阅读说明：本技术 一种芡实冷法破壳机及破壳方法 (Gorgon fruit cold method shell breaking machine and shell breaking method ) 是由 刘勇 李武 邓雨薇 于 2020-05-09 设计创作，主要内容包括：本发明公开一种芡实冷法破壳机及破壳方法,芡实冷法破壳机包括从上至下依次设置的加热装置、破壁装置、果壳分离装置、去皮装置和驱动装置,所述破壁装置包括与加热装置底部固定连接的冷却环,冷却环底部设置由驱动装置驱动的转盘；另外本发明还公开上述芡实冷法破壳机的破壳方法,本发明通过多重手段将果实与果皮完全分离,全过程自动化,无需人手工后续对芡实进行筛选处理。(The invention discloses a gordon euryale seed cold method shell breaking machine and a shell breaking method, wherein the gordon euryale seed cold method shell breaking machine comprises a heating device, a wall breaking device, a shell separating device, a peeling device and a driving device which are sequentially arranged from top to bottom, the wall breaking device comprises a cooling ring fixedly connected with the bottom of the heating device, and the bottom of the cooling ring is provided with a turntable driven by the driving device; in addition, the invention also discloses a shell breaking method of the gordon euryale seed cold shell breaking machine, the fruit and the peel are completely separated by multiple means, the whole process is automatic, and manual subsequent screening treatment on the gordon euryale seeds is not needed.)

1. A gordon euryale seed cold method rejuvenator which characterized in that: the fruit and vegetable shell wall breaking device comprises a heating device (1), a wall breaking device (2), a shell separating device (3), a peeling device (4) and a driving device (6), wherein the heating device (1), the wall breaking device (2), the shell breaking device and the driving device (6) are sequentially arranged from top to bottom, the wall breaking device comprises a cooling ring (21) fixedly connected with the bottom of the heating device (1), and a rotary disc (22) driven by the driving device (6) is arranged at the bottom of the cooling ring (21).

2. The gordon euryale seed cold method shell breaking machine according to claim 1, characterized in that: heating device (1) includes casing (11), casing (11) includes feed inlet (12), feed inlet (12) and sleeve pipe (14) intercommunication, sleeve pipe (14) one side top be equipped with entry (15) and with pan feeding mouth (12) intercommunication, sleeve pipe (14) opposite side is equipped with delivery outlet (13), installs screw rod (16) in sleeve pipe (14), screw rod (16) one end and motor (17) output end are connected, and the lower extreme of sleeve pipe (14) is equipped with heating pipe (18).

3. The gordon euryale seed cold method shell breaking machine according to claim 1, characterized in that: the cooling ring (21) comprises a plurality of cylinders (211) with different inner diameters, protrusions (212) are arranged on the side walls of the cylinders (211), the cylinders are connected through baffles (215), pipelines (217) which are infused with cooling liquid are embedded in the cylinders (211) and the baffles (215), and a notch (216) is formed in the position, close to the baffles (215), of each cylinder (211).

4. The gordon euryale seed cold method shell breaking machine according to claim 3, characterized in that: the tops of the cylinders (211) are connected through a connecting frame (224), and the top of the connecting frame (224) is fixed at the bottom of the heating device (1).

5. The gordon euryale seed cold method shell breaking machine according to claim 4, characterized in that: the pipeline (217) in the outermost cylinder (211) is externally connected with the liquid inlet (213), and the pipeline (217) in the innermost cylinder (211) passes through the inside of the connecting frame (224) and is externally connected with the liquid outlet (214).

6. The gordon euryale seed cold method shell breaking machine according to claim 1, characterized in that: the upper surface of the turntable (22) is provided with bosses (221) distributed in an annular array, and the turntable (22) is provided with separation holes (223) for allowing gorgon fruit shell scraps to pass through and hole positions (222) for allowing gorgon fruit fruits to pass through.

