CN112246304A - Anti-blocking rice mill - Google Patents

Abstract

The invention discloses an anti-clogging rice mill, which belongs to the technical field of rice mills and solves the problem that a blanking pipe is easy to block when a material is loaded in the existing anti-clogging rice mill, the device comprises a rice mill shell, a feeding pipe, a stirring shell, stirring paddles and a vibration disc, wherein the blanking pipe is embedded in a rice mill feeding port at the top of the rice mill shell, the feeding pipe and the blanking pipe are respectively fixed at the upper side and the lower side of the stirring shell, the surface of a stirring shaft is fixedly connected with the stirring paddles, a first stirring paddle mounting block is connected with a first telescopic cylinder at the side wall of a second stirring paddle mounting block through a first telescopic rod, the surface of the stirring paddles is connected with connecting rods through shaft pins, the two connecting rods are also connected with each other through shaft pins, a transmission gear embedded at the end part of the stirring shaft is connected with a driving gear through, the vibration disc is connected with the vibration motor through the vibration rod, and the feeding device has the characteristic that the blanking pipe is not easy to block during feeding.

Description

Anti-blocking rice mill

Technical Field

The invention belongs to the technical field of rice mills, and particularly relates to an anti-blocking rice mill.

Background

The rice mill mainly comprises a fixed spanner, a tightening nut spanner, a brush, a feeding hopper, a grinding wheel, a steel wire brush and the like, and is used for peeling and whitening brown rice by applying mechanical acting force of mechanical equipment.

When the sample (brown rice) flows into the grinding chamber from the hopper, the brown rice is extruded in the grinding chamber due to the pushing of the internal pressure of the thallium presser and the mechanical force, and after self-phase friction and mutual rubbing between the brown rice and the grinding wheel, the cortex of the brown rice can be quickly removed, and the grade whiteness degree measured by the white rice can be reached within a determined adjusting time.

But current rice mill generally all is direct to pour the corn into the material loading case in and let it fall to the rice mill of below according to self gravity when the material loading in, the phenomenon of bridging appears easily at this in-process, has just directly appeared the phenomenon that blanking pipe blockked up, needs the artifical appurtenance that uses to dredge the blanking pipe that blocks up, and is more time-consuming and energy-consuming, has reduced work efficiency.

Therefore, in order to solve the problem, the anti-blocking rice mill needs to be developed and designed, and the problem that a blanking pipe is easy to block when the existing anti-blocking rice mill is used for loading is solved.

Disclosure of Invention

Aiming at the defects in the prior art, the embodiment of the invention aims to provide an anti-blocking rice mill to solve the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme:

a rice mill capable of preventing blockage comprises a rice mill shell, a feeding pipe, a stirring shell, stirring paddles and a vibration disc, wherein a blanking pipe is embedded in a rice mill feeding port embedded in the top of the rice mill shell, the feeding pipe and the blanking pipe are respectively and fixedly connected to the upper side and the lower side of the stirring shell, the stirring paddles are respectively and fixedly connected to the side walls of a first stirring paddle mounting block and a second stirring paddle mounting block, the first stirring paddle mounting block and the second stirring paddle mounting block are slidably connected to the surface of a stirring shaft, a fixed column embedded in the side wall of the first stirring paddle mounting block is connected with a first telescopic cylinder embedded in the side wall of the second stirring paddle mounting block through a first telescopic rod, the first stirring paddle mounting block and the second stirring paddle mounting block are in a plurality of numbers, and the first stirring paddle mounting block and the second stirring paddle mounting block are mutually connected through reset springs, the stirring paddle surface is connected with the connecting rod through the pivot to two connecting rods still pass through pivot interconnect, the drive gear of (mixing) shaft tip mosaic passes through the belt and connects drive gear, drive gear passes through the motor shaft and connects servo motor, stirring casing bottom fixedly connected with vibrations dish, vibrations dish passes through the vibrations pole and connects shock motor.

As a further scheme of the invention, the inner wall of the rice mill shell is fixedly connected with a second telescopic cylinder, the second telescopic cylinder is connected with a mounting plate through a second telescopic rod, the surface of the mounting plate is connected with a grinding roller through a rotating shaft, the side wall of the mounting plate is also fixedly connected with an inserted bar, and the inserted bar is embedded in a rice mill feeding port and a blanking pipe.

As a further scheme of the invention, the side wall of the stirring shell is fixedly connected with a supporting plate, the supporting plate is connected to the surface of a guide shaft embedded in the side wall of a fixing frame in a sliding manner through a through hole formed in the surface of the supporting plate, and the fixing frame is fixedly connected to the top of the rice mill shell.

