LU101752A1 - Sieve sheet combined screw extruding fish meat-bone separation and meat collection device - Google Patents

Abstract

The present invention discloses a sieve sheet combined screw extruding fish meat-bone separation and meat collection device, comprising a front meat-bone separation mechanism, a feeding mechanism, and a frame, wherein the front meat-bone separation mechanism is fixedly connected to the feeding mechanism, and the feeding mechanism is fixed to the frame; the front meat-bone separation mechanism comprises a mincing portion and a separating portion connected to each other, and the mincing portion is provided with a shearing component to mince fishes; the separating portion comprises a sieve sheet assembly, and a reducing separating screw component penetrates the middle of the sieve sheet assembly; the sieve sheet assembly comprises a plurality of sieve sheets stacked sequentially, the sieve sheet is of a ring structure, the ring structure is radially provided with a plurality of bosses at intervals, recesses are formed between the bosses, a plurality of protrusions are uniformly formed at the recesses from the inside of the ring structure in the radial direction, and through grooves are formed between the protrusions to extrude fish meat. The device can achieve fine separation of small fish bones, and can efficiently collect meat from fish bodies with many small bones, small fishes, fish heads and fish steaks.

Description

1 |

SIEVE SHEET COMBINED SCREW EXTRUDING FISH MEAT-BONE u1017e2 SEPARATION AND MEAT COLLECTION DEVICE |

Field of the Invention /

The present disclosure relates to the technical field of fish meat and bone Ë separation, and in particular, to a sieve sheet combined screw extruding fish j meat-bone separation and meat collection device. ] Background of the Invention i

Fish contains many amino acids essential for the human body and abundant proteins, calcium, phosphorus and the like, its fat and cholesterol content are j relatively low, and fish meat is easy to digest and has good nutritional value, so fish ;

food is increasingly popular among people.

In 2017, China's total aquatic product ; output was 64.4533 million tons, of which fish production accounted for about 60% of ;

the aquatic products.

However, China's fish processing rate is less than 30%, the deep ] processing rate is even less than 10%, and in particular, fishes containing many small ; bones and fish meat for processing byproducts (fish heads, fish bones) are difficult to | process. }

At present, the existing meat separation and fine filtration processes all filter and '

separate meat and bones by means of meshes on drums, which cannot achieve the / separation of small fish bones in terms of technical principle, and also cannot collect :

meat from fish steaks. i Summary of the Invention /

In order to overcome the deficiencies of the prior art, the present disclosure ! provides a sieve sheet combined screw extruding fish meat-bone separation and meat | collection device, which can achieve fine separation of small fish bones, and can ) efficiently collect meat from fish bodies with many small bones, small fishes, fish | heads and fish steaks. |

The present disclosure aims to propose a sieve sheet combined screw extruding Ë fish meat-bone separation and meat collection device. In order to achieve the above IU101752 à objectives, the present disclosure adopts the following technical solution: | A sieve sheet combined screw extruding fish meat-bone separation and meat collection device is provided, including a front meat-bone separation mechanism, a | feeding mechanism, and a frame, wherein the front meat-bone separation mechanism | is fixedly connected to the feeding mechanism, and the feeding mechanism is fixed to 2 the frame. ; The front meat-bone separation mechanism includes a mincing portion and a | separating portion connected to each other, and the mincing portion is provided with a | shearing component to mince fishes; the separating portion includes a sieve sheet . assembly, and a reducing separating screw component penetrates the middle of the | sieve sheet assembly; the sieve sheet assembly includes a plurality of sieve sheets ; stacked sequentially, the sieve sheet is of a ring structure, the ring structure is radially Ë provided with a plurality of bosses at intervals, recesses are formed between the | bosses, a plurality of protrusions are uniformly formed at the recesses from the inside } of the ring structure in the radial direction, and through grooves are formed between | the protrusions to extrude fish meat. .

The working principle of the fish meat-bone separation and meat collection | device according to the present disclosure is: — | Fishes are fed by the feeding mechanism, the feeding mechanism extrudes the : fishes into the front meat-bone separation mechanism through the variable pitch screw | shaft, the shearing component of the mincing portion minces the fishes and delivers Ë the minced fish to the separating portion, the minced fish is delivered by the reducing ! separating screw component, the reducing separating screw component extrudes the | minced fish during the delivery, the fish meat is radially extruded out for storage | along the through grooves of the sieve sheet assembly, and the fish bones move ! axially along the reducing separating screw component and are discharged at the end | of the reducing separating screw component, thereby achieving fine separation of | small fish bones. | As a further technical solution, the length of the protrusions is smaller than the | width of the ring structure. u1017e2 } As a further technical solution, the radial section of the through grooves is È trapezoidal. | | As a further technical solution, a plurality of clamping grooves are provided on | the outer end face of the ring structure, the clamping grooves of the plurality of sieve | sheets are connected by engaging members, and the engaging members are fixedly | connected to the mincing portion.