7. The gordon euryale seed cold method shell breaking machine according to claim 1, characterized in that: the fruit shell separating device (3) is located carousel (22) below and with cooling ring (21) fixed connection, and fruit shell separating device (3) is including interior storehouse (31), well storehouse (32) and outer storehouse (33), well storehouse (32) upper portion and hole site (222) intercommunication of carousel (22), the bottom is equipped with out fruit mouth (321), outer storehouse (33) upper portion and separation hole (223) intercommunication of carousel (22), and its outside is equipped with out powder mouth (331), and the rotation axis of establishing drive arrangement (6) is worn in interior storehouse (31).

8. The gordon euryale seed cold method shell breaking machine according to claim 1, characterized in that: peeling apparatus (4) and shell separator (3) intercommunication, peeling apparatus (4) top fixed mounting have brush dish (43), and rotating net (44) is installed to peeling apparatus (4) bottom, and rotating net (44) surface has evenly seted up the sieve mesh, and its central point puts and drive arrangement (6) output shaft, the lateral wall of peeling apparatus (4) is equipped with discharge gate (42).

9. The gordon euryale seed cold method shell breaking machine according to claim 8, characterized in that: brush dish (43) one end is equipped with opening (431), and is located one side of opening (431) and is equipped with chamfer (432), sets up piece storehouse (5) below rotating the net (44), and one side of piece storehouse (5) is equipped with out powder mouth (51), and discharge gate (42) are located the opening (431) opposite side of brush dish (43).

10. A hull breaking method of the gordon euryale seed cold shell breaking machine according to any one of claims 1 to 9, which is characterized in that: it comprises the following steps:

step 1): adding unprocessed gorgon fruit into the sleeve (14), heating the whole sleeve (14) through a heating pipe (18), and spirally conveying the heated gorgon fruit into the wall breaking device (2);

step 2): the gorgon fruit falls on the upper part of a rotary disc (22), a driving device (6) drives the rotary disc (22) to rotate, a boss (221) on the rotary disc (22) drives the gorgon fruit to rotate, the gorgon fruit continuously impacts a cooling ring (21), the heated gorgon fruit encounters the low-temperature cooling ring (21) and then undergoes heat exchange to enable the surface of the heated gorgon fruit to become crisp and hard, a crisp and hard gorgon fruit shell encounters a protrusion (211) and the boss (221) and then is crushed to form a mixture of shell fragments and fruits, the mixture gradually moves towards the inside along the outside of the rotary disc (22), the shell fragments are firstly separated from a separation hole (223) with a small aperture and then enter an outer bin (33) and flow out from a powder outlet (331), and the gorgon fruit finally falls into a middle bin (32) from a hole (222) with a large aperture in the area of an inner side cylinder (211) and then is discharged from a fruit outlet (321);

step 3): gorgon fruit discharged from a fruit outlet (321) enters a peeling device (4), the gorgon fruit falls between a chamfer (432) at the bottom of a brush disc (43) and a rotating net (44), at the moment, a driving device (6) drives the rotating net (44) to rotate, so that the gorgon fruit is squeezed into a gap between the brush disc (43) and the rotating net (44), along with relative rotation between the rotating net (44) and the brush disc (43), residual peel on the gorgon fruit is further scraped by friction, due to the action of centrifugal force, clean fruit flows out from a discharge port (42), and the scraped peel falls into a scrap bin (51) from a sieve mesh of the rotating net (44), so that the separation of the gorgon fruit and the peel is realized.

Technical Field

The invention relates to the technical field of a hull breaking machine, in particular to a gordon euryale seed cold method hull breaking machine and a hull breaking method.

