CN210226824U - Pulp and shell separator for berries - Google Patents

Abstract

The utility model discloses a pulp and shell separator of berry, which comprises a frame, an upper extrusion annular belt, a lower extrusion annular belt, an upper driving wheel, a lower driving wheel, an upper driven wheel, a lower driven wheel and two groups of corresponding compression rollers, wherein the upper driven wheel, the lower driven wheel and the two groups of corresponding compression rollers are all connected to the frame; after the passion fruit is circularly and gradually extruded from the wide end of the pulp extruding channel to the press roller, the fruit pulp and the fruit shells are respectively collected from the two sides of the lower extruding annular belt and the discharge port, so that the passion fruit can be more thoroughly and uniformly extruded, the separation and the collection of the fruit shells and the fruit pulp are completed, the completeness of the squeezed fruit shells is ensured through the upper extruding annular belt and the lower extruding annular belt which are in extruding contact with the passion fruit, and the purity of the squeezed pulp is improved.

Description

Pulp and shell separator for berries

Technical Field

The utility model relates to a food processing equipment technical field, more specifically say, it relates to a thick liquid shell separating centrifuge of berry.

Background

Some of the berries are hard-shelled and juicy, such as passion fruit, also known as passion fruit, the shells of which are harder than those of common fruits, and the existing method for separating the shells and pulp (containing seeds and the same below) of the passion fruit generally adopts the steps of cutting the passion fruit with a blade to form a mouth, and then digging out the pulp in the passion fruit with a spatula, corresponding to the existing semi-automatic opening pulp extractor, and the opening pulp extractor of the passion fruit has the following defects: firstly, a blade is used for cutting a passion fruit to form a hole, so that the waste of passion fruit shells is caused, and secondly, secondary pollution is easily caused to the passion fruit in the separation process of fruit pulp and the shells; and thirdly, the semi-automation is adopted, a large amount of manpower is consumed, the efficiency is low, the hands of operators are easily scratched, and the safety is low.

At present, Chinese patent with publication number CN203538300U in the market discloses a gear separator for passion fruit, which comprises a box body, a toothed roller wheel, a flat roller wheel, a feeding guide plate obliquely installed in the box body, a discharging guide plate obliquely installed below the toothed roller wheel and the flat roller wheel and a hopper installed below the discharging guide plate, wherein the toothed roller wheel and the flat roller wheel are roller wheels with the same size and capable of rotating relatively, the toothed roller wheel and the flat roller wheel are installed below the lower end opening of the feeding guide plate side by side, and a gap is formed in the discharging guide plate.

The method comprises the following steps that cleaned passion fruits are placed on a gap between a toothed roller and a flat roller through a feeding guide plate, the passion fruits are squeezed through the relative rotation of the toothed roller and the flat roller, the passion fruits flow into a hopper through the gap on a discharging guide plate and then flow out through a pulp outlet pipe connected with the lower end of the hopper, and shells are left on the discharging guide plate and slide to a shell outlet groove and then are taken away by a conveying belt; however, in the passion fruit in the prior art, the fruit is crushed only by the extrusion force between the group of the toothed rollers with the regularly arranged flat teeth on the surfaces and the flat rollers with smooth surfaces, the fruit shells left on the discharging guide plate can have the fruit shells which are not completely crushed, the fruit pulp can be remained on the fruit shells which are left on the discharging guide plate and are not completely crushed, and meanwhile, the partial completely crushed fruit shells can easily flow into the feeding hopper along with the fruit pulp, so that the problems of impure pulp squeezing, low pulp squeezing efficiency and waste are caused.

SUMMERY OF THE UTILITY MODEL

Not enough to prior art exists, the utility model aims to provide a thick liquid shell separating centrifuge of berry has the function that improves and press thick liquid efficiency and purity.

