CN113925184A - Small red bean vibrating peeling equipment - Google Patents

Abstract

The invention relates to a vibration peeling device, in particular to a small red bean vibration peeling device which comprises a vibration peeling mechanism, a conveying mechanism and a separating mechanism, wherein the device can vibrate and separate small red beans from small red bean skins, the device can convey soil on the small red beans out of the device when the small red beans and the small red bean skins are separated in a vibration mode, the device can convey the separated small red beans and the small red bean skins into a separation stirring barrel, the device can convey the small red bean skins out of the device, the vibration peeling mechanism is connected with the conveying mechanism, the conveying mechanism is connected with the separating mechanism, and the separating mechanism is connected with the vibration peeling mechanism.

Description

Small red bean vibrating peeling equipment

Technical Field

The invention relates to a vibrating peeling device, in particular to a vibrating peeling device for small red beans.

Background

In the process of peeling small red beans, the process flow is complicated, more personnel are needed to cooperate with different equipment to complete the peeling, the small red beans and the small red bean peels are frequently insufficiently separated, unnecessary economic loss is easily caused, but no better vibration peeling equipment is arranged on the market, so the small red bean vibration peeling equipment is designed.

Disclosure of Invention

The invention mainly solves the technical problem of providing small red bean vibration peeling equipment which can vibrate and separate small red beans from small red bean skins, convey soil on the small red beans out of the equipment when the small red beans are separated from the small red bean skins in a vibration mode, convey the separated small red beans and the small red bean skins into a separation stirring barrel and convey the small red bean skins out of the equipment.

In order to solve the technical problem, the invention relates to a vibration peeling device, and particularly relates to a small red bean vibration peeling device which comprises a vibration peeling mechanism, a conveying mechanism and a separating mechanism, wherein the device can vibrate and separate small red beans from small red bean skins, the device can convey soil on the small red beans out of the device when the small red beans and the small red bean skins are separated in a vibration mode, the device can convey the separated small red beans and the small red bean skins into a separating and stirring barrel, and the device can convey the small red bean skins out of the device.

Vibrate peeling mechanism and transport mechanism and be connected, transport mechanism is connected with separating mechanism, and separating mechanism is connected with vibrate peeling mechanism.

As a further optimization of the technical scheme, the invention relates to small red bean oscillation peeling equipment, which comprises a power shaft a, a friction wheel a, a belt b, a connecting shaft a, a special-shaped oscillation wheel, a connecting shaft b, a sliding limiting plate, an oscillation plate, a driving belt, a belt c, a connecting shaft c, a friction wheel b, a limiting plate a, a cutter driving belt, a peeling knife, an equipment connecting box, a connecting plate a, a connecting plate b, a connecting plate c, a silt scraper blade and an equipment mounting groove, wherein the power shaft a is connected with the friction wheel a, the power shaft a is connected with an equipment connecting box bearing, the power shaft a is connected with the belt a in a friction manner, the friction wheel a is connected with the driving belt in a friction manner, the belt b is connected with the connecting shaft a in a friction manner, the connecting shaft a is connected with the special-shaped oscillation wheel, the connecting shaft a is connected with the belt c in a friction manner, the connecting shaft a is connected with the equipment connecting box bearing, the special-shaped oscillating wheel is connected with the oscillating plate in a sliding way, the connecting shaft b is connected with the driving belt in a friction way, the connecting shaft b is connected with the bearing of the equipment connecting box, the sliding limiting plate is connected with the equipment connecting box in a sliding way, the oscillating plate is connected with the driving belt in a sliding way, the belt c is connected with the connecting shaft c in a friction way, the connecting shaft c is connected with the friction wheel b, the connecting shaft c is connected with the bearing of the equipment connecting box, the friction wheel b is connected with the driving belt of the cutter in a friction way, the limiting plate a is connected with the equipment connecting box in a friction way, the driving belt of the cutter is connected with the connecting shaft b, the driving belt of the cutter is connected with the peeling knife, the equipment connecting box is connected with the connecting plate a, the equipment connecting box is connected with the connecting plate b, the equipment connecting box is connected with the connecting plate c, the equipment connecting box is connected with the silt scraper blade, and the equipment connecting box is connected with the equipment mounting groove, the silt scraper blade is in frictional connection with the transmission belt.