Background

The gorgon euryale seed is a good green plant which can not only nourish the body, but also strengthen the body. However, the husking of Gorgon fruit seeds has been left behind in the manual and dental cracking processes. The husking mode is very hard, the husking efficiency is extremely low, and the problems of sanitation such as manual husking and tooth cracking exist, so that the development of the gordon euryale seed planting industry is seriously influenced and limited. At present, the gorgon fruit husking machine has fewer types and single husking mode, and the following types of husking machines are summarized by referring to other husking machines and husking modes thereof. 1. Gap extrusion type: this type of husking device is suitable for mechanical husking of seeds having a certain gap between the peel and the kernel and relatively uniform seed size. 2. Rotary cutting of the hob: the husking device is suitable for husking fruits which are large in size and only contain one round seed inside, and the seeds are hard and not easy to break. 3. Centrifugal shearing method: chinese chestnuts are loaded from a hopper, lifted to a material distribution pipe and then respectively conveyed to two cutter heads. After the Chinese chestnut enters the cutter head, the rotary cutter head starts to rotate to generate centrifugal force, so that the Chinese chestnut rolls towards the edge of the cutter head at high speed, and finally the shell of the Chinese chestnut is peeled off under the shearing action of the spoke-shaped serrated knife arranged on the disk surface.

However, these methods have the following problems:

(1) the shelling rate is low. The current husking equipment on the market has the phenomena of more or less missing husking or incomplete husking, so that the husking efficiency of nuts cannot meet the requirement, the husking efficiency of some husking machines is only 50 percent, and the husking efficiency of some husking machines is even lower, so that people do not want to use the more convenient machines, which is the biggest obstacle for popularization and use of the husking machines.

(2) The loss rate is high. Because the popularization of the husking machine is not enough, people can not know the husking machine reasonably enough when selecting the parameters of the husking machine, so that a large amount of broken kernels are carried in the husks, and the phenomenon of incomplete husking is formed. The kernel loss rate of some machines is up to 20%, which is one of the great problems to be solved urgently.

(3) The kernel integrity is poor. In the design process of some machines, in order to reduce the phenomena of missing peeling or incomplete peeling, the peeling rate is improved at a glance, but the higher breaking rate is caused, so the price of the commodity is greatly reduced.

(4) The universality is poor. Because the application range of various husking machines is limited, one kind of husking machine can only shell one kind generally, and can not realize one machine for multiple purposes by replacing main parts, so that the husking machine can not be popularized and used in a large range.

(5) The operation cost is high. At present, China has not produced large-scale and series of husking machines, and most of the husking machines are manufactured by a single machine. The poor versatility and the high cost of the equipment, result in increased mechanical production costs.

Disclosure of Invention

The invention aims to overcome the defects and provide a gordon euryale seed cold method shell breaking machine and a shell breaking method so as to solve the problems in the background technology.

In order to solve the technical problems, the invention adopts the technical scheme that: the utility model provides a gorgon fruit cold process rejuvenator, it includes from last heating device, broken wall device, shell separator, peeling apparatus and the drive arrangement who sets gradually down, broken wall device include with heating device bottom fixed connection's cooling ring, the cooling ring bottom sets up by drive arrangement driven carousel.

Preferably, heating device includes the casing, the casing includes the feed inlet, feed inlet and sleeve pipe intercommunication, sleeve pipe one side top be equipped with the entry and with pan feeding mouth intercommunication, the sleeve pipe opposite side is equipped with the delivery outlet, installs the screw rod in the cover pipe, screw rod one end is connected with the motor output, sheathed tube lower extreme is equipped with the heating pipe.

Preferably, the cooling ring comprises a plurality of cylinders with different inner diameters, the side walls of the cylinders are provided with protrusions, the cylinders are connected through a baffle, pipelines for infusing cooling liquid are embedded in the cylinders and the baffle, and a notch is formed in the position, close to the baffle, of each cylinder.

Preferably, the top parts of the plurality of cylinders are connected through a connecting frame, and the top part of the connecting frame is fixed at the bottom of the heating device.

Preferably, the pipeline in the cylinder at the outermost side is externally connected with the liquid inlet, and the pipeline in the cylinder at the innermost side penetrates through the inside of the connecting frame and is externally connected with the liquid outlet.