As a further technical solution, the reducing separating screw component is a ; reducing screw shaft, the reducing screw shaft is fixedly connected to the mincing | portion, and the diameter of the reducing screw shaft gradually increases from the end ; connected to the mincing portion to the other end. ; As a further technical solution, the separating portion further includes a fixed ] plate, the fixed plate is spaced a set distance from the mincing portion and the two are ; fixedly connected, and the reducing screw shaft extends out of the fixed plate and is Ë fixedly connected to the fixed plate; | As a further technical solution, the fixed plate is provided with a through hole | through which the reducing screw shaft passes, and is fixedly connected to an inclined ; delivery plate at the through hole. | As a further technical solution, the mincing portion includes a mincing cavity, | the shearing component is disposed in the mincing cavity, the shearing component ; includes a fixed blade assembly and a moving blade assembly, the fixed blade ; assembly is fixed to the mincing cavity, and the moving blade assembly can rotate and : form a relative shearing movement with the fixed blade assembly. | As a further technical solution, the moving blade assembly and the fixed blade ' assembly are arranged adjacent to each other. | As a further technical solution, the feeding mechanism includes a feeding screw | shaft, and a feeding hopper is disposed above the feeding screw shaft. | As a further technical solution, the feeding screw shaft is connected to the | moving blade assembly, and the pitch of the feeding screw shaft gradually increases ) from the end connected to the moving blade assembly to the other end. ]

; ;

As a further technical solution, the feeding screw shaft is connected to a power u1017e2 | unit through a driving mechanism. | Beneficial effects of the present disclosure: | According to the fish meat-bone separation and meat collection device of the | present disclosure, the feeding mechanism can squeeze fishes during the delivery of ; the fishes, which is convenient for the mincing portion of the front meat-bone | separation mechanism to mince the fishes.

According to the fish meat-bone separation and meat collection device of the ;

present disclosure, the front meat-bone separation mechanism first shears and minces | the fishes into minced fish via the mincing portion, and then separates fish meat and | fish bones via the separating portion, which can achieve fine separation of fish meat | and fish bones and improve the quality and efficiency of fish meat collection. ] According to the fish meat-bone separation and meat collection device of the !

present disclosure, in the process of fine separation of fish bones, muscle fibers of the 7 fish meat are fully destroyed at the mincing portion by the hitting force of the fixed | blade assembly and the moving blade assembly and the extruding force of the ; reducing screw shaft, so that the processed fish meat meets the requirements of Ë minced fish raw materials, and the quality and efficiency are improved while the meat | collection rate increases. ; Brief Description of the Drawings ;

The accompanying drawings constituting a part of the present application are | intended to provide a further understanding of the present application, and the ; illustrative embodiments of the present application and the descriptions thereof are )

intended to interpret the present application and do not constitute improper limitations ; to the present application. |

Fig. 1 is a schematic diagram of an overall structure of a fish meat-bone : separation and meat collection device; |

Fig. 2 is an isometric diagram of the fish meat-bone separation and meat | collection device; :

Fig. 3 is a schematic Structural di ee mechanism; al diagram of a front meat. by | Fig. 4 is a schema; ©" paration | IC Structural diagram of a si : Fig. 5 is an isometric diagram of the si a sieve sheet: Fig. 6 is a schemati vere sheet | AlC structural diagram of 9 reducing screw shaft In which, 1 front meat-bone separation mechanism, 2 feedi driving mechanism, 4 frame, 5 separating porti | © eeding mechanism, 3 bat 8 seve sheet portion, 6 mincing cavity, 7 reducing screw , : sheet assembly, 9 fixed blade assembly, 10 moving blade assembly, 11 mincing cavity shell, 12 ring structure, 13 boss, 14 clamping groove, 15 engaging member, 16 fixed plate, 17 delivery plate, 18 feeding screw shaft, 19 feeding hopper, 20 power unit, 21 bolt, 22 recess, 23 protrusion.

Detailed Description of Embodiments It should be noted that the following detailed descriptions are exemplary and are | intended to provide further descriptions of the present application.

