CN215313783U - Fish ball classified screening equipment - Google Patents

Abstract

The utility model discloses fish ball grading and screening equipment which comprises a shell, a feed hopper, a first screening plate, a second screening plate, a discharge hopper, a conveying mechanism, a first guide mechanism and a second guide mechanism, wherein the feed hopper is arranged on the shell; the first screening plate and the second screening plate are arranged in the shell, and the first screening plate is positioned below one end of the feed hopper; the first screening plate and the second screening plate are sequentially arranged along the direction from the feeding side to the discharging side of the shell, and the feeding end of the second screening plate is lower than the discharging end of the first screening plate; the first screening plate and the second screening plate are both inclined in a sinking manner gradually along the direction from the feeding side to the discharging side of the shell; the movable end of the first guide mechanism can translate along the first screening plate and is used for driving the fish balls to gradually sink and translate on the first screening plate along the direction from the feeding side to the discharging side of the shell; the diameter of the first screening holes is smaller than the diameter of the second screening holes. The utility model can improve the screening effect of the fish balls.

Description

Fish ball classified screening equipment

Technical Field

The utility model relates to the field of food processing, in particular to fish ball grading and screening equipment.

Background

In order to improve the production efficiency of fish balls, automatic equipment is mostly adopted to produce the fish balls at present. However, in the production process, errors may occur in the discharging amount of the skin and the stuffing of the fish balls, so that the fish balls produced in the same batch have different sizes. In order to ensure that the weight of each packaged fish ball bag is equal, and to avoid overlarge size difference of the fish balls in the same bag, the size of the fish balls after being produced needs to be sieved. However, the existing fish ball screening equipment is too complex in structure and poor in screening effect, and the situation that fish balls are not accurately classified easily occurs, so that the situation that the size difference of the fish balls is large in the same bag of fish balls is caused.

SUMMERY OF THE UTILITY MODEL

The technical problem to be solved by the utility model is as follows: the fish ball grading and screening equipment is provided, the structure of the fish ball grading and screening equipment is simplified, and the fish ball screening effect is improved.

In order to solve the technical problems, the utility model adopts the technical scheme that:

a fish ball grading and screening device comprises a shell, a feed hopper, a first screening plate, a second screening plate, a discharge hopper, a conveying mechanism, a first guide mechanism and a second guide mechanism;

a feed inlet is formed in one side of the shell in the horizontal direction, the feed hopper is fixedly arranged in the feed inlet, and one end of the feed hopper is positioned in the shell;

the other side of the shell in the horizontal direction is provided with a discharge hole, and the conveying mechanism is arranged in the discharge hole;

the first screening plate and the second screening plate are arranged in the shell, and the first screening plate is positioned below one end of the feed hopper;

the first screening plate and the second screening plate are sequentially arranged along the direction from the feeding side to the discharging side of the shell, and the feeding end of the second screening plate is lower than the discharging end of the first screening plate;

the first screening plate and the second screening plate are inclined along the direction from the feeding side to the discharging side of the shell in a sinking manner;

the first guide mechanism sinks gradually and inclines along the direction from the feeding side to the discharging side of the shell and is arranged on the inner wall of the shell;

the movable end of the first guide mechanism can translate along the first screening plate and is used for driving the fish balls to gradually sink and translate on the first screening plate along the direction from the feeding side to the discharging side of the shell;

the second guide mechanism sinks gradually and inclines along the direction from the feeding side to the discharging side of the shell and is arranged on the inner wall of the shell;

the movable end of the second guide mechanism can translate along the second screening plate and is used for driving the fish balls to gradually sink and translate on the second screening plate along the direction from the feeding side to the discharging side of the shell;

the first screening plate is longitudinally provided with a plurality of first screening holes which are uniformly distributed;

a first-stage discharge hole is formed in the feeding side of the shell and is positioned below the feeding hole;

the discharging plate is gradually inclined in a sinking manner along the direction from the discharging side to the feeding side of the shell, and the discharging end of the discharging plate is positioned in the primary discharging port;

the discharging plate is positioned below the first screening holes and used for discharging the fish balls falling from the first screening holes from the primary discharging opening;

the second screening plate is longitudinally provided with a plurality of second screening holes which are uniformly distributed;

the second screening holes are all positioned above the discharging hopper and are used for enabling the fish balls falling from the second screening holes to enter the discharging hopper;

the diameter of the first screening holes is smaller than the diameter of the second screening holes.

