is connected with a rotating shaft of the inner wall of the gear between the edge of the bottom of the first support shell piece (2) and the central circular hole barrel (11), and the top of the third circular rod (21) is fixedly connected with the bottom of the first support shell piece (2).

9. The rice processing polisher with controllable conveying capacity according to claim 1, characterized in that the top of the round table plate (6) is fixedly connected with a cylinder (3), a collecting shell is arranged at the top of the cylinder (3), and the inner wall of the cylinder (3) is fixedly connected with a spiral conveying sheet (9).

10. A method of rice processing and polishing with a controllable conveying amount, using the rice processing and polishing machine with a controllable conveying amount according to any one of claims 1 to 9, comprising the steps of:

Step one, a motor (20) drives a second belt pulley (18) in a top hidden grid of a top gear positive and negative rotation transmission machine body device (1) through an output shaft, so that the second belt pulley (18) drives an inner wall meshing gear to rotate, at the moment, the rotation of the inner wall gear of the second belt pulley (18) drives a second top plate (13) with a fixed inner wall to variably swing, meanwhile, the swing of the second top plate (13) drives an inner cushion plate (7) connected with the top to constantly rotate, the constantly rotating inner cushion plate (7) enables rice accumulated on the surface to constantly swing in a static mode, and at the moment, the rice on the surface of the inner cushion plate (7) is rocked to enter the round hole barrel (11) respectively;

Step two, under the condition that the inner base plate (7) rotates and swings, the round table plate (6) connected through the surface support rods is integrally communicated and rotated, the first stirring rod piece (12) clamped by the annular groove on the inner wall of the bottom is enabled to centrifugally swing under the condition that the round table plate (6) rotates, and the first stirring rod piece (12) effectively stirs the rice accumulated on the surface of the inner base plate (7) in the swinging process;

Step three, in the rotating process of the inner backing plate (7), the bottom of the inner backing plate (7) can drive a third belt pulley (27) to drive a top fluted disc of a round hole barrel (11), so that the round hole barrel (11) connected with an outer ring rotating shaft on the surface of a second support shell piece (15) is driven, then, in the rotating process of the top fluted disc of the round hole barrel (11) on the outer ring of the second support shell piece (15), a first round rod (14) is driven to drive the top fluted disc of the round hole barrel (11) on the center of the second support shell piece (15), at the moment, the whole round hole barrel (11) on the second support shell piece (15) and the first support shell piece (2) can be driven by the top fluted disc to rotate positively and negatively, and under the condition that the whole round hole barrel (11) rotates, the surface mesh holes of the round hole barrel (11) can store polishing powder between the first support shell piece (2) and the second support shell piece (15) to be rubbed into the inside of the round hole barrel (11) to polish rice in detail;

Step four, can make bottom gear drive second round bar (19) bottom gear rotate when stock piece (5) rotate in-process, simultaneously, second round bar (19) rotate transmission first belt pulley (17) rotate, can drive round hole section of thick bamboo (11) bottom fluted disc under the rotatory circumstances of first belt pulley (17) and all rotate, at this moment, the bottom fluted disc rotation of round hole section of thick bamboo (11) bottom can drive lead screw (23) and rotate, constantly swing at lead screw (23), can the surface ball rod cover reciprocates, be located lead screw (23) surface ball rod cover and remove and form and can drive ring piece (24) intercommunication reciprocates, the upper and lower removal of ring piece (24) then can make the continuous shrink expansion of joint lever (26), utilize the bending of joint lever (26) joint to beat round hole section of thick bamboo (11) surface mesh region.