All technical and | scientific terms used herein have the same meaning as commonly understood by those of ordinary skill in the technical filed to which the present application belongs, unless otherwise indicated.

It should be noted that the terms used here are merely used for describing specific embodiments, but are not intended to limit the exemplary embodiments of the present application.

As used herein, unless otherwise clearly stated in the context, singular forms are also intended to include plural forms.

In addition, it should also be understood that when the terms “comprise” and/or “include” are used in the description, it indicates the presence of features, steps, operations, devices, components, and/or combinations thereof.

For the convenience of description, the terms “upper”, “lower”, “left” and “right” in the present disclosure only indicate the upper, lower, left and right directions of the | drawings, do not limit the structures, are only for the convenience of description and the simplification of description, do not indicate or imply that the devices or elements | must have specific directions or be constructed and operated in specific directions, | and therefore cannot be understood as limitations to the present disclosure. lu101752 As introduced in the Background of the Invention, the inventors have found that the current meat separation and fine filtration processes are difficult in meat separation from fish bodies with many small bones, small fishes, fish heads, fish bones, etc.

In order to solve the above technical problems, the present application proposes a sieve sheet combined screw extruding fish meat-bone separation and meat collection device.

The present application provides a sieve sheet combined screw extruding fish | meat-bone separation and meat collection device, including a front meat-bone separation mechanism, a feeding mechanism, and a frame, wherein the front meat-bone separation mechanism is fixedly connected to the feeding mechanism, and the feeding mechanism is fixed to the frame; The front meat-bone separation mechanism includes a mincing portion and a separating portion connected to each other, and the mincing portion is provided with a shearing component to mince fishes; the separating portion includes a sieve sheet assembly, and a reducing separating screw component penetrates the middle of the sieve sheet assembly; the sieve sheet assembly includes a plurality of sieve sheets stacked sequentially, the sieve sheet is of a ring structure, and the ring structure is radially disposed with a plurality of through grooves for extruding fish meat out.

Embodiment 1 The fish meat-bone separation and meat collection device according to this embodiment is further described below with reference to Fig. 1 to Fig. 5. Referring to Fig. 1, the sieve sheet combined screw extruding fish meat-bone separation and meat collection device includes a front meat-bone separation mechanism 1, a feeding mechanism 2, a driving mechanism 3, a power unit 20, and a frame 4, wherein the front meat-bone separation mechanism 1 is connected to the feeding mechanism 2 through flanges and bolts, the feeding mechanism 2 is connected to the frame 4 through a base plate and bolts, the driving mechanism 3 is connected to the feeding mechanism 2 through flanges and bolts, and the driving mechanism 3 is connected to the power unit 20. errr

7 : This device is used for meat-bone separation and meat collection of whole fishes ut01752 | and fish steaks. Based on fluid mechanics and solid-fluid separation principles, a fish | meat and bone separating portion is designed to implement fine separation of fish ‘ meat and bones, thereby improving the quality and efficiency of fish meat collection. ; As shown in Fig. 1, the feeding mechanism includes a feeding screw shaft 18, ‘ and a feeding hopper 19 is disposed above the feeding screw shaft 18.

The feeding screw shaft 18 is connected to the driving mechanism 3, and the Ë power unit 20 provides power for the feeding screw shaft 18 to drive the rotation ; thereof. : The feeding screw shaft 18 is of a variable pitch structure. As shown in Fig. 1, the pitch of the feeding screw shaft 18 decreases in the feeding direction, that is, the ; pitch gradually decreases from the end connected to the driving mechanism 3 to the | other end, thus extruding fishes when the fishes are delivered to the front meat-bone ] separation mechanism 1. ) The driving mechanism 3 drives the feeding screw shaft 18 of the feeding | mechanism 2 to rotate, and fish bodies with many small bones, fish heads and fish | bones are extruded and delivered by the feeding screw shaft 18 to a mincing cavity 6 ] of the front meat-bone separation mechanism 1. | As shown in Fig. 3, the front meat-bone separation mechanism 1 includes a É mincing portion and a separating portion 5 connected to each other, and the mincing | portion is provided with a shearing component to mince fishes; | The mincing portion includes a mincing cavity 6, the shearing component is : disposed in a mincing cavity shell 11 of the mincing cavity 6, the shearing component É includes a fixed blade assembly 9 and a moving blade assembly 10, the fixed blade ; assembly 9 is fixed to the mincing cavity shell 11, and the moving blade assembly 10 } can rotate and form a relative shearing movement with the fixed blade assembly 9. | The moving blade assembly 10 and the fixed blade assembly 9 are disposed | adjacent to each other. | The moving blade assembly 10 is composed of a plurality of blades fixed to a à moving blade shaft, angles are set between the adjacent blades, the feeding screw :