Further, the vibration machine also comprises a first vibration motor and a second vibration motor;

the fixed end of the first vibration motor and the fixed end of the second vibration motor are both arranged on the outer wall of the shell;

the output end of the first vibration motor penetrates through the side wall of the shell to be connected with the first screening plate, and is used for grading the fish balls on the first screening plate for the first time;

and the output end of the second vibration motor penetrates through the side wall of the shell to be connected with the second screening plate, and is used for secondarily grading the fish balls on the second screening plate.

Further, the first guide mechanism comprises a first drive assembly and a first guide plate;

the fixed end of the first driving component is arranged on the inner wall of the shell;

the first guide plate is perpendicular to the first screening plate;

one end of the first guide plate is connected with the movable end of the first driving assembly, so that the other end of the first guide plate can translate along the first screening plate;

and a first gap with the distance of 0.5cm is formed between two sides of the first guide plate in the direction mutually perpendicular to the fish ball transmission direction and two side inner walls of the shell in the direction mutually perpendicular to the fish ball transmission direction.

Further, a second gap is formed between the first guide plate and the first screening plate.

Further, the distance of the second gap is 0.2 cm-0.5 cm.

Furthermore, a secondary discharge port is formed in one side of the shell in the direction perpendicular to the fish ball conveying direction;

the bottom of the discharge hopper is inclined along the direction vertical to the fish ball transmission direction and along the direction from one end of the discharge hopper to the other end of the discharge hopper;

the other end of the discharge hopper is positioned in the secondary discharge port.

Furthermore, a material guide plate is arranged between one end of the first screening plate close to the second screening plate and one end of the second screening plate close to the first screening plate.

Further, the conveying mechanism is a transmission belt.

The utility model has the beneficial effects that: carry out twice screening to the fish ball through first screening board and second screening board in same direction to according to the size with the fish ball of same batch divide into three grades, combine first guiding mechanism and second guiding mechanism simultaneously, avoid the fish ball because gliding speed is too fast and can't fall into screening downthehole, improve the screening effect of fish ball.

Drawings

FIG. 1 is a schematic structural view of a fish ball classifying and screening apparatus according to the present invention;

FIG. 2 is a schematic view of the internal structure of a fish ball classifying and screening apparatus according to the present invention;

FIG. 3 is an enlarged view of portion A of FIG. 2;

fig. 4 is a sectional view of a fish ball classifying and screening apparatus according to the present invention.

Description of reference numerals:

1. a housing; 11. a feed inlet; 12. a long round hole; 13. a pin shaft; 14. a discharge port; 15. a primary discharge outlet; 16. a secondary discharge outlet;

2. a feed hopper;

3. a first screening plate; 31. a first screening aperture;

4. a second screening plate; 41. a second screening aperture;

5. a discharge plate; 6. a discharge hopper; 7. a transport mechanism;

8. a first guide mechanism; 81. a first drive assembly; 82. a first guide plate; 83. a second gap;

9. a second guide mechanism; 10. a first vibration motor; 20. a second vibration motor; 30. a material guide plate.

Detailed Description

In order to explain technical contents, achieved objects, and effects of the present invention in detail, the following description is made with reference to the accompanying drawings in combination with the embodiments.

Referring to fig. 1-4, a fish ball classifying and screening apparatus includes a housing, a feed hopper, a first classifying plate, a second classifying plate, a discharge hopper, a conveying mechanism, a first guiding mechanism and a second guiding mechanism;

a feed inlet is formed in one side of the shell in the horizontal direction, the feed hopper is fixedly arranged in the feed inlet, and one end of the feed hopper is positioned in the shell;

the other side of the shell in the horizontal direction is provided with a discharge hole, and the conveying mechanism is arranged in the discharge hole;

the first screening plate and the second screening plate are arranged in the shell, and the first screening plate is positioned below one end of the feed hopper;

the first screening plate and the second screening plate are sequentially arranged along the direction from the feeding side to the discharging side of the shell, and the feeding end of the second screening plate is lower than the discharging end of the first screening plate;

the first screening plate and the second screening plate are inclined along the direction from the feeding side to the discharging side of the shell in a sinking manner;

the first guide mechanism sinks gradually and inclines along the direction from the feeding side to the discharging side of the shell and is arranged on the inner wall of the shell;

