CN212877510U - Chestnut removes thorn device for food processing - Google Patents

Abstract

The utility model relates to a remove thorn device, especially relate to a chinese chestnut removes thorn device for food processing. Provides a chestnut thorn removing device for food processing, which has high safety, rapid shell breaking and separable collection. The utility model provides a such chinese chestnut device that thorns removed for food processing, include: the top of the base is uniformly and symmetrically provided with four pillars; the transverse plates are arranged between the two pillars on the same side; the two transverse plates are provided with the shell breaking devices; the screening device is arranged between the two transverse plates and located below the shell breaking device. This device carries out interval unloading in batches through dialling the material device to the chinese chestnut ball in the unloading frame, makes things convenient for the shell breaking device to shelling the chinese chestnut to cooperation sieving mechanism screens chinese chestnut and chinese chestnut thorn shell, reduces manual operation's step, increases work efficiency, labour saving and time saving ensures staff's personal safety.

Description

Chestnut removes thorn device for food processing

Technical Field

The utility model relates to a remove thorn device, especially relate to a chinese chestnut removes thorn device for food processing.

Background

Chinese chestnut has the name of the king of dry fruit and is known as ginseng fruit abroad. The Chinese chestnut is one of the earliest famous nuts eaten in China, and the annual output is the top of the world. Chinese chestnut contains a large amount of starch, is rich in various nutritional ingredients such as protein, fat, B vitamins and the like, has high calorie, and is used for replacing meal in ancient times.

Chinese chestnut has good quality and rich nutrition and is the crown of the Chinese chestnut group in the world. After being fried, the meat is fine and sweet, has palatable taste, and is very popular. The chestnut in Hebei province is rich in resources, the export quantity is the first in China, the chestnut in emigration is in the west, the chestnut in Zhan nationality and the like, is an important chestnut export base in China, has good product quality, is reputed to the republic of China, is called Tianjin chestnut in Japan and is popular and well-known for a long time and deeply loved by Japanese people.

The chestnuts are increasingly popular with people due to the fragrant and sweet taste, and particularly after the chestnuts are processed into fast snacks and snacks, the chestnuts are a snack which people need to buy when shopping. The Chinese chestnut balls are full of thorns, so that picking is not easy, peeling and thorns removing are very difficult, hands are easy to prick by slight misoperation, threats are caused to workers, and the efficiency of peeling and thorns removing is not high.

Therefore, it is highly desirable to design a chestnut thorn removing device for food processing, which has high safety, rapid shell breaking and separable collection, to solve the above problems.

SUMMERY OF THE UTILITY MODEL

In order to overcome the defects that Chinese chestnut balls are full of thorns, peeling and thorns removing are very difficult, hands are easy to prick due to slight misoperation, threats are caused to workers, and the peeling and thorns removing efficiency is not high, the technical problem is that: provides a chestnut thorn removing device for food processing, which has high safety, rapid shell breaking and separable collection.

The technical scheme of the utility model is that: a chestnut deburring device for food processing comprises: the top of the base is uniformly and symmetrically provided with four pillars; the transverse plates are arranged between the two pillars on the same side; the two transverse plates are provided with the shell breaking devices; the screening device is arranged between the two transverse plates and is positioned below the shell breaking device; the material shifting device is arranged on the two transverse plates and is positioned above the shell breaking device.

Further, the shell breaking device comprises: the middle of the tops of the two transverse plates is symmetrically provided with a support frame; the blanking frame is arranged between the two support frames, and the bottom of the blanking frame is in an inverted cone shape; the two sides of the bottom of the blanking frame are symmetrically provided with first bearing seats; the first rotating shafts are arranged between the first bearing seats on the same side; the second bearing seat is arranged close to the top of the transverse plate of one of the support frames; the second rotating shaft is arranged on the second bearing seat and is connected with the adjacent first rotating shaft; a servo motor is arranged on a transverse plate close to the second bearing seat, and an output shaft of the servo motor is connected with one end close to the second rotating shaft through a coupler; the middle part of the support frame far away from the servo motor and the top part of the adjacent transverse plate are provided with third bearing seats; the two third bearing seats are provided with third rotating shafts; and the two ends of the third rotating shaft are both provided with bevel gears close to the two first rotating shafts, and the two close bevel gears are meshed.