As a further optimization of the technical scheme, the invention relates to small red bean oscillation peeling equipment, which comprises a conveying mechanism, a power shaft b, a linkage belt, a thickening belt, a first connecting shaft, a reverse belt, a forward threaded shaft, a reverse threaded shaft, a first connecting plate, a first belt, a second connecting shaft, a sealing winding belt, an internal threaded connecting column, an inclined conveying plate, a reset spring, a first limiting plate, a second limiting plate, a third limiting plate, a fourth limiting plate, an inclined output plate a, an inclined output plate b, a belt friction wheel shaft, a second belt, a third connecting shaft, a rotating plate, a stirring plate a, a stirring plate b, a stirring chute, an output reset shaft, an output sliding plate, an output reset spring, a second connecting plate, a third connecting plate, a fourth connecting plate and a connecting stirring barrel, wherein the power shaft b is in friction connection with the linkage belt, the power shaft b is in bearing connection with the second connecting plate, and the power shaft b is in bearing connection with the third connecting plate, the power shaft b is connected with a connecting plate four-shaft bearing, the linkage belt is connected with a thickening belt, the linkage belt is in friction connection with a connecting shaft I, the thickening belt is in intermittent friction connection with a forward threaded shaft, the thickening belt is in intermittent friction connection with a reverse threaded shaft, the connecting shaft I is connected with a connecting plate two-shaft bearing, the connecting shaft I is in friction connection with a reverse belt, the reverse belt is in friction connection with the forward threaded shaft, the reverse belt is in friction connection with a reverse threaded shaft, the forward threaded shaft is connected with a connecting plate two-shaft bearing, the forward threaded shaft is in threaded connection with a connecting plate I, the forward threaded shaft is in threaded connection with an internal threaded connecting post, the reverse threaded shaft is connected with a connecting plate two-shaft bearing, the reverse threaded shaft is in threaded connection with the internal threaded connecting post, the connecting plate I is connected with an equipment connecting box, one end of the belt is in friction connection with the connecting shaft II, and the other end of the belt is in friction connection with the connecting shaft a, a second connecting shaft is connected with a bearing of an equipment connecting box, a second sealing winding belt is wound on the second connecting shaft and is connected with the second connecting shaft at one end, the second sealing winding belt is connected with an inclined conveying plate, one side of the second sealing winding belt is connected with a third limiting plate in a sliding way, the other side of the second sealing winding belt is connected with a fourth limiting plate in a sliding way, an internal thread connecting column is connected with the inclined conveying plate, the inclined conveying plate is connected with a first limiting plate, the inclined conveying plate is hinged with the second limiting plate, one end of a reset spring is connected with the first limiting plate and the other end of the first limiting plate, the third limiting plate is connected with an inclined output plate a, the fourth limiting plate is connected with the inclined output plate a, the inclined output plate a is connected with the equipment connecting box, the inclined output plate a is connected with an inclined output plate b, a shaft with friction is connected with a linkage belt, the shaft with the bearing of the equipment connecting box is connected with the second belt in a friction way, and the second belt is connected with the third connecting shaft in a friction way, the third connecting shaft is connected with the third rotating plate, the third connecting shaft is connected with a bearing of the equipment connecting box, the rotating plate is connected with the shifting plate a in a sliding mode, the shifting plate a is connected with the shifting plate b, the shifting plate b is connected with the shifting plate c, the shifting plate b is connected with the shifting chute in a sliding mode, the shifting plate c is connected with the output reset shaft in a sliding mode, the shifting chute is connected with the second connecting plate, the output reset shaft is connected with the output sliding plate in a sliding mode, the output sliding plate is connected with the shifting chute, the output reset spring is sleeved on the output reset shaft and limited to the shifting plate c and the equipment connecting box, the second connecting plate is connected with the equipment connecting box, the third connecting plate is connected with the equipment connecting box, the fourth connecting plate is connected with the equipment connecting box, and the fourth connecting plate is connected with the stirring barrel.