In order to achieve the above purpose, the utility model provides a following technical scheme:

a pulp and shell separator for berries comprises a frame and a squeezing mechanism arranged on the frame, wherein the squeezing mechanism comprises an upper squeezing annular belt, a lower squeezing annular belt, an upper driving wheel, a lower driving wheel, an upper driven wheel, a lower driven wheel and two sets of corresponding compression rollers, the upper driven wheel and the upper driven wheel are connected through the upper squeezing annular belt, the lower driving wheel and the lower driven wheel are connected through the lower squeezing annular belt, the outer peripheral surfaces of the compression rollers are respectively abutted to two adjacent inner end surfaces of the upper squeezing annular belt and the lower squeezing annular belt, a pulp squeezing channel arranged in a horn shape is formed between the two adjacent end surfaces of the upper squeezing annular belt and the lower squeezing annular belt and the compression rollers, the narrow end of the pulp squeezing channel is a discharge hole, and a gap for pulp to flow out and collect is formed between the two sides of the lower squeezing annular belt and the frame, the upper driving wheel and the lower driving wheel are positioned at the narrow end of the pulp squeezing channel, and the lower driving wheel and the upper driving wheel are respectively connected with a first motor and a second motor which drive the lower driving wheel and the upper driving wheel to rotate relatively towards the discharge hole.

Further setting: the feeding device is positioned at the wide end of the pulp squeezing channel, the feeding device comprises a feeding conveyor belt, a guide hopper and a feeding hopper which are all installed on the rack, the feeding hopper is positioned at one end, far away from the pulp squeezing channel, of the feeding conveyor belt, the height, relative to the ground, of one end, close to the pulp squeezing channel, of the feeding conveyor belt is higher than the height, relative to the ground, of the lower extrusion annular belt, the guide hopper is positioned between one end, far away from the feeding hopper, of the feeding conveyor belt and the wide end of the pulp squeezing channel, the feeding conveyor belt is connected with a feeding motor, and the rotating direction of the feeding motor is the same as the rotating direction of the first motor.

Further setting, the feeding conveyor belt is provided with a plurality of storage grooves for storing the passion fruit, and two sides of each storage groove are connected with baffles for preventing the passion fruit from falling.

The pressing roller is characterized in that the pressing roller further comprises an upper pressing annular belt and a lower pressing annular belt, two adjacent inner end faces of the upper pressing annular belt and the lower pressing annular belt are respectively abutted to a group of first scrapers, the first scrapers are respectively located on the upper driving wheel and close to one side of the pressing roller, two inner end faces, far away from the upper pressing annular belt and the lower pressing annular belt, are respectively abutted to a group of second scrapers along the length direction of the pressing roller, the second scrapers are respectively located on the upper driven wheel and close to one side of the pressing roller from the lower driven wheel, and the first scrapers and the second scrapers are all installed on the frame.

Further setting: one end of the lower extrusion annular belt, which is far away from the upper extrusion annular belt, is provided with a receiving hopper for collecting fruit pulp, and the receiving hopper is detachably connected to the rack.

Further setting: and a grid plate is arranged at the narrow end of the frame close to the pulp squeezing channel, and the grid plate is positioned at one end of the opening of the material receiving hopper close to the lower extrusion annular belt.

Further setting: the receiving hopper is detachably connected with a sealing cover, and the peripheral surface of the rack is detachably connected with a dustproof cover.

Further setting: the upper extrusion annular belt and the lower extrusion annular belt are both made of food-grade rubber materials.

Further setting: a cleaning hole is formed in one side of the machine frame, and a sealing plug used for sealing the cleaning hole is arranged on the machine frame.

Through adopting the technical scheme, compared with the prior art, the utility model, have following advantage:

firstly, cutting a passion fruit into a mouth by using a blade and then digging out fruit pulp in the passion fruit by using a spatula; the method is characterized in that the cleaned passion fruit with the peel is placed at the wide end of a pulp squeezing channel arranged in a horn shape, a first motor and a second motor respectively drive a lower driving wheel and a driven wheel to rotate relatively, the lower driving wheel drives the lower driven wheel to rotate through a lower extrusion annular belt, and an upper driving wheel drives an upper driven wheel to rotate through an upper extrusion annular belt, so that the passion fruit is driven to move from the wide end of the pulp squeezing channel to a press roller; the passion fruit is mutually extruded by two groups of compression rollers which are respectively abutted against two adjacent inner end surfaces of the upper extrusion annular belt and the lower extrusion annular belt, so that the effects of labor saving, energy saving, time saving and safety are achieved in the whole process;

secondly, when squeezing, the fruit pulp can flow out from gaps between the two sides of the lower squeezing annular belt and the rack, the upper squeezing annular belt and the lower squeezing annular belt continue to drive the squeezed passion fruit to move towards the narrow end direction of the pulp squeezing channel to the discharge port for collection, the passion fruit shells and the fruit pulp are separated and collected when the passion fruit is squeezed, and the effect of improving the pulp squeezing efficiency is achieved;