Further, the screening apparatus includes: the top parts of the two transverse plates, which are far away from one side of the servo motor, are symmetrically provided with first fixing frames; the round rod is arranged between the two first fixing frames; the side, away from the third bearing seat, of the round rod is provided with the fourth bearing seat; the fourth rotating shaft is arranged on the fourth bearing seat; one end of the fourth rotating shaft, which is far away from the third rotating shaft, is provided with a first cam; the middle part of the round rod is symmetrically and rotatably provided with the oscillating rod; the top parts of the two swinging rods are provided with ejector rods, and the first cam is matched with the ejector rods; the sliding blocks are arranged in the linear grooves of the two transverse plates in a sliding manner; the screening frame is arranged between the adjacent sides of the two sliding blocks; the two sides of each sliding block and the inner side wall of the adjacent transverse plate are connected with the first elastic piece; the second elastic piece is symmetrically connected between the screening frame and one side close to the swinging rod; the screening frame is provided with an N-shaped frame at one side close to the two swing rods, and the N-shaped frame is matched with the two swing rods; and a universal shaft is arranged between the fourth rotating shaft and the third rotating shaft.

Further, the material stirring device comprises: a fifth bearing seat is arranged on one side, close to the servo motor, of the bottom of the blanking frame; a fifth rotating shaft is arranged on the fifth bearing seat; a second cam is arranged at one end, away from the first rotating shaft, of the fifth rotating shaft; the belt conveying mechanism is wound between the other end of the fifth rotating shaft and the adjacent first rotating shaft; the top of the transverse plate far away from the universal shaft is provided with a second fixing frame; the second fixing frame is provided with a sliding rail; the sliding rack is arranged on the sliding rail in a sliding mode and matched with the second cam; the rotary blade is rotatably arranged in the middle of the blanking frame; the circular gear is arranged at one end, close to the sliding rack, of the rotating blade and meshed with the sliding rack; and a third elastic piece is connected between one end of the sliding rack close to the first cam and the sliding rail.

Further, the method also comprises the following steps: the rotating shafts are rotatably arranged at the ends, far away from the N-shaped frame, of the two sides of the screening frame; the middle part of the rotating shaft is provided with a baffle; the upper part of the baffle is provided with a connecting rod; the inserted bar, connecting rod both ends all are provided with the inserted bar, and the inserted bar is inserted on the square hole that has been opened in screening frame both sides.

Further, the method also comprises the following steps: the fixed rod is arranged between the upper ends of the two pillars far away from the round rod; the fixed rods are uniformly arranged between one side, close to the screening frame, of the fixed rods and the base, and the fixed rods are located below the screening frame; the striker plates are arranged between the two pillars on the two sides of the screening frame; and the movable sliding plate is arranged between the two pillars close to the round rod in a sliding manner.

Furthermore, the rotating speed of the servo motor is adjustable.

Furthermore, the surface of the dividing rod is smooth.

The utility model has the advantages that: 1. this device carries out interval unloading in batches through dialling the material device to the chinese chestnut ball in the unloading frame, makes things convenient for the shell breaking device to shelling the chinese chestnut to cooperation sieving mechanism screens chinese chestnut and chinese chestnut thorn shell, reduces manual operation's step, increases work efficiency, labour saving and time saving ensures staff's personal safety.

2. When the chestnuts and the chestnut burs fall downwards from the screening frame onto the cutting rods, the chestnuts roll forwards along the bevel edges of the cutting rods, and the chestnut burs fall onto the base along the gaps of the cutting rods, so that the chestnuts and the chestnut burs are separated.