The vibrating small red bean peeling device as claimed in claim 1, wherein: separating mechanism include the screw, drain pipe an, mounting panel an, the output basin, the micropore board, mounting panel b, the conveyer trough, connect the belt, the transmission shaft, the stirring board, drain pipe b, the back flow, the screw is connected with power shaft b, drain pipe a is connected with a mounting panel b and passes mounting panel a and be connected and communicate with the output basin, the output basin is connected with the micropore board, the output basin is connected with the equipment connecting box, mounting panel b is connected with the conveyer trough, mounting panel b is connected with connecting plate four, it is connected with power shaft b friction connection other end and transmission shaft friction connection to connect belt one end, the transmission shaft is connected with the stirring board, the transmission shaft is connected with connecting plate four bearings, drain pipe b is connected with mounting panel b and with be connected the jogged joint on the agitator, the back flow is connected with mounting panel b and with be connected the jogged joint on the agitator.

As a further optimization of the technical scheme, the small red bean shaking peeling equipment is characterized in that power sources are arranged on the power shaft a and the power shaft b and can rotate.

As a further optimization of the technical scheme, the small red bean shaking peeling equipment provided by the invention has the advantages that a large number of micropores are formed in the bottom of the conveying tank, and the small red bean skins and water can be filtered.

The vibrating small red bean peeling equipment has the beneficial effects that:

the invention relates to small red bean vibration peeling equipment which can vibrate and separate small red beans and small red bean skins, can convey soil on the small red beans out of the equipment when the small red beans and the small red bean skins are separated in a vibration mode, can convey the separated small red beans and the small red bean skins into a separation stirring barrel, and can convey the small red bean skins out of the equipment.

Drawings

The invention is described in further detail below with reference to the accompanying drawings and specific embodiments.

FIG. 1 is a first schematic structural diagram of a small red bean shaking and peeling apparatus of the present invention.

Fig. 2 is a schematic structural diagram of a small red bean shaking and peeling device of the present invention.

Fig. 3 is a first structural schematic diagram of a vibration peeling mechanism 1 of the small red bean vibration peeling device of the present invention.

Fig. 4 is a second structural schematic diagram of the oscillating peeling mechanism 1 of the small red bean oscillating peeling device of the present invention.

Fig. 5 is a third structural schematic diagram of a vibration peeling mechanism 1 of the small red bean vibration peeling device of the present invention.

Fig. 6 is a fourth schematic structural diagram of the vibration peeling mechanism 1 of the small red bean vibration peeling device of the present invention.

Fig. 7 is a fifth structural schematic diagram of the vibration peeling mechanism 1 of the small red bean vibration peeling device of the present invention.

Fig. 8 is a sixth schematic structural diagram of the vibration peeling mechanism 1 of the small red bean vibration peeling device of the present invention.

Fig. 9 is a seventh structural schematic diagram of the oscillating peeling mechanism 1 of the small red bean oscillating peeling device of the present invention.

Fig. 10 is a first structural schematic diagram of the conveying mechanism 2 of the small red bean shaking peeling apparatus of the present invention.

Fig. 11 is a second schematic structural diagram of the conveying mechanism 2 of the small red bean shaking and peeling apparatus of the present invention.

Fig. 12 is a third schematic structural diagram of the conveying mechanism 2 of the small red bean shaking and peeling apparatus of the present invention.

Fig. 13 is a fourth schematic structural diagram of the conveying mechanism 2 of the small red bean shaking and peeling apparatus of the present invention.

Fig. 14 is a fifth schematic structural diagram of the conveying mechanism 2 of the small red bean shaking and peeling apparatus of the present invention.

Fig. 15 is a sixth schematic structural view of the conveying mechanism 2 of the small red bean shaking peeling apparatus of the present invention.

Fig. 16 is a seventh schematic structural diagram of the conveying mechanism 2 of the small red bean shaking and peeling apparatus of the present invention.

Fig. 17 is an eighth schematic structural diagram of the conveying mechanism 2 of the small red bean shaking and peeling apparatus of the present invention.

Fig. 18 is a nine-schematic structural diagram of the conveying mechanism 2 of the small red bean shaking and peeling apparatus of the present invention.

Fig. 19 is a schematic structural diagram ten of the conveying mechanism 2 of the small red bean shaking and peeling apparatus of the present invention.

Fig. 20 is a first schematic structural diagram of a separating mechanism 3 of an oscillating small red bean peeling apparatus of the present invention.

Fig. 21 is a second schematic structural diagram of the separating mechanism 3 of the small red bean shaking and peeling apparatus of the present invention.