shaft 18 is connected to the moving blade shaft, and the feeding screw shaft 18 drives u101752 the moving blade shaft to rotate. ; The fixed blade assembly 9 is also composed of a plurality of blades, the blades 7 are in clearance fit with the mincing cavity shell 11 and are fixed in the inner cavity of | the mincing cavity shell 11, and the fixed blade assembly 9 and the moving blade | assembly 10 form a shearing movement to mince fish bodies, fish heads, and fish | steaks. ; The separating portion 5 includes a sieve sheet assembly 8, a reducing separating | screw component penetrates the middle of the sieve sheet assembly 8, and the | reducing separating screw component is a reducing screw shaft 7. ; The sieve sheet assembly 8 includes a plurality of sieve sheets stacked | sequentially, as shown in Fig. 4 and Fig. 5, the sieve sheet is of a ring structure 12, the | ring structure 12 is radially provided with a plurality of bosses 13 at intervals, recesses : 22 are formed between the bosses, a plurality of protrusions 23 are uniformly | distributed at the recesses 22 from the inside of the ring structure 12 in the radial È direction, through grooves are formed between the protrusions 23, the length of the | protrusions 23 is smaller than the width of the ring structure 12, and the through j grooves form channels for extruding fish meat. The bosses of the plurality of sieve | sheets of the sieve sheet assembly 8 are disposed oppositely, and the fish meat is | extruded into recess gaps of the plurality of sieve sheets from the through grooves and / then extruded to a collection box for collection. ; The radial section of the through grooves (that is, the radial section along the ring ; structure) is trapezoidal. Ë The (circumferential) width of the through grooves is 0.01-0.1 mm, and the | height (perpendicular to both circumferential and radial directions) of the bosses 13 is |

0.1-0.6 mm. | The sieve sheet assembly 8 is of an open structure, and is not blocked by other | structure on the outside in order to facilitate heat dissipation. | À plurality of clamping grooves 14 are provided on the outer end face of the ring ] structure 12. In this embodiment, four clamping grooves are provided. As shown in |

EE TE

Fig. 2 and Fig. 3, the clamping grooves 14 of the plurality of sieve sheets are lu101752 connected by engaging members 15, one end of each of the engaging members 15 is fixedly connected to the mincing cavity shell 11, and the other end of the engaging member 15 is fixedly connected to a fixed plate 16.

The fixed plate 16 is spaced a set distance from the mincing cavity shell 11 of the mincing portion and the two are fixedly connected by bolts 21, the sieve sheet assembly 8 is disposed between the fixed plate 16 and the mincing cavity shell 11 of | the mincing portion, and the fixed plate 16 can also be connected to the frame 4 through a connecting plate.

One end of the reducing screw shaft 7 is fixedly connected to the moving blade shaft of the moving blade assembly 10 of the mincing portion, the reducing screw shaft 7 is driven to rotate by the moving blade shaft, and the other end of the reducing screw shaft 7 extends out of the fixed plate 16 and is fixedly connected to a horizontal extension plate of the fixed plate 16 through a bearing, a bearing seat and the like.

As shown in Fig. 3 and Fig. 6, the diameter of the reducing screw shaft 7 gradually increases in the feeding direction, that is, the diameter of the reducing screw shaft 7 gradually increases from the end connected to the mincing portion to the other end. During the delivery of fish meat through the reducing screw shaft 7, the extruding space for fish meat is relatively stable, the extruding force is uniform, and the temperature rise is stable, so the extruded fish meat is uniformly extruded out along the through grooves of the sieve sheets.

As shown in Fig. 2 and Fig. 3, the fixed plate 16 is provided with a through hole through which the reducing screw shaft 7 passes, and is fixedly connected to an inclined delivery plate 17 at the through hole, and fish bones are delivered out by the delivery plate 17. As shown in Fig. 5, the reducing screw shaft 7 is provided with an inclined surface at the end of delivering fish bones out, the fixed plate 16 is also provided with a matching inclined surface, and a fish bone delivery channel is formed accordingly to deliver the fish bones via the delivery plate 17.