3. The chestnut shells and the chestnut burs are separated through the screening frame and the cutting rod, the chestnut shells and the chestnut burs are conveniently separated and collected by the collecting box for processing, the practicability of equipment is improved, and the chestnut burs are convenient to use.

Drawings

Fig. 1 is a schematic perspective view of the present invention.

Fig. 2 is a schematic view of a first three-dimensional structure of the shell breaking device of the present invention.

Fig. 3 is a schematic diagram of a second three-dimensional structure of the shell breaking device of the present invention.

Fig. 4 is a schematic view of the three-dimensional structure of the screening device of the present invention.

Fig. 5 is a schematic view of the three-dimensional structure of the material stirring device of the present invention.

Fig. 6 is a schematic view of a partial three-dimensional structure of the present invention.

In the reference symbols: 1-base, 2-pillar, 3-horizontal plate, 4-shell breaking device, 41-support frame, 42-blanking frame, 43-first bearing seat, 44-first rotating shaft, 45-second bearing seat, 46-second rotating shaft, 47-servo motor, 48-third bearing seat, 49-third rotating shaft, 410-bevel gear, 5-screening device, 51-first fixed frame, 52-round rod, 53-fourth bearing seat, 54-fourth rotating shaft, 55-first cam, 56-oscillating rod, 57-top rod, 58-slide block, 59-screening frame, 510-first elastic element, 511-second elastic element, 512-N-shaped frame, 513-universal shaft, 6-material shifting device, 61-fifth bearing seat, 62-a fifth rotating shaft, 63-a second cam, 64-a belt conveying mechanism, 65-a second fixed frame, 66-a sliding rail, 67-a sliding rack, 68-a rotating blade, 69-a circular gear, 610-a third elastic piece, 7-a rotating shaft, 8-a baffle, 9-a connecting rod, 10-an inserting rod, 11-a fixed rod, 12-a dividing rod, 13-a material baffle plate and 14-a movable sliding plate.

Detailed Description

Embodiments of the present invention will be described below with reference to the drawings.

Example 1

As shown in fig. 1, a chinese chestnut thorn device that removes for food processing, including base 1, pillar 2, diaphragm 3, broken shell device 4, sieving mechanism 5 and group material device 6, the even symmetry in base 1 top is provided with four pillars 2, all be provided with diaphragm 3 with between two pillars 2, be provided with broken shell device 4 on two diaphragms 3, be provided with sieving mechanism 5 between two diaphragms 3, sieving mechanism 5 is located broken shell device 4 below, be provided with on two diaphragms 3 and dial material device 6, it is located broken shell device 4 top to dial material device 6.

When the Chinese chestnut needs to be pricked, firstly, a worker places a Chinese chestnut ball in the shell breaking device 4, then the shell breaking device 4 is started, the shell breaking device 4 drives the screening device 5 and the material stirring device 6 to operate, the material stirring device 6 carries out blanking at intervals on the Chinese chestnut ball in the shell breaking device 4, after the Chinese chestnut ball is extruded by the shell breaking device 4 to break the shell, the Chinese chestnut and the Chinese chestnut prick shell fall in the screening device 5 below, the Chinese chestnut and the Chinese chestnut prick shell are screened and separated through the screening device 5, collection and treatment are convenient, and the shell breaking device 4 can be closed after the Chinese chestnut is pricked. The Chinese chestnut bur removing device has the advantages that burs are removed from Chinese chestnuts through the device, the manual bur removing step is saved, time and labor are saved, and the personal safety of workers is guaranteed.