thirdly, the passion fruit is circularly and gradually extruded from the wide end of the pulp squeezing channel to the narrow end of the pulp squeezing channel through two groups of compression rollers in the extruding process, so that the passion fruit pulp is squeezed more thoroughly and uniformly, and meanwhile, the shells collected from the discharge port are flat, so that the shelling process during the comprehensive utilization of the shells in the later period is facilitated;

fourthly, in the extrusion process, through the upper extrusion annular belt and the lower extrusion annular belt which are in extrusion contact with the passion fruit, the completeness of the squeezed fruit shell is guaranteed, the situation that broken fruit shells flow out along with the fruit pulp is avoided, and the functions of improving the purity of the squeezed pulp and avoiding pulp pollution are achieved.

The utility model discloses a shell and pulp splitter, it is effectual to separate, can realize not having the pulp to remain, guarantees the integrality of shell, and the convenience remains betterly to the comprehensive utilization of shell, the thick liquid of fruit shell meat, and later stage processing product texture is chewy, does not have the sediment and feels. The separation equipment has high pulp taking efficiency, greatly reduces the labor intensity of workers, improves the safety, adopts food-grade materials for processing and manufacturing in conveying and collecting, is clean and sanitary, and has no secondary pollution.

Drawings

Fig. 1 is a schematic structural diagram of an embodiment of the present invention;

fig. 2 is a partial cross-sectional view of an embodiment of the invention;

fig. 3 is a schematic structural diagram of an embodiment of the present invention;

fig. 4 is a partially enlarged view of a in fig. 1.

In the figure: 1. a frame; 2. an extrusion mechanism; 3. a feeding device; 4. an upper extrusion annular band; 5. lower extruding the endless belt; 6. a first motor; 7. a second motor; 8. a pulp squeezing channel; 9. an upper driving wheel; 10. a lower driving wheel; 11. an upper driven wheel; 12. a lower driven wheel; 13. a feeding conveyor belt; 14. feeding into a hopper; 15. a material guide hopper; 16. a storage groove; 17. a baffle plate; 18. a first scraper; 19. a second scraper; 20. a sealing cover; 21. a dust cover; 22. cleaning the holes; 23. a sealing plug; 24. a feeding motor; 25. a compression roller; 26. a grid plate; 27. a material receiving hopper.

Detailed Description

The pulp and hull separator of the berry is further described with reference to fig. 1-4.

A pulp and shell separator for berries comprises a frame 1, a feeding device 3 and an extrusion mechanism 2, wherein the extrusion mechanism 2 is arranged on the frame 1, and the feeding device 3 is arranged on the frame, as shown in figure 1.

As shown in fig. 1 and 2, the squeezing mechanism 2 includes an upper squeezing endless belt 4, a lower squeezing endless belt 5, an upper driving wheel 9, a lower driving wheel 10, an upper driven wheel 11, a lower driven wheel 12 and two sets of corresponding press rollers, all of which are rotatably connected to the frame 1; the upper driving wheel 9 is connected with the upper driven wheel 11 through the upper extrusion annular belt 4, and the lower driving wheel 10 is connected with the lower driven wheel 12 through the lower extrusion annular belt 5; the compression rollers 25 are respectively abutted against two adjacent inner end faces of the upper extrusion annular belt 4 and the lower extrusion annular belt 5; a pulp squeezing channel 8 arranged in a horn shape is formed between the two adjacent end faces of the upper extrusion annular belt 4 and the lower extrusion annular belt 5 and the press roller 25, and the narrow end of the pulp squeezing channel 8 is a discharge hole; gaps for the outflow and collection of the pulp are formed between the two sides of the lower extrusion annular belt 5 and the rack 1, each group of compression rollers 25 is provided with 7 compression rollers 25, and the 7 compression rollers of each group are closely arranged; the lower driving wheel 10 is connected with a first motor 6 which drives the lower driving wheel 10 to rotate and drives the passion fruit to move from the wide end of the pulp squeezing channel 8 to the discharge hole; the lower driving wheel 10 is located at the narrow end of the pulp squeezing channel 8. The upper driving wheel 9 is connected with a second motor 7 which drives the upper driving wheel 9 and the lower driving wheel 10 to rotate relatively; the upper driving wheel 9 is positioned at the narrow end of the pulp squeezing channel 8.