Fig. 22 is a third schematic structural diagram of the separating mechanism 3 of the small red bean shaking and peeling apparatus of the present invention.

Fig. 23 is a fourth schematic structural diagram of the separating mechanism 3 of the small red bean shaking peeling apparatus of the present invention.

In the figure: a vibration peeling mechanism 1; power shaft a 1-1; friction wheel a 1-2; belt a 1-3; belt b 1-4; connecting shaft a 1-5; 1-6 of special-shaped oscillating wheels; connecting shaft b 1-7; 1-8 sliding limit plates; vibrating plates 1-9; 1-10 of a transmission belt; belt c 1-11; connecting shaft c 1-12; friction wheel b 1-13; the limiting plates a 1-14; 1-15 parts of a cutter transmission belt; 1-16 parts of a peeling knife; equipment connecting boxes 1-17; web a 1-18; connecting plate b 1-19; connecting plates c 1-20; 1-21 parts of a sediment scraper; equipment mounting grooves 1-22; a conveying mechanism 2; a power shaft b 2-1; 2-2 of a linkage belt; thickening the belt 2-3; connecting shafts I2-4; 2-5 of a reverse belt; 2-6 of a positive thread shaft; reverse threaded shafts 2-7; 2-8 of a first connecting plate; 2-9 parts of a first belt; 2-10 parts of a connecting shaft II; 2-11 of a sealing winding belt; 2-12 parts of an internal thread connecting column; inclined transfer plates 2-13; 2-14 parts of a return spring; 2-15 parts of a first limiting plate; 2-16 parts of a second limiting plate; 2-17 parts of a limiting plate III; 2-18 parts of a limiting plate; tilt output plate a 2-19; a tilt output plate b 2-20; 2-21 parts of a friction wheel shaft; 2-22 parts of a second belt; connecting shafts III 2-23; rotating plates 2-24; toggle plate a 2-25; toggle plates b 2-26; toggle plate c 2-27; poking the chute 2-28; output reset shafts 2-29; an output slide plate 2-30; output return springs 2-31; 2-32 parts of a second connecting plate; connecting plates III 2-33; connecting plates four 2-34; connecting the stirring barrel 2-35; a separation mechanism 3; 3-1 of a propeller; a drain a 3-2; mounting plate a 3-3; 3-4 parts of an output water tank; 3-5 of a microporous plate; mounting plate b 3-6; conveying grooves 3-7; 3-8 of a connecting belt; 3-9 parts of a transmission shaft; 3-10 parts of a stirring plate; a drain pipe b 3-11; a return pipe 3-12.

Detailed Description

The first embodiment is as follows:

the present invention relates to a vibration peeling device, and more particularly to a vibration peeling device for small red beans, which comprises a vibration peeling mechanism 1, a conveying mechanism 2 and a separating mechanism 3, the device can separate small red beans and small red bean skins in a vibration manner, the device can convey soil on the small red beans out of the device when the small red beans and the small red bean skins are separated in a vibration manner, the device can convey the separated small red beans and the small red bean skins into a separating and stirring barrel, and the device can convey the small red bean skins out of the device.

Vibrate peeling mechanism 1 and be connected with transport mechanism 2, transport mechanism 2 is connected with separating mechanism 3, and separating mechanism 3 is connected with vibrating peeling mechanism 1.

The second embodiment is as follows:

the following describes the present embodiment with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, fig. 14, fig. 15, fig. 16, fig. 17, fig. 18, fig. 19, fig. 20, fig. 21, fig. 22, and fig. 23, and the present embodiment further describes the present embodiment, wherein the device is capable of shaking and separating small red beans from small red bean skins, the device is capable of conveying soil on small red beans out of the device when the small red beans are shaking and separating from small red bean skins, the power shaft a1-1 rotates, the power shaft a1-1 rotates to drive the friction wheel a1-2 to rotate, the power shaft a1-1 rotates to drive the other power shaft a1-1 to rotate through the belt a1-3, at the same time, the two friction wheels a1-2 rotate simultaneously, the friction wheel a1-2 rotates to drive the connecting shaft of the driving belt a 3610 to connect to the connecting shaft b1-7, The sliding limit plates 1-8 and the oscillating plates 1-9 limit downward movement, at the same time, the transmission belts 1-10 can transmit the signals to the connection plates c1-20, the connection plates c1-20 are peeled red beans which are inclined on the transmission belts 1-10, the power shaft a1-1 drives the connection shaft a1-5 to rotate through the belt b1-4 when rotating, the connection shaft a1-5 drives the special-shaped oscillating wheel 1-6 to rotate when rotating, the special-shaped oscillating wheel 1-6 drives the oscillating plates 1-9 to accelerate up-and-down reciprocating movement when rotating, the oscillating plates 1-9 reciprocate up and down under the limit of the two sliding limit plates 1-8, the oscillating plates 1-9 drive the transmission belts 1-10 to reciprocate up and down and oscillate the unpeeled red beans, and the transmission belts 1-10 transmit the connection plates c1-20 to the connection plates c1-20 when oscillating the red beans because the transmission belts 1-10 are made of high-elasticity rubber The unpeeled small red beans can be separated from the skins of the small red beans in a vibration manner in the process, the connecting shaft a1-5 is driven to rotate, the connecting shaft c1-12 is driven to rotate, the connecting shaft c1-12 rotates to drive the other connecting shaft c1-12 to rotate through the belt a1-3, the connecting shaft c1-12 drives the friction wheel b1-13 to rotate, the friction wheel b1-13 drives the cutter driving belt 1-15 to transmit the peeling knife 1-16 in the direction far away from the connecting plate c1-20 under the limitation of the connecting shaft b1-7 and the limiting plate a1-14 when rotating, the transmitted peeling knife 1-16 can further separate the vibrated small red beans from the skins and transmit the small red beans and the skins far away from the connecting plate c1-20, the propeller b2-1 is driven to rotate by the propeller 3-1, the propeller 3-1 can convey water in a space formed by the equipment connecting box 1-17, the connecting plate four 2-34 and the mounting plate b3-6 upwards when rotating, the conveyed water is discharged into the output water tank 3-4 through the water discharge pipe a3-2, the conveyed water is also discharged into the connecting stirring barrel 2-35 through the water discharge pipe b3-11, the water in the connecting stirring barrel 2-35 is limited in height under the action of the return pipe 3-12 and uniformly sprinkled on the connecting plate c1-20 under the action of the microporous plate 3-5, soil on the small red beans and the small red bean skins is cleaned, soil on the small red beans and the small red bean skins can be scraped from the driving belt 1-10 under the action of the silt scraper 1-21, and the small red beans and the small red bean skins are conveyed out of the equipment through the silt scraper 1-21.

The third concrete implementation mode:

the following describes the present embodiment with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, fig. 14, fig. 15, fig. 16, fig. 17, fig. 18, fig. 19, fig. 20, fig. 21, fig. 22, and fig. 23. the present embodiment further describes the first embodiment, the apparatus can convey separated small red beans and small red bean skins into a separation stirring barrel, the apparatus can convey the small red bean skins out of the apparatus, when the power shaft b2-1 rotates, the connecting shaft 2-4 rotates via the linkage belt 2-2, the connecting shaft 2-4 rotates via the reverse belt 2-5, the two linkage belts 2-2 simultaneously drive the reverse belt thickening belts 2-3 to move, when the two thickening belts 2-3 move, the forward threaded shaft 2-6 rotates forward and then drives the reverse threaded shaft 2-3 to rotate forward 7, reversely rotating, keeping the forward threaded shaft 2-6 and the reverse threaded shaft 2-7 to simultaneously reversely rotate under the action of the reverse belt 2-5, driving the inclined conveying plates 2-13 to upwards convey the small red beans through the internal threaded connecting columns 2-12 when the forward threaded shaft 2-6 forwardly rotates and the reverse threaded shaft 2-7 reversely rotates, driving the inclined conveying plates 2-13 to reset when the forward threaded shaft 2-6 reversely rotates and the reverse threaded shaft 2-7 forwardly rotates, driving the first limiting plates 2-15 and the second limiting plates 2-16 to move when the small red beans are conveyed upwards, driving the first limiting plates 2-15 to move upwards to the highest point when the first limiting plates 2-15 move to be slightly higher than the bottom of the shifting plate c2-27, and driving the friction wheel shafts 2-21 to rotate when the linkage belt 2-2 moves, the friction wheel shaft 2-21 rotates to drive the connecting shaft three 2-23 to rotate through the belt two 2-22, the connecting shaft three 2-23 rotates to drive the rotating plate 2-24 to rotate, the rotating plate 2-24 rotates to drive the poking plate a2-25 to do transverse reciprocating motion, the poking plate a2-25 moves to drive the poking plate c2-27 to do transverse reciprocating motion under the limitation of the poking sliding chute 2-28 through the poking plate b2-26, the poking plate c2-27 intermittently drives the limiting plate one 2-15 which moves to the highest point to rotate when moving, the limiting plate one 2-15 can automatically reset under the action of the reset spring 2-14, the limiting plate one 2-15 rotates to the poking plate a2-25 direction by taking a hinge point with the inclined transmission plate 2-13 as a center, the process can transmit the red beans which are transmitted upwards by the inclined transmission plate 2-13 to the inclined output plate a2-19, small red beans on the inclined output plate a2-19 are inclined into the stirring barrel 2-35 under the action of the inclined output plate b2-20, the power shaft b2-1 rotates and drives the transmission shaft 3-9 to rotate through the connecting belt 3-8, the transmission shaft 3-9 rotates and drives the stirring plate 3-10 to rotate, the small red beans and water in the stirring barrel 2-35 can be rotated when the stirring plate 3-10 rotates, the small red bean skins rotate at the center of the water surface under the action of centrifugal force generated during rotation, the small red bean skins rotating at the center of the water surface can be conveyed into the conveying groove 3-7 when the rotating plate 2-24 rotates, and are inclined onto the mounting plate a3-3 under the action of the conveying groove 3-7 and are inclined out of the device through the mounting plate a 3-3.