Example 2

As shown in fig. 2, fig. 3, fig. 4 and fig. 5, a chestnut deburring device for food processing is disclosed, in embodiment 1, a shell breaking device 4 comprises a support frame 41, a blanking frame 42, a first bearing seat 43, a first rotating shaft 44, a second bearing seat 45, a second rotating shaft 46, a servo motor 47, a third bearing seat 48, a third rotating shaft 49 and a bevel gear 410, the support frame 41 is symmetrically arranged in the middle of the top of two transverse plates 3, the blanking frame 42 is arranged between the two support frames 41, the bottom of the blanking frame 42 is in an inverted cone shape, the first bearing seat 43 is symmetrically arranged on both sides of the bottom of the blanking frame 42, the first rotating shaft 44 is arranged between the first bearing seats 43 on the same side, the second bearing seat 45 is arranged on the top of the left transverse plate 3, the second rotating shaft 46 is arranged on the second bearing seat 45, the second rotating shaft 46 is connected with the adjacent first rotating shaft 44, the servo motor 47 is arranged, an output shaft of the servo motor 47 is connected with one end close to the second rotating shaft 46 through a coupler, the middle part of the right supporting frame 41 and the top part of the close transverse plate 3 are respectively provided with a third bearing seat 48, the two third bearing seats 48 are provided with third rotating shafts 49, two ends of each third rotating shaft 49 are respectively provided with a bevel gear 410 at one end close to the two first rotating shafts 44, and the two close bevel gears 410 are meshed.

When the Chinese chestnut needs to be pricked, firstly, a worker firstly places Chinese chestnut balls in a blanking frame 42, then a servo motor 47 is started, an output shaft of the servo motor 47 drives a front first rotating shaft 44 to rotate through a second rotating shaft 46, the front first rotating shaft 44 drives a material stirring device 6 to move, the material stirring device 6 carries out interval blanking on the Chinese chestnut balls in the blanking frame 42, so that the Chinese chestnut balls fall on two lower first rotating shafts 44, meanwhile, the front first rotating shaft 44 drives a bevel gear 410 on the front side to rotate, two adjacent bevel gears 410 are meshed, so that a third rotating shaft 49 is driven to rotate, the third rotating shaft 49 drives a rear bevel gear 410 to rotate, the two adjacent bevel gears 410 are meshed, so that the rear first rotating shaft 44 is driven to reversely rotate, the two first rotating shafts 44 simultaneously squeeze the Chinese chestnut balls towards the middle, the Chinese chestnut balls are peeled, so that the Chinese chestnuts and Chinese chestnut pricked shells fall in a screening device 5 below, conveniently separate the screening, can close servo motor 47 after the operation is accomplished.

The screening device 5 comprises a first fixed frame 51, a round rod 52, a fourth bearing seat 53, a fourth rotating shaft 54, a first cam 55, a swinging rod 56, a push rod 57, a sliding block 58, a screening frame 59, a first elastic part 510, a second elastic part 511, an N-shaped frame 512 and a universal shaft 513, wherein the first fixed frame 51 is symmetrically arranged at the rear side of the top of each transverse plate 3, the round rod 52 is arranged between the two first fixed frames 51, the fourth bearing seat 53 is arranged at the rear side of the round rod 52, the fourth rotating shaft 54 is arranged on the fourth bearing seat 53, the first cam 55 is arranged at the left end of the fourth rotating shaft 54, the swinging rods 56 are symmetrically and rotatably arranged in the middle of the round rod 52, the push rods 57 are arranged at the top of the two swinging rods 56, the first cam 55 is matched with the push rods 57, a straight groove is formed at one side of each of the two transverse plates 3, the sliding block 58 is arranged in the straight groove of the two transverse plates, the front side and the rear side of the two sliding blocks 58 are respectively connected with a first elastic part 510 between the inner side walls of the adjacent transverse plates 3, a second elastic part 511 is symmetrically connected between the screening frame 59 and the swinging rods 56, an N-shaped frame 512 is arranged on the rear side of the screening frame 59, the N-shaped frame 512 is matched with the two swinging rods 56, and a universal shaft 513 is arranged between the right end of the fourth rotating shaft 54 and the rear end of the third rotating shaft 49.