As a further scheme of the invention, the vibration disc comprises an upper rubber block, a lower rubber block, a second damping spring and a fixing pin, the upper rubber block and the lower rubber block are respectively and fixedly connected with the stirring shell and the vibration rod, the upper rubber block is connected with the lower rubber block through the fixing pin, and the surface of the fixing pin is sleeved with the second damping spring.

As a further scheme of the invention, a screen is arranged below the rolling roller, the cross section of the screen is triangular, a plurality of through holes are formed in the surface of the screen, and a material receiving box is arranged below the screen.

As a further scheme of the invention, a discharge hole is formed in the side wall of the rice mill shell, and the bottom of the rice mill shell is fixedly connected with a base.

As a further scheme of the invention, the surface of the guide shaft is also sleeved with a first damping spring.

As a further scheme of the invention, the number of the vibration motors and the number of the second telescopic cylinders are two, and the vibration motors and the second telescopic cylinders are symmetrically distributed on two sides of the blanking pipe.

In summary, compared with the prior art, the embodiment of the invention has the following beneficial effects:

stirring rake can stir the corn in the agitator housing on one side of rotating, prevent to block up the blanking pipe, first telescoping cylinder can also drive the stirring rake and be reciprocating motion along (mixing) shaft axis direction, further improved stirring efficiency, make the corn in the agitator housing can be even fall into the rice mill housing from the blanking pipe, the effect of connecting is played through the connecting rod of pivot connection in the stirring rake surface, can strengthen the shock resistance of stirring rake on the one hand, on the other hand can increase the area of contact of stirring rake and corn, make more even of its stirring, vibrating motor can beat the vibrations dish of agitator housing below through the vibrations pole according to certain frequency, can prevent that the condition of bridging and jam from appearing in the corn in the blanking pipe.

To more clearly illustrate the structural features and effects of the present invention, the present invention will be described in detail below with reference to the accompanying drawings and specific embodiments.

Drawings

Fig. 1 is a schematic structural diagram of embodiments 1 to 2 in the present invention.

FIG. 2 is a cross-sectional view A-A of FIG. 1 of the present invention.

Fig. 3 is a connection diagram of the parts in the vibration plate in embodiment 1 of the present invention.

Reference numerals: 1-feeding pipe, 2-stirring shell, 3-stirring paddle, 4-first telescopic cylinder, 5-first stirring paddle mounting block, 51-fixed column, 6-first telescopic rod, 7-bearing, 8-fixed frame, 9-guide shaft, 10-supporting plate, 11-first damping spring, 12-blanking pipe, 13-rice mill feeding port, 14-rice mill shell, 15-second telescopic cylinder, 16-second telescopic rod, 17-mounting plate, 18-rolling roller, 19-material receiving box, 20-base, 21-screen, 22-discharging port, 23-inserted bar, 24-vibration motor, 25-vibration bar, 26-vibration disc, 261-upper rubber block, 262-lower rubber block, 263-second damping spring, 264-fixed pin, 27-return spring, 28-stirring shaft, 29-transmission gear, 30-belt, 31-second stirring paddle mounting block, 32-connecting rod, 33-shaft pin, 34-driving gear and 35-servo motor.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

Specific implementations of the present invention are described in detail below with reference to specific embodiments.

Example 1

Referring to fig. 1 to 3, an anti-clogging rice mill comprises a rice mill housing 14, a feeding pipe 1, a stirring housing 2, stirring paddles 3 and a vibration plate 26, wherein a blanking pipe 12 is embedded in a rice mill feeding port 13 embedded in the top of the rice mill housing 14, the feeding pipe 1 and the blanking pipe 12 are respectively and fixedly connected to the upper side and the lower side of the stirring housing 2, the stirring paddles 3 are respectively and fixedly connected to the side walls of a first stirring paddle mounting block 5 and a second stirring paddle mounting block 31, the first stirring paddle mounting block 5 and the second stirring paddle mounting block 31 are slidably connected to the surface of a stirring shaft 28, a fixing column 51 embedded in the side wall of the first stirring paddle mounting block 5 is connected with a first telescopic cylinder 4 embedded in the side wall of the second stirring paddle mounting block 31 through a first telescopic rod 6, the number of the first stirring paddle mounting block 5 and the second stirring paddle mounting block 31 is several, and the first stirring paddle mounting block 5 and the second stirring paddle mounting block 31 are connected with the first telescopic cylinder 4 All through reset spring 27 interconnect between second stirring rake installation piece 31, the elasticity that reset spring 27 produced can weaken stirring rake 3 and remove the in-process and receive the transverse impact force from the corn, prevent its damage, the life has been prolonged, stirring rake 3 can stir the corn in the agitator housing 2 on one side of the rotation, prevent to block up blanking pipe 12, first telescoping cylinder 4 can also drive stirring rake 3 and be reciprocating motion along (mixing) shaft 2 axis direction, further improved stirring efficiency, make the corn in the agitator housing 2 can be even fall into rice mill housing 14 from blanking pipe 1.