It is to be understood that the above description is not intended to limit the present invention, and the present invention is not limited to the above examples, and that various changes, modifications, additions and substitutions which are within the spirit and scope of the present invention and which may be made by those skilled in the art are also within the scope of the present invention.

Claims (6)

1. The utility model provides a adzuki bean vibrates peeling apparatus, is including vibrating peeling mechanism (1), transport mechanism (2), separating mechanism (3), its characterized in that: vibrate decortication mechanism (1) be connected with transport mechanism (2), transport mechanism (2) are connected with separating mechanism (3), separating mechanism (3) are connected with vibrate decortication mechanism (1).

2. The vibrating small red bean peeling device as claimed in claim 1, wherein: the vibrating peeling mechanism (1) comprises a power shaft a (1-1), a friction wheel a (1-2), a belt a (1-3), a belt b (1-4), a connecting shaft a (1-5), a special-shaped vibrating wheel (1-6), a connecting shaft b (1-7), a sliding limiting plate (1-8), a vibrating plate (1-9), a driving belt (1-10), a belt c (1-11), a connecting shaft c (1-12), a friction wheel b (1-13), a limiting plate a (1-14), a cutter driving belt (1-15), a peeling cutter (1-16), an equipment connecting box (1-17), a connecting plate a (1-18), a connecting plate b (1-19), a connecting plate c (1-20), a sediment scraper (1-21), The device comprises device mounting grooves (1-22), a power shaft a (1-1) is connected with friction wheels a (1-2), the power shaft a (1-1) is connected with a device connecting box (1-17) through a bearing, the power shaft a (1-1) is connected with a belt a (1-3) through friction, the power shaft a (1-1) is connected with a belt b (1-4) through friction, the friction wheels a (1-2) are connected with a transmission belt (1-10) through friction, the belt b (1-4) is connected with a connecting shaft a (1-5) through friction, the connecting shaft a (1-5) is connected with a special-shaped oscillating wheel (1-6), the connecting shaft a (1-5) is connected with a belt c (1-11) through friction, and the connecting shaft a (1-5) is connected with the device connecting box (1-17) through a bearing, the special-shaped oscillating wheel (1-6) is connected with an oscillating plate (1-9) in a sliding manner, a connecting shaft b (1-7) is connected with a driving belt (1-10) in a friction manner, the connecting shaft b (1-7) is connected with an equipment connecting box (1-17) through a bearing, a sliding limiting plate (1-8) is connected with the oscillating plate (1-9) in a sliding manner, a sliding limiting plate (1-8) is connected with an equipment connecting box (1-17), the oscillating plate (1-9) is connected with the driving belt (1-10) in a sliding manner, a belt c (1-11) is connected with a connecting shaft c (1-12) in a friction manner, the connecting shaft c (1-12) is connected with a friction wheel b (1-13), the connecting shaft c (1-12) is connected with an equipment connecting box (1-17) through a bearing, the friction wheel b (1-13) is connected with a cutter (1-15) in a friction manner, the limiting plates a (1-14) are in friction connection with the cutter transmission belts (1-15), the limiting plates a (1-14) are connected with the equipment connecting boxes (1-17), the cutter transmission belts (1-15) are in friction connection with the connecting shafts b (1-7), the cutter transmission belts (1-15) are connected with the peeling knives (1-16), the equipment connecting boxes (1-17) are connected with the connecting plates a (1-18), the equipment connecting boxes (1-17) are connected with the connecting plates b (1-19), the equipment connecting boxes (1-17) are connected with the connecting plates c (1-20), the equipment connecting boxes (1-17) are connected with the silt scrapers (1-21), the equipment connecting boxes (1-17) are connected with the equipment mounting grooves (1-22), and the silt scrapers (1-21) are in friction connection with the transmission belts (1-10).