When the third rotating shaft 49 rotates, the third rotating shaft 49 drives the fourth rotating shaft 54 to rotate through the universal shaft 513, the fourth rotating shaft 54 drives the first cam 55 to rotate, when the first cam 55 presses the top rod 57, the top rod 57 drives the swinging rod 56 to rotate forward on the round rod 52, the lower end of the swinging rod 56 presses the N-shaped frame 512, the N-shaped frame 512 is driven to move backward, the N-shaped frame 512 drives the screening frame 59 to move backward along the straight groove of the transverse plate 3 through the sliding block 58, the first elastic element 510 and the second elastic element 511 on the rear side are compressed, the first elastic element 510 on the front side is stretched, when the first cam 55 does not press the top rod 57 any more, the first elastic element 510 and the second elastic element 511 are reset, the first elastic element 510 drives the sliding block 58 to reset, the sliding block 58 and the second elastic element 511 drive the screening frame 59 and the N-shaped frame 512 to reset, the N-shaped frame 512 drives the top rod 57 to reset through the swinging rod 56, thereby realizing the control of the forward and backward swinging of, the Chinese chestnut and the Chinese chestnut thorn shell are screened and separated, and are conveniently separated and collected.

The material poking device 6 comprises a fifth bearing seat 61, a fifth rotating shaft 62, a second cam 63, a belt transmission mechanism 64, a second fixing frame 65, a sliding rail 66, a sliding rack 67, a rotating blade 68, a circular gear 69 and a third elastic member 610, the fifth bearing seat 61 is arranged on the left front side of the bottom of the blanking frame 42, the fifth rotating shaft 62 is arranged on the fifth bearing seat 61, the second cam 63 is arranged at the left end of the fifth rotating shaft 62, the belt transmission mechanism 64 is wound between the right end of the fifth rotating shaft 62 and the adjacent first rotating shaft 44, the second fixing frame 65 is arranged on the rear side of the top of the left transverse plate 3, the sliding rail 66 is arranged on the second fixing frame 65, the sliding rack 67 is arranged on the sliding rail 66 in a sliding manner, the sliding rack 67 is matched with the second cam 63, the rotating blade 68 is rotatably arranged in the middle of the blanking frame 42, the circular gear 69 is arranged at the left end of the, a third elastic member 610 is connected between the rear end of the sliding rack 67 and the sliding rail 66.

When the first rotating shaft 44 rotates, the first rotating shaft 44 drives the fifth rotating shaft 62 to rotate through the belt conveying mechanism 64, the fifth rotating shaft 62 drives the second cam 63 to rotate, when the second cam 63 extrudes the sliding rack 67, the sliding rack 67 slides backwards along the sliding rail 66, the third elastic part 610 is compressed, the sliding rack 67 is meshed with the circular gear 69, so that the rotating blades 68 are driven to rotate, and the rotating blades 68 stir and discharge the Chinese chestnut balls in the discharging frame 42. When the second cam 63 does not extrude the sliding rack 67 any more, the third elastic piece 610 resets to drive the sliding rack 67 to slide forwards along the sliding rail 66, the sliding rack 67 is meshed with the circular gear 69, so that the rotating blade 68 is driven to rotate reversely, the rotating blade 68 continues to perform batch interval blanking on Chinese chestnut balls in the blanking frame 42, the shell breaking device 4 is convenient to shell the Chinese chestnuts, the screening device 5 is matched to screen the Chinese chestnuts, the manual blanking step is reduced, and the working efficiency is increased.

Example 3

As shown in fig. 1 and 6, a chestnut thorn removing device for food processing is provided, which is based on embodiments 1 and 2, and further comprises a rotating shaft 7, a baffle plate 8, a connecting rod 9 and an inserting rod 10, wherein the rotating shaft 7 is rotatably arranged at the front ends of two sides of a screening frame 59, the baffle plate 8 is arranged in the middle of the rotating shaft 7, the connecting rod 9 is arranged at the upper part of the baffle plate 8, the inserting rods 10 are respectively arranged at two ends of the connecting rod 9, and the inserting rod 10 is inserted into square holes formed in two sides of the screening frame 59.