the movable end of the first guide mechanism can translate along the first screening plate and is used for driving the fish balls to gradually sink and translate on the first screening plate along the direction from the feeding side to the discharging side of the shell;

the second guide mechanism sinks gradually and inclines along the direction from the feeding side to the discharging side of the shell and is arranged on the inner wall of the shell;

the movable end of the second guide mechanism can translate along the second screening plate and is used for driving the fish balls to gradually sink and translate on the second screening plate along the direction from the feeding side to the discharging side of the shell;

the first screening plate is longitudinally provided with a plurality of first screening holes which are uniformly distributed;

a first-stage discharge hole is formed in the feeding side of the shell and is positioned below the feeding hole;

the discharging plate is gradually inclined in a sinking manner along the direction from the discharging side to the feeding side of the shell, and the discharging end of the discharging plate is positioned in the primary discharging port;

the discharging plate is positioned below the first screening holes and used for discharging the fish balls falling from the first screening holes from the primary discharging opening;

the second screening plate is longitudinally provided with a plurality of second screening holes which are uniformly distributed;

the second screening holes are all positioned above the discharging hopper and are used for enabling the fish balls falling from the second screening holes to enter the discharging hopper;

the diameter of the first screening holes is smaller than the diameter of the second screening holes.

The working principle of the utility model is as follows:

carry out twice screening to the fish ball through first screening board and second screening board to under first guiding mechanism and second guiding mechanism's supplementary, the gliding speed of control fish ball ensures that the fish ball can fall into corresponding screening downthehole, improves the screening effect.

From the above description, the beneficial effects of the present invention are: carry out twice screening to the fish ball through first screening board and second screening board in same direction to according to the size with the fish ball of same batch divide into three grades, combine first guiding mechanism and second guiding mechanism simultaneously, avoid the fish ball because gliding speed is too fast and can't fall into screening downthehole, improve the screening effect of fish ball.

Further, the vibration machine also comprises a first vibration motor and a second vibration motor;

the fixed end of the first vibration motor and the fixed end of the second vibration motor are both arranged on the outer wall of the shell;

the output end of the first vibration motor penetrates through the side wall of the shell to be connected with the first screening plate, and is used for grading the fish balls on the first screening plate for the first time;

and the output end of the second vibration motor penetrates through the side wall of the shell to be connected with the second screening plate, and is used for secondarily grading the fish balls on the second screening plate.

According to the fish ball screening device, the first vibrating motor and the second vibrating motor are arranged, the first screening plate and the second screening plate are vibrated, fish balls can fall into the corresponding screening holes under the vibration of the first screening plate and the second screening plate, and the fish ball screening effect is further improved.

Further, the first guide mechanism comprises a first drive assembly and a first guide plate;

the fixed end of the first driving component is arranged on the inner wall of the shell;

the first guide plate is perpendicular to the first screening plate;

one end of the first guide plate is connected with the movable end of the first driving assembly, so that the other end of the first guide plate can translate along the first screening plate;

and a first gap with the distance of 0.5cm is formed between two sides of the first guide plate in the direction mutually perpendicular to the fish ball transmission direction and two side inner walls of the shell in the direction mutually perpendicular to the fish ball transmission direction.

According to the above description, the first driving assembly and the first guide plate are arranged, so that the falling speed of the fish balls can be controlled, and the situation that the fish balls with the diameter slightly smaller than the aperture of the first screening hole fall too fast and cannot fall into the first screening hole is avoided, and therefore, the fish ball screening effect can be improved by the arrangement of the first driving assembly and the first guide plate; set up first clearance for avoid contact between first deflector and the shells inner wall, can avoid the fish ball to pass first clearance gliding simultaneously.

Further, a second gap is formed between the first guide plate and the first screening plate.

Further, the distance of the second gap is 0.2 cm-0.5 cm.

According to the above description, the second gap is arranged to avoid the direct contact between the first guide plate and the first screening plate, so that the friction resistance of the first guide plate is increased, meanwhile, the fish ball diameter is larger than 0.5cm, the distance of the second gap is 0.2 cm-0.5 cm, under the condition that no contact is ensured between the first guide plate and the first screening plate, the fish balls can be prevented from sliding downwards through the second gap, and the fish ball screening effect is improved.

Furthermore, a secondary discharge port is formed in one side of the shell in the direction perpendicular to the fish ball conveying direction;

the bottom of the discharge hopper is inclined along the direction vertical to the fish ball transmission direction and along the direction from one end of the discharge hopper to the other end of the discharge hopper;

the other end of the discharge hopper is positioned in the secondary discharge port.