The surface of the stirring paddle 3 is connected with a connecting rod 32 through a shaft pin 33, the two connecting rods 32 are further connected with each other through the shaft pin 33, the connecting rods 32 play a role in connection, on one hand, the shock resistance of the stirring paddle 3 can be enhanced, on the other hand, the contact area between the stirring paddle 3 and rice can be increased, so that the stirring of the rice is more uniform, a transmission gear 29 embedded at the end part of the stirring shaft 28 is connected with a driving gear 34 through a belt 30, the driving gear 34 is connected with a servo motor 35 through a motor shaft, the bottom of the stirring shell 2 is fixedly connected with a vibration disc 26, the vibration disc 26 is connected with a vibration motor 24 through a vibration rod 25, the vibration motor 2 can beat the vibration disc 26 below the stirring shell 2 through the vibration rod 25 according to certain frequency, and the rice in the.

In order to improve the stability of stirring casing 2 in vibrations process, 2 lateral walls fixedly connected with backup pad 10 of stirring casing, through-hole sliding connection that backup pad 10 was seted up through its surface is on the inlaid guiding axle 9 surface of 8 lateral walls of mount, 8 fixed connection of mount are at rice mill casing 14 tops.

In order to weaken the longitudinal force applied to the mixing housing 2 from the vibration rod 25, the first damping spring 11 is sleeved on the surface of the guide shaft 9.

The vibration disc 26 comprises an upper rubber block 261, a lower rubber block 262, a second damping spring 263 and a fixing pin 264, wherein the upper rubber block 261 and the lower rubber block 262 are respectively fixedly connected with the stirring shell 2 and the vibration rod 25, the upper rubber block 261 is connected with the lower rubber block 262 through the fixing pin 264, the surface of the fixing pin 264 is sleeved with the second damping spring 263, the second damping spring 263 further weakens the longitudinal force of the stirring shell 2 from the vibration rod 25, the damage of the second damping spring 263 is prevented, and the service life is prolonged.

Example 2

Referring to fig. 1, the anti-blocking rice mill further comprises a rice mill housing 14, a second telescopic cylinder 15 is fixedly connected to the inner wall of the rice mill housing 14, the second telescopic cylinder 15 is connected with a mounting plate 17 through a second telescopic rod 16, a rolling roller 18 is connected to the surface of the mounting plate 17 through a rotating shaft, the rolling roller 18 can extrude and break the cuticle in rice grains to separate the rice hulls from the rice grains, an inserting rod 23 is fixedly connected to the side wall of the mounting plate 17, the inserting rod 23 is embedded into a rice mill feeding port 13 and a blanking pipe 1, the second telescopic cylinder 15 can drive the inserting rod 23 to move up and down, the inserting rod 23 can prevent the rice grains from being blocked by continuously drawing and inserting the rice mill feeding port 13 and the blanking pipe 12, and the blanking efficiency is improved.

The grinding roller 18 below is provided with screen cloth 21, screen cloth 21's cross section is triangle-shaped, and under the effect of gravity, rice and rice husk can roll to both sides along screen cloth 21 automatically to a plurality of through-holes have been seted up on the surface, only allow the less rice of volume to fall from the through-hole, the rice husk then continues to roll to discharge gate 22, material receiving box 19 has been placed to screen cloth 21 below for collect rice.

Discharge gate 22 has been seted up to rice mill casing 14 lateral wall, is convenient for collect the rice husk to bottom fixedly connected with base 20 possesses the good characteristics of stability.

The quantity of the vibration motors 2 and the quantity of the second telescopic cylinders 15 are two, and the vibration motors and the second telescopic cylinders are symmetrically distributed on two sides of the blanking pipe 12, so that the vibration motors have the advantage of good stability.

The rest of the structure of this example is the same as example 1.