When the chestnut thorn ball in the screen frame 59 is too much, the staff can stimulate the connecting rod 9 forward and take out the inserted bar 10, and the connecting rod 9 drives the axis of rotation 7 through the baffle 8 and rotates, opens the discharge gate of screen frame 59, makes things convenient for the staff to take out the chestnut thorn ball in the screen frame 59, conveniently collects the processing.

Still including dead lever 11, cut apart pole 12, striker plate 13 and removal slide 14, be provided with dead lever 11 between two 2 upper ends in the place ahead, evenly be provided with between dead lever 11 rear side and the base 1 and cut apart pole 12, cut apart pole 12 and lie in screening frame 59 below, all be provided with striker plate 13 between two 2 pillars with one side around, the slidingtype is provided with removal slide 14 between two pillars 2 in the rear.

When the chestnuts and the chestnut burs fall down on the cutting rod 12 from the screen frame 59, the chestnuts roll forward along the inclined side of the cutting rod 12, and the chestnut burs fall on the base 1 along the gap of the cutting rod 12, thereby separating the chestnuts and the chestnut burs. When the chestnut that rolls off is too much, the staff can stimulate the handle of slide 14 right, drives slide 14 and moves right, makes things convenient for the staff to collect the processing to the chestnut, collects the back of accomplishing, can promote the handle of slide 14 left, resets slide 14, facilitates the use, increases the practicality of equipment.

The rotation speed of the servo motor 47 is adjustable.

The rotating speed of the servo motor 47 is adjustable, and the running speed of the equipment is convenient to adjust.

The dividing rod 12 has a smooth surface.

The surface of the cutting rod 12 is smooth, which is beneficial to the rolling separation of the Chinese chestnut and the Chinese chestnut thorn.

Although embodiments of the present invention have been shown and described, it would be appreciated by those skilled in the art that changes may be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the claims and their equivalents.

Claims (8)

1. A chestnut deburring device for food processing is characterized by comprising:

the top of the base (1) is uniformly and symmetrically provided with four pillars (2);

the transverse plate (3) is arranged between the two pillars (2) on the same side;

the two transverse plates (3) are provided with the shell breaking devices (4);

the screening device (5) is arranged between the two transverse plates (3), and the screening device (5) is positioned below the shell breaking device (4);

the material shifting device (6) is arranged on the two transverse plates (3), and the material shifting device (6) is positioned above the shell breaking device (4).

2. A chestnut deflashing device for food processing as claimed in claim 1, characterised in that the crust breaking means (4) comprise:

the middle of the tops of the two transverse plates (3) is symmetrically provided with the support frame (41);

the blanking frame (42) is arranged between the two supporting frames (41), and the bottom of the blanking frame (42) is in an inverted cone shape;

the two sides of the bottom of the blanking frame (42) are symmetrically provided with the first bearing seats (43);

the first rotating shafts (44) are arranged between the first bearing seats (43) on the same side;

the second bearing block (45) is arranged at the top of the transverse plate (3) close to one of the supporting frames (41);

the second rotating shaft (46) is arranged on the second bearing seat (45), and the second rotating shaft (46) is connected with the adjacent first rotating shaft (44);

the transverse plate (3) close to the second bearing seat (45) is provided with a servo motor (47), and an output shaft of the servo motor (47) is connected with one end, close to the second rotating shaft (46), of the second rotating shaft (46) through a coupler;

the middle part of the support frame (41) far away from the servo motor (47) and the top part of the adjacent transverse plate (3) are respectively provided with a third bearing seat (48);

the third rotating shafts (49) are arranged on the two third bearing seats (48);

the bevel gears (410) are arranged at two ends of the third rotating shaft (49) close to the two first rotating shafts (44), and the two close bevel gears (410) are meshed.