As can be seen from the above description, set up second grade bin outlet and play hopper, be convenient for make through the secondary screening and from the fish ball discharge that second screening hole fell, improve discharging efficiency.

Furthermore, a material guide plate is arranged between one end of the first screening plate close to the second screening plate and one end of the second screening plate close to the first screening plate.

According to the above description, the material guide plate is arranged to prevent the fish balls from falling off from the first screening plate and then sliding down from the gap between the first screening plate and the second screening plate, so that the function of guiding the fish balls is achieved.

Further, the conveying mechanism is a transmission belt.

The method is more suitable for screening the fish balls in batches, and is particularly suitable for screening the fish balls in small batches.

The first embodiment of the utility model is as follows:

referring to fig. 1-4, a fish ball classifying and screening device comprises a shell 1, a feed hopper 2, a first classifying plate 3, a second classifying plate 4, a discharging plate 5, a discharging hopper 6, a conveying mechanism 7, a first guide mechanism 8 and a second guide mechanism 9; a feed inlet 11 is formed in one side of the shell 1 in the horizontal direction, a feed hopper 2 is fixedly arranged in the feed inlet 11, and one end of the feed hopper 2 is positioned in the shell 1; a discharge port 14 is formed in the other side of the shell 1 in the horizontal direction, and the conveying mechanism 7 is arranged in the discharge port 14; the first screening plate 3 and the second screening plate 4 are both arranged in the shell 1, and the first screening plate 3 is positioned below one end of the feed hopper 2; the first screening plate 3 and the second screening plate 4 are sequentially arranged along the direction from the feeding side to the discharging side of the shell 1, and the feeding end of the second screening plate 4 is lower than the discharging end of the first screening plate 3; the first screening plate 3 and the second screening plate 4 are inclined in a manner of sinking gradually along the direction from the feeding side to the discharging side of the shell 1; the first guide mechanism 8 is gradually sunk and inclined along the direction from the feeding side to the discharging side of the shell 1 and is arranged on the inner wall of the shell 1; the movable end of the first guide mechanism 8 can translate along the first screening plate 3 and is used for driving the fish balls to gradually sink and translate on the first screening plate 3 along the direction from the feeding side to the discharging side of the shell 1; the second guide mechanism 9 is gradually sunk and inclined along the direction from the feeding side to the discharging side of the shell 1 and is arranged on the inner wall of the shell 1; the movable end of the second guide mechanism 9 can translate along the second screening plate 4 and is used for driving the fish balls to gradually sink and translate on the second screening plate 4 along the direction from the feeding side to the discharging side of the shell 1; the first screening plate 3 is longitudinally provided with a plurality of first screening holes 31 which are uniformly distributed; a first-stage discharge hole 15 is formed in the feeding side of the shell 1, and the first-stage discharge hole 15 is positioned below the feeding hole 11; the discharging plate 5 sinks and inclines gradually along the direction from the discharging side to the feeding side of the shell 1, and the discharging end of the discharging plate 5 is positioned in the primary discharging opening 15; the discharging plate 5 is positioned below the first sieving holes 31 and is used for discharging the fish balls falling from the first sieving holes 31 from the primary discharging opening 15; the second screening plate 4 is longitudinally provided with a plurality of second screening holes 41 which are uniformly distributed; the second screening holes 41 are all positioned above the discharging hopper 6 and are used for enabling the fish balls falling from the second screening holes 41 to enter the discharging hopper 6; the diameter of the first screening holes 31 is smaller than the diameter of the second screening holes 41. Specifically, the discharge plate 5 is fixedly arranged in the shell 1, and two ends of the discharge plate 5 are connected with the inner wall of the shell 1.

Referring to fig. 3 and 4, a first vibration motor 10 and a second vibration motor 20 are further included; the fixed end of the first vibration motor 10 and the fixed end of the second vibration motor 20 are both arranged on the outer wall of the shell 1; the output end of the first vibrating motor 10 penetrates through the side wall of the shell 1 to be connected with the first screening plate 3, and is used for grading the fish balls on the first screening plate 3 for the first time; the output end of the second vibration motor 20 penetrates through the side wall of the shell 1 and is connected with the second screening plate 4, and is used for carrying out secondary grading on the fish balls on the second screening plate 4. Specifically, in order to ensure normal vibration of the first screening plate 3 and the second screening plate 4, a plurality of long round holes 12 are respectively formed in the inner walls of the two sides of the shell 1, the first screening plate 3 and the second screening plate 4 are respectively connected with the long round holes 12 through pin shafts 13, and gaps with the distance of 0.2cm are formed between the two side walls, perpendicular to the fish ball transmission direction, of the first screening plate 3 and the shell 1.