3. The vibrating small red bean peeling device as claimed in claim 1, wherein: the conveying mechanism (2) comprises a power shaft b (2-1), a linkage belt (2-2), a thickening belt (2-3), a connecting shaft I (2-4), a reverse belt (2-5), a forward threaded shaft (2-6), a reverse threaded shaft (2-7), a connecting plate I (2-8), a belt I (2-9), a connecting shaft II (2-10), a sealing winding belt (2-11), an internal thread connecting column (2-12), an inclined conveying plate (2-13), a reset spring (2-14), a limiting plate I (2-15), a limiting plate II (2-16), a limiting plate III (2-17), a limiting plate IV (2-18), an inclined output plate A (2-19), an inclined output plate b (2-20), A friction wheel shaft (2-21), a belt II (2-22), a connecting shaft III (2-23), a rotating plate (2-24), a poking plate a (2-25), a poking plate b (2-26), a poking plate c (2-27), a poking chute (2-28), an output reset shaft (2-29), an output sliding plate (2-30), an output reset spring (2-31), a connecting plate II (2-32), a connecting plate III (2-33), a connecting plate IV (2-34) and a connecting stirring barrel (2-35), wherein a power shaft b (2-1) is in friction connection with the linkage belt (2-2), a power shaft b (2-1) is in bearing connection with the connecting plate II (2-32), and a power shaft b (2-1) is in bearing connection with the connecting plate III (2-33), a power shaft b (2-1) is in bearing connection with a connecting plate four (2-34), a linkage belt (2-2) is connected with a thickening belt (2-3), the linkage belt (2-2) is in friction connection with a connecting shaft I (2-4), the thickening belt (2-3) is in intermittent friction connection with a forward threaded shaft (2-6), the thickening belt (2-3) is in intermittent friction connection with a reverse threaded shaft (2-7), the connecting shaft I (2-4) is in bearing connection with a connecting plate II (2-32), the connecting shaft I (2-4) is in friction connection with a reverse belt (2-5), the reverse belt (2-5) is in friction connection with the forward threaded shaft (2-6), and the reverse belt (2-5) is in friction connection with the reverse threaded shaft (2-7), the forward threaded shaft (2-6) is in bearing connection with a second connecting plate (2-32), the forward threaded shaft (2-6) is in threaded connection with a first connecting plate (2-8), the forward threaded shaft (2-6) is in threaded connection with an internal threaded connecting column (2-12), the reverse threaded shaft (2-7) is in bearing connection with a second connecting plate (2-32), the reverse threaded shaft (2-7) is in threaded connection with a first connecting plate (2-8), the reverse threaded shaft (2-7) is in threaded connection with an internal threaded connecting column (2-12), the first connecting plate (2-8) is connected with an equipment connecting box (1-17), one end of a belt (2-9) is in frictional connection with a second connecting shaft (2-10), the other end of the belt is in frictional connection with a connecting shaft a (1-5), the second connecting shaft (2-10) is in bearing connection with the equipment connecting box (1-17), a sealing winding belt (2-11) is wound on a second connecting shaft (2-10) and connected with the second connecting shaft (2-10) at one end, the sealing winding belt (2-11) is connected with an inclined conveying plate (2-13), one side of the sealing winding belt (2-11) is connected with a third limiting plate (2-17) in a sliding way, the other side of the sealing winding belt is connected with a fourth limiting plate (2-18) in a sliding way, an internal thread connecting column (2-12) is connected with the inclined conveying plate (2-13), the inclined conveying plate (2-13) is connected with a first limiting plate (2-15), the inclined conveying plate (2-13) is hinged with a second limiting plate (2-16), one end of a reset spring (2-14) is connected with the first limiting plate (2-15) at the other end and connected with the second limiting plate (2-16), and the third limiting plate (2-17) is connected with an inclined output plate a (2-19), the limiting plate IV (2-18) is connected with an inclined output plate A (2-19), the inclined output plate A (2-19) is connected with an equipment connecting box (1-17), the inclined output plate A (2-19) is connected with an inclined output plate b (2-20), a belt friction wheel shaft (2-21) is in friction connection with a linkage belt (2-2), the belt friction wheel shaft (2-21) is in bearing connection with the equipment connecting box (1-17), the belt friction wheel shaft (2-21) is in friction connection with a belt II (2-22), the belt II (2-22) is in friction connection with a connecting shaft III (2-23), the connecting shaft III (2-23) is connected with a rotating plate (2-24), the connecting shaft III (2-23) is in bearing connection with the equipment connecting box (1-17), the rotating plate (2-24) is in sliding connection with a shifting plate A (2-25), the toggle plate a (2-25) is connected with the toggle plate b (2-26), the toggle plate b (2-26) is connected with the toggle plate c (2-27), the toggle plate b (2-26) is connected with the toggle sliding chute (2-28) in a sliding way, the toggle plate c (2-27) is connected with the output reset shaft (2-29) in a sliding way, the toggle sliding chute (2-28) is connected with the connecting plate II (2-32), the output reset shaft (2-29) is connected with the output sliding plate (2-30) in a sliding way, the output sliding plate (2-30) is connected with the toggle sliding chute (2-28), the output reset spring (2-31) is sleeved on the output reset shaft (2-29) and limited on the toggle plate c (2-27) and the equipment connecting box (1-17), the connecting plate II (2-32) is connected with the equipment connecting box (1-17), the third connecting plate (2-33) is connected with the equipment connecting box (1-17), the fourth connecting plate (2-34) is connected with the equipment connecting box (1-17), and the fourth connecting plate (2-34) is connected with the connecting stirring barrel (2-35).