Preferably, the upper surface of the turntable is provided with bosses distributed in an annular array, and the turntable is provided with separation holes through which gorgon fruit shell scraps pass and hole positions through which gorgon fruit fruits pass.

Preferably, the shell separator is located the carousel below and with cooling ring fixed connection, shell separator includes interior storehouse, well storehouse and outer storehouse, well storehouse upper portion and the hole site intercommunication of carousel, the bottom is equipped with out the fruit mouth, outer storehouse upper portion and the separation hole intercommunication of carousel, and its outside is equipped with out the powder mouth, and interior storehouse wears to establish drive arrangement's rotation axis.

Preferably, the peeling device is communicated with the shell separating device, a brush disc is fixedly mounted at the top of the peeling device, a rotating net is mounted at the bottom of the peeling device, sieve pores are uniformly formed in the surface of the rotating net, the center of the rotating net is connected with an output shaft of the driving device, and a discharge hole is formed in the side wall of the peeling device.

Preferably, brush dish one end is equipped with the opening, and is located open-ended one side and is equipped with the chamfer, changes the net below and sets up piece storehouse, and one side in piece storehouse is equipped with out the powder mouth, and the discharge gate is located the open-ended opposite side of brush dish.

In addition, the invention also discloses a shell breaking method of the gordon euryale seed cold method shell breaker, which comprises the following steps:

step 1): adding unprocessed gorgon fruit into a sleeve, heating the whole sleeve through a heating pipe, and spirally conveying the heated gorgon fruit into a wall breaking device;

step 2): the gorgon fruit falls on the upper part of the rotary disc, the driving device drives the rotary disc to rotate, the boss on the rotary disc drives the gorgon fruit to rotate, the gorgon fruit continuously impacts a cooling ring, after the heated gorgon fruit meets the low-temperature cooling ring, heat exchange is carried out to ensure that the surface of the heated gorgon fruit becomes crisp and hard, the crisp and hard gorgon fruit shell is smashed after contacting with a bulge and the boss to form a mixture of shell fragments and fruits, the mixture gradually moves towards the inside along the outside of the rotary disc, the shell fragments are firstly separated from a separation hole with a small aperture, then enter an outer bin and flow out from a powder outlet, and the gorgon fruit finally falls into a middle bin from a hole with a large aperture in an inner cylindrical area and then is discharged from a fruit outlet;

step 3): go out fruit mouthful discharged gorgon fruit and get into peeling apparatus, the gorgon fruit falls between the chamfer of the bottom of brush dish and changes the net, drive arrangement drives and changes the net rotation this moment, thereby squeeze into the gap between brush dish and the commentaries on classics net with the gorgon fruit, along with changeing the relative rotation between net and the brush dish, remaining peel is scraped by further friction on the gorgon fruit, because the effect of centrifugal force, clean fruit flows from the discharge gate, and the peel that strikes off the production falls into the piece storehouse from the sieve mesh that changes the net in, realize the separation of gorgon fruit and peel.

The invention has the beneficial effects that:

1. the husking rate is high: the outer wall of the gorgon fruit is made to become brittle and hard by a method of firstly heating and then cooling the outer wall of the gorgon fruit, then the outer wall of the gorgon fruit is broken by a high-speed rotating mode through the bulges in the cylinder and the lug bosses on the turntable, and then the gorgon fruit passes through the brush disk by a rotating mode to remove the residual fruit peel, thereby realizing the function of completely peeling.

2. Loss is not generated: the method only carries out heating cooling and friction treatment on the surface of the gordon euryale seeds all the time, and does not apply pressure to the gordon euryale seed body, so that the integrity of the gordon euryale seeds can be completely ensured, and the phase of selling the gordon euryale seeds is greatly improved.

3. The universality is good: the husking machine is wide in application range and not limited by the size of the gordon euryale seed body, and gordon euryale seeds of any size can be completely husked through the husking machine.