As shown in fig. 2, two adjacent inner end surfaces of the upper extrusion annular belt 4 and the lower extrusion annular belt 5 are respectively abutted with a group of first scrapers 18 along the length direction of the press roller 25, the first scrapers 18 are respectively located on one sides of the upper driving wheel 9 and the lower driving wheel 10 close to the press roller 25, two distant inner end surfaces of the lower extrusion annular belt 5 and the upper extrusion annular belt 4 are respectively abutted with a group of second scrapers 19 along the length direction of the press roller 25, the second scrapers 19 are respectively located on one sides of the upper driven wheel 11 and the lower driven wheel 12 close to the press roller 25, and the first scrapers 18 and the second scrapers 19 are both mounted on the frame 1;

as shown in fig. 2 and 4, the frame 1 is provided with a grid plate 26 near the narrow end of the squeezing passage 8; a receiving hopper 27 is detachably connected to the frame 1, and a grid plate 26 is positioned at one end of an opening of the receiving hopper 27, which is close to the lower extrusion annular belt 5; the receiving hopper 27 is detachably connected with a sealing cover 20; the peripheral surface of the frame 1 is detachably connected with a dustproof cover 21; a cleaning hole 22 is formed in one side of the frame 1, and a sealing plug 23 used for sealing the cleaning hole 22 is arranged on the frame 1.

As shown in fig. 2 and 3, the feeding device 3 is located at the wide end of the pulp squeezing channel 8, and the feeding device 3 comprises a feeding conveyor belt 13, a feeding hopper 14 and a material guiding hopper 15 which are all mounted on the frame 1; the feeding hopper 14 is positioned at one end of the feeding conveyor belt 13 far away from the pulp squeezing channel 8; the material guide hopper 15 is positioned between one end of the feeding conveyor belt 13 far away from the feeding hopper 14 and the wide end of the pulp squeezing channel 8; the height of one end of the feeding conveyor belt 13 close to the pulp squeezing channel 8 relative to the ground is higher than that of the lower extrusion annular belt 5 relative to the ground; the feeding conveyor belt 13 is connected with a feeding motor 24, and the rotating direction of the feeding motor 24 is the same as that of the first motor 6; the feeding conveyor belt 13 is provided with a plurality of storage grooves 16 for storing passion fruit, and two sides of each storage groove 16 are connected with baffle plates 17 for preventing the passion fruit from falling.

The working principle is as follows: the cleaned passion fruit with the peel is placed in a feeding hopper 14 which is arranged on the rack 1 and is arranged at the other end of a feeding conveyor belt 13, the passion fruit sequentially falls from the feeding hopper 14 to a plurality of storage grooves 16 which are arranged on the feeding conveyor belt 13, and the passion fruit is prevented from shaking and falling from the storage grooves 16 in the transportation process through baffles 17 which are connected to the two sides of the storage grooves 16; the feeding motor 24 drives the feeding conveyor belt 13 connected with the feeding motor 24 to rotate towards the extrusion mechanism 2, and the passion fruit on the feeding conveyor belt 13 is conveyed to the wide end close to the pulp squeezing channel 8 through the feeding conveyor belt 13; because the height of one end of the feeding conveyor belt 13, which is close to the pulp squeezing channel 8, relative to the ground is higher than that of the upper extrusion annular belt 4, under the action of gravity, the passion fruit firstly falls to the material guide hopper 15 arranged on the rack 1 and then rolls from the material guide hopper 15 onto the lower extrusion annular belt 5 in the wide end of the pulp squeezing channel 8; the function of stably conveying the passion fruit to the extruding mechanism 2 in batches is realized; during the rolling process, the material guide hopper 15 plays a role in buffering, and damage to the passion fruit when the passion fruit falls from the feeding conveyor belt 13 to the extrusion mechanism 2 is reduced.