Referring to fig. 2, the first guide mechanism 8 includes a first drive assembly 81 and a first guide plate 82; the fixed end of the first driving component 81 is arranged on the inner wall of the shell 1; the first guide plate 82 is perpendicular to the first sieving plate 3; one end of the first guide plate 82 is connected with the movable end of the first driving assembly 81, so that the other end of the first guide plate 82 can translate along the first sieving plate 3; a first gap having a distance of 0.5cm is provided between both sides of the first guide plate 82 in a direction perpendicular to the fish ball transferring direction and both side inner walls of the housing 1 in a direction perpendicular to the fish ball transferring direction. Specifically, the first driving assembly 81 is a conventional transmission mechanism, and optionally, the first driving assembly 81 is a screw transmission mechanism or a synchronous belt sliding table.

Referring to fig. 2 and 4, the first guide plate 82 has a second gap 83 with the first sifting plate 3. Optionally, the distance of the second gap 83 is 0.2cm to 0.5cm, preferably 0.4 cm.

The second guiding mechanism 9 has the same structure as the first guiding mechanism 8, and is not described herein again.

Referring to fig. 1, a secondary discharge opening 16 is further formed in one side of the housing 1 in a direction perpendicular to the fish ball conveying direction; the bottom of the discharge hopper 6 is inclined along the direction vertical to the fish ball transmission direction and gradually sinks along one end of the discharge hopper 6 to the other end of the discharge hopper 6; the other end of the discharge hopper 6 is positioned in the secondary discharge opening 16.

Referring to fig. 2 and 4, a material guide plate 30 is disposed between one end of the first sieving plate 3 close to the second sieving plate 4 and one end of the second sieving plate 4 close to the first sieving plate 3.

Preferably, the conveying means 7 is a belt.

The specific implementation process of the utility model is as follows:

the fish balls fall into the first screening plate 3 from the feed hopper 2 in a batch feeding mode, the fish balls slowly slide downwards under the support of the first guide plate 82, the first screening plate 3 enables the fish balls to be dispersed under the vibration of the first vibration motor 10, and meanwhile, the fish balls with the diameter smaller than or equal to the aperture of the first screening holes 31 can fall from the first screening holes 31 and are discharged along the discharge plate 5;

the fish balls which do not fall into the first screening holes 31 fall continuously until the first guide plate 82 moves to the position above the second screening plate 4, the fish balls fall onto the second screening plate 4 from the gap between the first screening plate 3 and the first guide plate 82, and when the first guide plate 82 moves to the position above the second screening plate 4, the distance between the first guide plate 82 and the second screening plate 4 is greater than or equal to 5 cm;

the second screening plate 4 continuously vibrates under the driving of the second vibrating motor 20, fish balls fall into the second screening plate 4 to be screened for the second time, the fish balls with the diameter smaller than or equal to the diameter of the second screening holes 41 fall from the second screening holes 41 and are discharged along the bottom of the discharge hopper 6 after falling into the discharge hopper 6, when the second guide plate of the second guide mechanism 9 moves to the position above the conveying mechanism 7, the distance between the second guide plate of the second guide mechanism 9 and the second screening plate 4 is larger than or equal to 5cm, the fish balls with the diameter larger than the diameter of the second screening holes 41 fall into the conveying mechanism 7 from the position between the second guide plate and the second screening plate 4, and the three-level screening of the fish balls is completed.

In summary, according to the fish ball classifying and screening device provided by the utility model, the first screening plate and the second screening plate are combined with the vibration motor to perform vibration screening on fish balls, so that the screening effect of the fish balls is ensured, the first guide mechanism and the second guide mechanism are arranged, the falling speed of the fish balls can be reduced, the fish balls can be accurately screened, and the structure is simple.

The above description is only an embodiment of the present invention, and not intended to limit the scope of the present invention, and all equivalent changes made by using the contents of the present specification and the drawings, or applied directly or indirectly to the related technical fields, are included in the scope of the present invention.