4. The automation degree is high: the fruit and the peel are completely separated by multiple means, the whole process is automatic, and manual subsequent screening treatment on the gorgon fruit is not needed.

Drawings

FIG. 1 is a schematic structural diagram of a gordon euryale seed cold method shell breaking machine according to the present invention;

FIG. 2 is an explosion diagram of the cold method hull breaker of Gorgon fruit of the invention;

FIG. 3 is an explosion schematic view of a heating device of the gordon euryale seed cold method shell breaking machine according to the invention;

FIG. 4 is a sectional view of a heating device of the gordon euryale seed cold method shell breaking machine of the invention;

FIG. 5 is a schematic view of a cooling ring structure of the gordon euryale seed cold shell breaking machine according to the present invention;

FIG. 6 is a top view of a cooling ring of the gordon euryale seed cold shell crusher of the present invention;

FIG. 7 is a schematic view of the bottom structure of a cooling ring of the gordon euryale seed cold shell crusher of the present invention;

FIG. 8 is a schematic structural diagram of a turntable of the gordon euryale seed cold method shell breaking machine of the present invention;

FIG. 9 is a top view of the cooling ring and the turntable of the euryale ferox cold method hull breaker;

FIG. 10 is a schematic top structure view of a shell separating device of the gordon euryale seed cold shell breaking machine of the present invention;

FIG. 11 is a schematic view of the bottom structure of a shell separating device of the gordon euryale seed cold shell breaking machine of the present invention;

FIG. 12 is a schematic view of a peeling device of the euryale ferox cold method hull breaking machine of the invention;

FIG. 13 is a partial cross-sectional view of the gordon euryale seed cold shell breaker of the present invention;

in the figure: the device comprises a heating device 1, a shell 11, a feeding hole 12, an output port 13, a sleeve 14, an inlet 15, a screw 16, a motor 17, a heating pipe 18, a wall breaking device 2, a cooling ring 21, a cylinder 211, a protrusion 212, a liquid inlet 213, a liquid outlet 214, a baffle 215, a notch 216, a pipeline 217, a rotary table 22, a boss 221, a hole site 222, a separating hole 223, a connecting frame 224, a fruit shell separating device 3, an inner bin 31, a middle bin 32, a fruit outlet 321, an outer bin 33, a powder outlet 331, a peeling device 4, a through hole 41, a discharge hole 42, a brush disc 43, an opening 431, a chamfer 432, a rotary screen 44, a chip bin 5, a chip removing port 51 and a driving device 6.

Detailed Description

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

As shown in fig. 1 to 13, a gordon euryale seed cold method shell breaking machine comprises a heating device 1, a wall breaking device 2, a shell separating device 3, a peeling device 4 and a driving device 6 which are sequentially arranged from top to bottom, wherein the wall breaking device 2 comprises a cooling ring 21 fixedly connected with the bottom of the heating device 1, and a rotating disc 22 driven by the driving device 6 is arranged at the bottom of the cooling ring 21.

Preferably, heating device 1 includes casing 11, casing 11 includes feed inlet 12, feed inlet 12 and sleeve 14 intercommunication, sleeve 14 one side top is equipped with entry 15 and communicates with pan feeding mouth 12, and sleeve 14 opposite side is equipped with delivery outlet 13, installs screw rod 16 in the sleeve 14, and screw rod 16 one end is connected with motor 17 output, and the lower extreme of sleeve 14 is equipped with heating pipe 18.

Preferably, the cooling ring 21 comprises a plurality of cylinders 211 with different inner diameters, the side walls of the cylinders 211 are provided with protrusions 212, the cylinders are connected through a baffle 215, pipes 217 for infusing cooling liquid are embedded inside the cylinders 211 and the baffle 215, and a notch 216 is formed at the position of each cylinder 211 close to the baffle 215. As shown in FIG. 6, the pipe 217 is shown in bold dashed lines, the arrows show the flow of the cooling fluid in the pipe 217, and the bold solid arrows show the flow of the gorgon fruit material at the position of the gap 216.