When the passion fruit falls from the guide hopper to the wide end of the pulp squeezing channel 8, the first motor 6 drives the lower driving wheel 10 to rotate, the lower driving wheel 10 drives the lower driven wheel 12 to rotate through the lower extrusion annular belt 5, and therefore the passion fruit is driven to move from the wide end of the pulp squeezing channel 8 to the narrow end of the pulp squeezing channel 8; the second motor 7 drives the upper driving wheel 9 to rotate, the upper driving wheel 9 drives the upper driven wheel 11 to rotate through the upper extrusion annular belt 4, at the moment, the passion fruit is conveyed to two groups of corresponding press rollers 25 arranged on the frame 1 along the width direction of the pulp squeezing channel 8 through a lower squeezing conveyor belt, then, the passion fruit is extruded by the two groups of press rollers 25 respectively abutted against two adjacent inner end surfaces of the upper extrusion annular belt 4 and the lower extrusion annular belt 5, during extrusion, the fruit pulp flows out of the two sides of the lower extrusion annular belt 5 into the receiving hopper 27, the upper extrusion annular belt 4 and the lower extrusion annular belt 5 continue to drive the squeezed passion fruit to move towards the discharge port, the squeezed passion fruit slides down from the discharge port to the grid plate 26 due to the action of gravity, in the sliding process, the residual fruit pulp in the passion fruit flows into the receiving hopper 27 through the gaps of the grid plate 26, so that the waste of the fruit pulp is reduced, and the collection rate of the fruit pulp is improved; the functions of separating and collecting the passion fruit shells and the passion fruit pulp are further realized while the passion fruit is squeezed; in the process, the passion fruit is circularly and gradually extruded from the wide end of the pulp squeezing channel 8 to the narrow end of the pulp squeezing channel 8 through the two groups of press rolls 25 in the extruding process, so that the passion fruit is squeezed more thoroughly and uniformly, and the squeezed fruit shells collected from the discharge hole are flat, so that the fruit shells can be conveniently made into preserved fruits at the later stage; in the squeezing process, the upper squeezing annular belt 4 and the lower squeezing annular belt 5 which are in squeezing contact with the passion fruit ensure the integrity of the squeezed shells, the situation that broken shells flow out along with the fruit pulp is avoided, the manpower loss is reduced in the whole pulp squeezing process, and the pulp squeezing efficiency is improved.

In addition, when the shell and the pulp are required to be separated, the sealing cover 20 is closed, the material receiving hopper 27 is sealed, and the dustproof cover 21 is closed, so that the functions of ensuring the cleanness and tidiness of the whole working process of the pulp-shell separator of berries are realized, and secondary pollution to passion fruits is prevented; when two groups of compression rollers 25 extrude passion fruits, before an upper extrusion annular belt 4 and a lower extrusion annular belt 5, which both have residual passion fruit pulp, respectively rotate to an upper driving wheel 9 and a lower driving wheel 10, the first scraper 18 respectively abuts against two adjacent inner end faces of the upper extrusion annular belt 4 and the lower extrusion annular belt 5 along the length direction of the compression rollers 25, so that the residual passion fruit pulp on the two adjacent inner end faces of the upper extrusion annular belt 4 and the lower extrusion annular belt 5 is cleaned, the effect of preventing the residual passion fruit pulp from being attached to the upper driving wheel 9 and the lower driving wheel 10 is achieved, and the waste of the fruit pulp is reduced; when the upper extrusion annular belt 4 and the lower extrusion annular belt 5, on which the passion fruit pulp is remained, rotate respectively to the position just before entering the upper driven wheel 11 and the lower driven wheel 12, the second scraper 19 abuts against two inner end faces, far away from the upper extrusion annular belt 4 and the lower extrusion annular belt 5, of the upper extrusion annular belt 4 and the lower extrusion annular belt 5 respectively along the length direction of the compression roller 25, so that the passion fruit pulp remained on the two inner end faces, far away from the upper extrusion annular belt 4 and the lower extrusion annular belt 5, is cleaned up, and the effect of preventing the remained passion fruit pulp from being attached to the upper driven wheel 11 and the lower driven wheel 12 is achieved. When the pulp and shell separator of the berries needs to be cleaned, the sealing plug 23 arranged on the rack 1 is opened, the water pipe is used for cleaning through the cleaning hole 22 arranged on one side of the rack 1, after the cleaning is finished, the sealing plug 23 is used for sealing the cleaning hole 22 again, the functions of accurately cleaning and sealing the pulp and shell separator of the berries are realized, and the receiving hopper 27 is detachably connected to the rack 1, so that the receiving hopper 27 can be conveniently detached and cleaned;

the utility model discloses except that the conveyer belt of last extrusion girdle 4, pay-off conveyer belt 13 and lower extrusion girdle 5 all adopt food level rubber materials to make, press thick liquid and other parts of transportation process and passion fruit contact all adopt food level stainless steel material to make at whole, prevent that the passion fruit from pressing thick liquid and transportation process in causing secondary pollution.