Claims (8)

1. A fish ball grading and screening device is characterized by comprising a shell, a feed hopper, a first screening plate, a second screening plate, a discharge hopper, a conveying mechanism, a first guide mechanism and a second guide mechanism;

a feed inlet is formed in one side of the shell in the horizontal direction, the feed hopper is fixedly arranged in the feed inlet, and one end of the feed hopper is positioned in the shell;

the other side of the shell in the horizontal direction is provided with a discharge hole, and the conveying mechanism is arranged in the discharge hole;

the first screening plate and the second screening plate are arranged in the shell, and the first screening plate is positioned below one end of the feed hopper;

the first screening plate and the second screening plate are sequentially arranged along the direction from the feeding side to the discharging side of the shell, and the feeding end of the second screening plate is lower than the discharging end of the first screening plate;

the first screening plate and the second screening plate are inclined along the direction from the feeding side to the discharging side of the shell in a sinking manner;

the first guide mechanism sinks gradually and inclines along the direction from the feeding side to the discharging side of the shell and is arranged on the inner wall of the shell;

the movable end of the first guide mechanism can translate along the first screening plate and is used for driving the fish balls to gradually sink and translate on the first screening plate along the direction from the feeding side to the discharging side of the shell;

the second guide mechanism sinks gradually and inclines along the direction from the feeding side to the discharging side of the shell and is arranged on the inner wall of the shell;

the movable end of the second guide mechanism can translate along the second screening plate and is used for driving the fish balls to gradually sink and translate on the second screening plate along the direction from the feeding side to the discharging side of the shell;

the first screening plate is longitudinally provided with a plurality of first screening holes which are uniformly distributed;

a first-stage discharge hole is formed in the feeding side of the shell and is positioned below the feeding hole;

the discharging plate is gradually inclined in a sinking manner along the direction from the discharging side to the feeding side of the shell, and the discharging end of the discharging plate is positioned in the primary discharging port;

the discharging plate is positioned below the first screening holes and used for discharging the fish balls falling from the first screening holes from the primary discharging opening;

the second screening plate is longitudinally provided with a plurality of second screening holes which are uniformly distributed;

the second screening holes are all positioned above the discharging hopper and are used for enabling the fish balls falling from the second screening holes to enter the discharging hopper;

the diameter of the first screening holes is smaller than the diameter of the second screening holes.

2. The fish ball classifying screen apparatus according to claim 1, further comprising a first vibration motor and a second vibration motor;

the fixed end of the first vibration motor and the fixed end of the second vibration motor are both arranged on the outer wall of the shell;

the output end of the first vibration motor penetrates through the side wall of the shell to be connected with the first screening plate, and is used for grading the fish balls on the first screening plate for the first time;

and the output end of the second vibration motor penetrates through the side wall of the shell to be connected with the second screening plate, and is used for secondarily grading the fish balls on the second screening plate.

3. The fish ball classifying screen apparatus according to claim 1, wherein the first guide mechanism includes a first drive assembly and a first guide plate;

the fixed end of the first driving component is arranged on the inner wall of the shell;

the first guide plate is perpendicular to the first screening plate;

one end of the first guide plate is connected with the movable end of the first driving assembly, so that the other end of the first guide plate can translate along the first screening plate;

and a first gap with the distance of 0.5cm is formed between two sides of the first guide plate in the direction mutually perpendicular to the fish ball transmission direction and two side inner walls of the shell in the direction mutually perpendicular to the fish ball transmission direction.

4. The fish ball classifying and screening apparatus according to claim 3, wherein a second gap is provided between said first guide plate and said first screening plate.

5. The fish ball classifying and screening apparatus according to claim 4, wherein the distance of the second gap is 0.2cm to 0.5 cm.

6. The fish ball classifying and screening device according to claim 1, wherein a secondary discharge port is further formed in one side of the housing in a direction perpendicular to the fish ball conveying direction;

the bottom of the discharge hopper is inclined along the direction vertical to the fish ball transmission direction and along the direction from one end of the discharge hopper to the other end of the discharge hopper;

the other end of the discharge hopper is positioned in the secondary discharge port.

7. The fish ball classifying and screening apparatus according to claim 1, wherein a material guiding plate is provided between an end of the first screening plate adjacent to the second screening plate and an end of the second screening plate adjacent to the first screening plate.

8. The fish ball classifying and screening apparatus according to claim 1, wherein the conveying mechanism is a belt.

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