Preferably, the top of the plurality of cylinders 211 are connected by a connecting frame 224, and the top of the connecting frame 224 is fixed to the bottom of the heating apparatus 1.

Preferably, the conduit 217 in the outermost cylinder 211 circumscribes the inlet port 213, and the conduit 217 in the innermost cylinder 211 passes through the interior of the connecting frame 224 and circumscribes the outlet port 214.

Preferably, the upper surface of the turntable 22 is provided with bosses 221 distributed in an annular array, and the turntable 22 is provided with separation holes 223 for allowing gorgon fruit shell scraps to pass through and hole sites 222 for allowing gorgon fruit fruits to pass through.

Preferably, the shell separating device 3 is located below the rotating disc 22 and is fixedly connected with the cooling ring 21, the shell separating device 3 includes an inner bin 31, a middle bin 32 and an outer bin 33, the upper portion of the middle bin 32 is communicated with the hole site 222 of the rotating disc 22, the bottom of the middle bin is provided with a fruit outlet 321, the upper portion of the outer bin 33 is communicated with the separating hole 223 of the rotating disc 22, the outer portion of the outer bin is provided with a powder outlet 331, and the inner bin 31 penetrates through the rotating shaft of the driving device 6. In this embodiment, the driving device 6 is a driving motor.

Preferably, the peeling device 4 is communicated with the shell separating device 3, a brush disc 43 is fixedly mounted at the top of the peeling device 4, a rotating net 44 is mounted at the bottom of the peeling device 4, sieve holes are uniformly formed in the surface of the rotating net 44, the center of the rotating net 44 is connected with an output shaft of the driving device 6, and a discharge hole 42 is formed in the side wall of the peeling device 4.

Preferably, an opening 431 is formed at one end of the brush disc 43, a chamfer 432 is formed at one side of the opening 431, a debris bin 5 is arranged below the rotating net 44, a powder outlet 51 is formed at one side of the debris bin 5, and the discharge hole 42 is formed at the opposite side of the opening 431 of the brush disc 43.

The working principle of the gordon euryale seed cold method shell breaking machine is as follows:

firstly, adding unprocessed gorgon fruit into a sleeve 14 from a feeding hole 12, driving a screw 16 in the sleeve 14 to drive the gorgon fruit to spirally feed by a motor 17, simultaneously heating the whole sleeve 14 by a heating pipe 18 at the lower end of the sleeve 14, wherein the sleeve 14 is made of 1030 series aluminum materials, the heated gorgon fruit finally flows out from an output port 13 along with the pushing of the screw 16 and then enters a wall breaking device 2, the gorgon fruit falls on the upper part of a turntable 22, the lower part of the turntable 22 is connected with a driving device 6, the driving device 6 drives the turntable 22 to rotate, a boss 221 on the turntable 22 drives the gorgon fruit to rotate, and the gorgon fruit continuously impacts a cooling ring 21; the cooling liquid is injected into the liquid inlet 213 below the cooling ring 21, then flows from outside to inside along the pipeline 217 in the cylinder 211, and when the cooling liquid reaches the innermost side of the cylinder 211, the cooling liquid flows out from the pipeline 217 in the connecting frame 224 at the top of the cylinder 211 to the liquid outlet 214 to be discharged, so as to form a complete cooling system, the whole cylinder 211 is in a low-temperature state, so that the cooling ring 21 has a cooling effect, when the heated gordon euryale meets the low-temperature cooling ring 21, the surface of the heated gordon euryale becomes brittle, and the brittle gordon euryale shell is easy to break after contacting the protrusion 211 and the boss 221; in addition, the position of the gorgon fruit falling from the output port 13 is in the area of the rotating disc 22 close to the outermost cylinder 211, when the gorgon fruit rotates along with the rotating disc 22, the gorgon fruit passing through the nearby opening 216 moves towards the inner cylinder 211 when contacting the baffle 215 each time, so as to move gradually inwards along the outer part of the rotating disc 22, the gorgon fruit collides with the protrusion 211 and the boss 221 to break the wall and form a mixture of shell scraps and fruits, the mixture gradually moves inwards along the outer part of the rotating disc 22, the shell scraps are separated from the separation hole 223 with smaller aperture, the shell scraps enter the outer bin 33 and flow out from the powder outlet 331, the gorgon fruit finally falls into the middle bin 32 from the hole 222 with larger aperture in the area of the inner cylinder 211, then is discharged from the fruit outlet 321 and enters from the through hole 41 of the device 4, the brush disc 43 is provided with an opening 431 for allowing the gorgon fruit to pass through, at last, the gorgon fruit falls between the chamfer 432 at the bottom of the brush disc 43 and the rotating net 44, the driving device 6 drives the rotating net 44 to rotate at the moment, so that the gorgon fruit is squeezed into a gap between the brush disc 43 and the rotating net 44, along with the relative rotation between the rotating net 44 and the brush disc 43, the residual fruit peel on the gorgon fruit is further scraped by friction, due to the action of centrifugal force, clean fruit flows out from the discharge hole 42, and the scraped fruit peel falls into the scrap bin 51 from the sieve mesh of the rotating net 44, so that the separation of the fruit and the fruit peel of the gorgon fruit is realized.