It is above only the utility model discloses a preferred embodiment, the utility model discloses a scope of protection does not only confine above-mentioned embodiment, the all belongs to the utility model discloses a technical scheme under the thinking all belongs to the utility model discloses a scope of protection. It should be noted that, for those skilled in the art, various modifications and decorations can be made without departing from the principle of the present invention, and these modifications and decorations should also be regarded as the protection scope of the present invention.

Claims (9)

1. A thick liquid shell separating centrifuge of berry which characterized in that: the device comprises a rack and an extrusion mechanism arranged on the rack, wherein the extrusion mechanism comprises an upper extrusion annular belt, a lower extrusion annular belt, an upper driving wheel, a lower driving wheel, an upper driven wheel, a lower driven wheel and two groups of corresponding compression rollers which are all rotatably connected to the rack, the upper driving wheel and the upper driven wheel are connected through the upper extrusion annular belt, the lower driving wheel and the lower driven wheel are connected through the lower extrusion annular belt, the peripheral surfaces of the compression rollers are respectively abutted against two adjacent inner end surfaces of the upper extrusion annular belt and the lower extrusion annular belt, a pulp squeezing channel arranged in a horn shape is formed between the two adjacent end surfaces of the upper extrusion annular belt and the lower extrusion annular belt and the compression rollers, the narrow end of the pulp squeezing channel is a discharge port, a gap for fruit pulp to flow out and collect is formed between two sides of the lower extrusion annular belt and the rack, and the upper driving wheel and the lower driving wheel are positioned at the narrow end of the pulp squeezing channel, the lower driving wheel and the upper driving wheel are respectively connected with a first motor and a second motor which drive the lower driving wheel and the upper driving wheel to rotate relatively towards the discharge hole.

2. A berry pulp and hull separator according to claim 1, wherein: the feeding device is positioned at the wide end of the pulp squeezing channel, the feeding device comprises a feeding conveyor belt, a guide hopper and a feeding hopper which are all installed on the rack, the feeding hopper is positioned at one end, far away from the pulp squeezing channel, of the feeding conveyor belt, the height, relative to the ground, of one end, close to the pulp squeezing channel, of the feeding conveyor belt is higher than the height, relative to the ground, of the lower extrusion annular belt, the guide hopper is positioned between one end, far away from the feeding hopper, of the feeding conveyor belt and the wide end of the pulp squeezing channel, the feeding conveyor belt is connected with a feeding motor, and the rotating direction of the feeding motor is the same as the rotating direction of the first motor.

3. A berry pulp and hull separator according to claim 2, wherein: the feeding conveyor belt is provided with a plurality of storage grooves for storing the passion fruit, and two sides of each storage groove are connected with baffles for preventing the passion fruit from falling.

4. A berry pulp and hull separator according to claim 1, wherein: the upper extrusion annular belt and two inner end faces adjacent to the lower extrusion annular belt are respectively abutted to a group of first scrapers along the length direction of the compression roller, the first scrapers are respectively located on the upper driving wheel and close to one side of the compression roller, the lower extrusion annular belt and two inner end faces far away from the upper extrusion annular belt are respectively abutted to a group of second scrapers along the length direction of the compression roller, the second scrapers are respectively located on the upper driven wheel and close to one side of the compression roller from the lower driven wheel, and the first scrapers and the second scrapers are both installed on the rack.

5. A berry pulp and hull separator according to claim 1, wherein: one end of the lower extrusion annular belt, which is far away from the upper extrusion annular belt, is provided with a receiving hopper for collecting fruit pulp, and the receiving hopper is detachably connected to the rack.

6. A berry pulp and hull separator according to claim 5, wherein: and a grid plate is arranged at the narrow end of the frame close to the pulp squeezing channel, and the grid plate is positioned at one end of the opening of the material receiving hopper close to the lower extrusion annular belt.

7. A berry pulp and hull separator according to claim 5, wherein: the receiving hopper is detachably connected with a sealing cover, and the peripheral surface of the rack is detachably connected with a dustproof cover.

8. A berry pulp and hull separator according to claim 1, wherein: the upper extrusion annular belt and the lower extrusion annular belt are both made of food-grade rubber materials.

9. A berry pulp and hull separator according to claim 1, wherein: a cleaning hole is formed in one side of the machine frame, and a sealing plug used for sealing the cleaning hole is arranged on the machine frame.

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