3. A chestnut deflashing device for food processing as claimed in claim 2, characterized in that the sifting means (5) comprise:

the top parts of the two transverse plates (3) are symmetrically provided with first fixed frames (51) at one side far away from the servo motor (47);

a round rod (52), wherein the round rod (52) is arranged between the two first fixing frames (51);

the side, away from the third bearing seat (48), of the round rod (52) is provided with a fourth bearing seat (53);

a fourth rotating shaft (54), wherein the fourth rotating shaft (54) is arranged on the fourth bearing seat (53);

a first cam (55) is arranged at one end, away from the third rotating shaft (49), of the fourth rotating shaft (54);

the swing rod (56) is symmetrically and rotatably arranged in the middle of the round rod (52);

the top parts of the two swinging rods (56) are provided with the ejector rods (57), and the first cam (55) is matched with the ejector rods (57);

the sliding blocks (58) are arranged on the sides, close to the two transverse plates (3), of the two transverse plates (3), and the sliding blocks (58) are arranged in the linear grooves of the two transverse plates (3) in a sliding mode;

the screening frame (59) is arranged between the adjacent sides of the two sliding blocks (58);

the first elastic piece (510) is connected between the two sides of the two sliding blocks (58) and the inner side wall of the adjacent transverse plate (3);

the second elastic piece (511) is symmetrically connected between one side of the screening frame (59) close to the swinging rod (56);

the screening frame (59) is provided with an N-shaped frame (512) close to one side of the two swinging rods (56), and the N-shaped frame (512) is matched with the two swinging rods (56);

and a universal shaft (513) is arranged between the fourth rotating shaft (54) and the third rotating shaft (49).

4. A chestnut deburring device for food processing as claimed in claim 3 wherein the kick-off means (6) comprises:

the fifth bearing seat (61) is arranged on one side, close to the servo motor (47), of the bottom of the blanking frame (42);

a fifth rotating shaft (62), wherein the fifth bearing seat (61) is provided with the fifth rotating shaft (62);

a second cam (63) is arranged at one end, away from the first rotating shaft (44), of the fifth rotating shaft (62);

the belt conveying mechanism (64) is wound between the other end of the fifth rotating shaft (62) and the adjacent first rotating shaft (44);

the top of the transverse plate (3) far away from the universal shaft (513) is provided with a second fixing frame (65);

the sliding rail (66) is arranged on the second fixing frame (65);

the sliding rack (67) is arranged on the sliding rail (66) in a sliding mode, and the sliding rack (67) is matched with the second cam (63);

the rotating blade (68) is rotatably arranged in the middle of the blanking frame (42);

a circular gear (69), wherein one end of the rotating blade (68) close to the sliding rack (67) is provided with the circular gear (69), and the circular gear (69) is meshed with the sliding rack (67);

and a third elastic piece (610) is connected between one end of the sliding rack (67), which is close to the first cam (55), and the sliding rail (66).

5. A chestnut deburring apparatus for food processing as claimed in claim 4 further comprising:

the rotating shaft (7) is rotatably arranged at one end of the two sides of the screening frame (59) far away from the N-shaped frame (512);

the middle part of the rotating shaft (7) is provided with a baffle (8);

the connecting rod (9) is arranged at the upper part of the baffle (8);

the two ends of the connecting rod (9) are provided with the inserted rods (10), and the inserted rods (10) are inserted into square holes formed in the two sides of the screening frame (59).

6. A chestnut deburring device for food processing as claimed in claim 5 further comprising:

the fixing rod (11) is arranged between the upper ends of the two pillars (2) far away from the round rod (52);

the separating rods (12) are uniformly arranged between one side, close to the screening frame (59), of the fixing rod (11) and the base (1), and the separating rods (12) are located below the screening frame (59);

the striker plates (13) are arranged between the two pillars (2) positioned at the two sides of the screening frame (59);

the movable sliding plate (14) is arranged between the two pillars (2) close to the round rod (52) in a sliding way.

7. A chestnut deburring device for food processing as claimed in claim 2 wherein the speed of the servo motor (47) is adjustable.

8. A chestnut deburring device for food processing as claimed in claim 6 wherein the surface of the dividing rod (12) is smooth.

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