In addition, the embodiment also discloses a hull breaking method of the gordon euryale seed cold method hull breaker, which comprises the following steps:

step 1): adding unprocessed gorgon fruit into the sleeve 14, heating the whole sleeve 14 through the heating pipe 18, and spirally conveying the heated gorgon fruit into the wall breaking device 2;

step 2): the gorgon fruit falls on the upper part of the rotary disc 22, the driving device 6 drives the rotary disc 22 to rotate, the boss 221 on the rotary disc 22 drives the gorgon fruit to rotate, the gorgon fruit continuously impacts the cooling ring 21, after the heated gorgon fruit meets the low-temperature cooling ring 21, heat exchange is carried out to ensure that the surface of the heated gorgon fruit becomes crisp and hard, the shell of the crisp and hard gorgon fruit is crushed after contacting the bulge 211 and the boss 221 to form a mixture of shell scraps and fruits, the mixture gradually moves towards the inside along the outer part of the rotary disc 22, the shell scraps are firstly separated from the separation holes 223 with smaller apertures, then enter the outer bin 33 and flow out from the powder outlet 331, and the gorgon fruit finally falls into the middle bin 32 from the holes 222 with larger apertures in the inner cylinder 211 area and then is discharged from the fruit outlet 321;

step 3): the gorgon fruit discharged from the fruit outlet 321 enters the peeling device 4, the gorgon fruit falls between the chamfer 432 at the bottom of the brush disc 43 and the rotating net 44, at the moment, the driving device 6 drives the rotating net 44 to rotate, so that the gorgon fruit is squeezed into a gap between the brush disc 43 and the rotating net 44, along with the relative rotation between the rotating net 44 and the brush disc 43, the residual fruit peel on the gorgon fruit is further scraped by friction, due to the action of centrifugal force, clean fruit flows out from the discharge hole 42, the scraped fruit peel falls into the scrap bin 51 from the sieve holes of the rotating net 44, and the separation of the gorgon fruit and the fruit peel is realized.

The above-described embodiments are merely preferred embodiments of the present invention, and should not be construed as limiting the present invention, and features in the embodiments and examples in the present application may be arbitrarily combined with each other without conflict. The protection scope of the present invention is defined by the claims, and includes equivalents of technical features of the claims. I.e., equivalent alterations and modifications within the scope hereof, are also intended to be within the scope of the invention.