4. The vibrating small red bean peeling device as claimed in claim 1, wherein: the separating mechanism (3) comprises a propeller (3-1), a drain pipe a (3-2), a mounting plate a (3-3), an output water tank (3-4), a microporous plate (3-5), a mounting plate b (3-6), a conveying tank (3-7), a connecting belt (3-8), a transmission shaft (3-9), a stirring plate (3-10), a drain pipe b (3-11) and a return pipe (3-12), wherein the propeller (3-1) is connected with the power shaft b (2-1), the drain pipe a (3-2) is connected with the mounting plate b (3-6) and penetrates through the mounting plate a (3-3) to be connected and communicated with the output water tank (3-4), and the output water tank (3-4) is connected with the microporous plate (3-5), the output water tank (3-4) is connected with the equipment connecting box (1-17), the mounting plate b (3-6) is connected with the conveying tank (3-7), the mounting plate b (3-6) is connected with the connecting plate four (2-34), one end of the connecting belt (3-8) is in friction connection with the power shaft b (2-1) and the other end is in friction connection with the transmission shaft (3-9), the transmission shaft (3-9) is connected with the stirring plate (3-10), the transmission shaft (3-9) is in bearing connection with the connecting plate four (2-34), the drain pipe b (3-11) is connected with the mounting plate b (3-6) and is connected with a hole in the connecting stirring barrel (2-35), and the return pipe (3-12) is connected with the mounting plate b (3-6) and is connected with a hole in the connecting stirring barrel (2-35).

5. The vibrating small red bean peeling device as claimed in claim 1, wherein: and power sources are arranged on the power shaft a (1-1) and the power shaft b (2-1) and can rotate.

6. The vibrating small red bean peeling device as claimed in claim 1, wherein: the bottom of the conveying groove (3-7) is provided with a large number of micropores which can filter the red and small bean skins and water.

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