The working principle of the invention is as follows: firstly, rice is put into a stirring shell 2 from a feeding pipe 1, then a servo motor 35 and a first telescopic cylinder 4 are started, the stirring paddle 3 can stir the rice in the stirring shell 2 while rotating, meanwhile, the first telescopic cylinder 4 can drive the stirring paddle 3 to do reciprocating motion along the axial direction of a stirring shaft 2, then a vibration motor 2 is started, a vibration disc 26 below the stirring shell 2 can be knocked by a vibration rod 25 according to a certain frequency, the rice in a blanking pipe 12 can be prevented from bridging and blocking, the rice in the stirring shell 2 can uniformly fall into a rice mill shell 14 from the blanking pipe 1, then a rolling roller 18 and a second telescopic cylinder 15 are started, the rolling roller 18 can extrude and break the cuticle in the rice, the rice husk is separated from the rice, and an inserting rod 23 can prevent the blockage by continuously pulling and inserting the rice in a feeding port 13 and the blanking pipe 12 of the rice mill, under the action of gravity, the rice and the rice hulls can automatically roll down along the screen 21 to two sides, the rice falls to the material receiving box 19 below from the through hole, and the rice hulls continue to roll to the discharge hole 22.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents and improvements made within the spirit and principle of the present invention are intended to be included within the scope of the present invention.

Claims (8)

1. A rice mill capable of preventing blockage comprises a rice mill shell (14), a feeding pipe (1), a stirring shell (2), stirring paddles (3) and a vibration disc (26), and is characterized in that a blanking pipe (12) is embedded in a rice mill feeding port (13) embedded in the top of the rice mill shell (14), the feeding pipe (1) and the blanking pipe (12) are fixedly connected to the upper side and the lower side of the stirring shell (2) respectively, the stirring paddles (3) are fixedly connected to the side walls of a first stirring paddle mounting block (5) and a second stirring paddle mounting block (31) respectively, the first stirring paddle mounting block (5) and the second stirring paddle mounting block (31) are connected to the surface of a stirring shaft (28) in a sliding manner, a fixing column (51) embedded in the side wall of the first stirring paddle mounting block (5) is connected with a first telescopic cylinder (4) embedded in the side wall of the second stirring paddle mounting block (31) through a first telescopic rod (6), the number of the first stirring paddle mounting blocks (5) and the second stirring paddle mounting blocks (31) is a plurality, and the first stirring paddle mounting block (5) as well as the second stirring paddle mounting block (31) and the second stirring paddle mounting block (31) are connected with each other through a return spring (27), the surface of the stirring paddle (3) is connected with a connecting rod (32) through a shaft pin (33), and the two connecting rods (32) are also connected with each other through a shaft pin (33), a transmission gear (29) embedded at the end part of the stirring shaft (28) is connected with a driving gear (34) through a belt (30), the driving gear (34) is connected with a servo motor (35) through a motor shaft, the bottom of the stirring shell (2) is fixedly connected with a vibration disc (26), the vibration disc (26) is connected with a vibration motor (24) through a vibration rod (25).

2. The rice mill capable of preventing blockage according to claim 1, characterized in that a second telescopic cylinder (15) is fixedly connected to the inner wall of a rice mill shell (14), the second telescopic cylinder (15) is connected with a mounting plate (17) through a second telescopic rod (16), the surface of the mounting plate (17) is connected with a grinding roller (18) through a rotating shaft, an insertion rod (23) is further fixedly connected to the side wall of the mounting plate (17), and the insertion rod (23) is embedded into a rice mill feeding port (13) and a blanking pipe (1).

3. An anti-clogging rice mill according to claim 2, characterized in that the side wall of the stirring shell (2) is fixedly connected with a supporting plate (10), the supporting plate (10) is slidably connected on the surface of a guide shaft (9) embedded in the side wall of a fixing frame (8) through a through hole formed in the surface of the supporting plate, and the fixing frame (8) is fixedly connected to the top of the rice mill shell (14).

4. The rice mill capable of preventing blockage according to claim 1, wherein the vibration disc (26) comprises an upper rubber block (261), a lower rubber block (262), a second damping spring (263) and a fixing pin (264), the upper rubber block (261) and the lower rubber block (262) are fixedly connected with the stirring shell (2) and the vibration rod (25) respectively, the upper rubber block (261) is connected with the lower rubber block (262) through the fixing pin (264), and the second damping spring (263) is sleeved on the surface of the fixing pin (264).

5. The rice mill capable of preventing blockage according to claim 2, wherein a screen mesh (21) is arranged below the rolling roller (18), the cross section of the screen mesh (21) is triangular, a plurality of through holes are formed in the surface of the screen mesh, and a material receiving box (19) is arranged below the screen mesh (21).

6. An anti-clogging rice mill according to claim 3, characterized in that the rice mill housing (14) has a discharge opening (22) in its side wall and a base (20) is fixedly connected to the bottom.

7. An anti-clogging rice mill according to claim 3, characterized in that the surface of said guide shaft (9) is further sleeved with a first damping spring (11).

8. An anti-clogging rice mill according to claim 3, characterized in that the number of said vibration motors (2) and second telescopic cylinders (15) is two and they are symmetrically distributed on both sides of the down pipe (12).

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