The driving mechanism 3 is mainly composed of a pulley, a belt, a linkage shaft, a reducer, etc. The reducer reduces the speed to increase the torque, thus ensuring the er eee

10 | power output of the separating portion and the mincing portion of the front meat-bone u1oT7o2 | separation mechanism.

The power unit 20 is a motor controlled at a variable frequency, and the speed of | the motor can be changed according to the demand so as to adjust the speed of feeding | fishes and fish steaks conveniently and quickly. | The frame 4 is mainly composed of a motor base and a rectangular tube welding | assembly. The rectangular tube welding assembly is formed by welding rectangular | tubes with good rigidity into a whole, so the overall device is stable and strong against | vibration. | The specific working process of the fish meat-bone separation and meat | collection device according to the present disclosure is: | Fishes with many small bones, fish heads, fish steaks and the like are fed via the | feeding hopper 19 of the feeding mechanism 2, the driving mechanism 3 drives the ; feeding screw shaft 18 to rotate, the feeding screw shaft 18 extrudes and delivers the ; fishes with many small bones, fish heads, fish steaks and the like to the mincing | cavity 6 of the front meat-bone separation mechanism 1, the moving blade assembly | 10 is driven to rotate by the feeding screw shaft 18, the fixed blade assembly 9 and the : moving blade assembly 10 form a shearing movement to mince the fish bodies, fish : heads and fish steaks, and then the pasty fish meat and bone mixture is delivered to | the separating portion 5 by the reducing screw shaft 7, wherein the pasty fish meat moves radially along the through grooves of the sieve sheet assembly 8 under the screw extruding force of the reducing screw shaft 7 and is extruded outward for | storage, the fish bones cannot move radially and be extruded outward under the stress ; of the pasty mixture, but move axially with the rotation of the reducing screw shaft 7, ; and are discharged from the front of the front meat-bone separation mechanism 1 and | delivered out by the delivery plate 17, thereby achieving fine separation of small fish | bones. 1 In the process of fine separation of fish bones, muscle fibers of the fish meat are : fully destroyed by the hitting force of the fixed blade assembly 9 and the moving | blade assembly 10 and the extruding force of the reducing screw shaft 7, so that the

TTT

| 11 processed fish meat meets the requirements of minced fish raw materials, and the 101752 quality and efficiency are improved while the meat collection rate increases.

The fish meat-bone separation and meat collection device according to the present disclosure can achieve fine separation of small fish bones, efficiently collect meat from fish bodies with many small bones, small fishes, fish heads and fish steaks, and improve the economic benefits of fish processing.

Although the specific embodiments of the present disclosure are described above in combination with the accompanying drawings, the protection scope of the present disclosure is not limited thereto.

It should be understood by those skilled in the art that various modifications or variations could be made by those skilled in the art based on the technical solution of the present disclosure without any creative effort, and these | modifications or variations shall fall into the protection scope of the present | disclosure.

The above descriptions are only the preferred embodiments of the present | application, and are not intended to limit the present application.

Various changes and | variations may be made to the present application by those skilled in the art.

Any modifications, equivalent substitutions, improvements and the like made within the | spirit and principle of the present application shall fall within the scope of the present | application. | |

Claims (10)

12 | lu101752 Claims ;

1. A sieve sheet combined screw extruding fish meat-bone separation and meat ; collection device, comprising a front meat-bone separation mechanism, a feeding ) mechanism, and a frame, wherein the front meat-bone separation mechanism is 0 fixedly connected to the feeding mechanism, and the feeding mechanism is fixed to à the frame; : the front meat-bone separation mechanism comprises a mincing portion and a ; separating portion connected to each other, and the mincing portion is provided with a | shearing component to mince fishes; the separating portion comprises a sieve sheet | assembly, and a reducing separating screw component penetrates the middle of the Ë sieve sheet assembly; the sieve sheet assembly comprises a plurality of sieve sheets ; stacked sequentially, the sieve sheet is of a ring structure, the ring structure is radially provided with a plurality of bosses at intervals, recesses are formed between the ' bosses, a plurality of protrusions are uniformly formed at the recesses from the inside ] of the ring structure in the radial direction, and through grooves are formed between Ë the protrusions to extrude fish meat. A

2. The sieve sheet combined screw extruding fish meat-bone separation and meat ° collection device according to claim 1, wherein the length of the protrusions is smaller | than the width of the ring structure. ]

3. The sieve sheet combined screw extruding fish meat-bone separation and meat | collection device according to claim 1, wherein the radial section of the through i grooves is trapezoidal. ;

4. The sieve sheet combined screw extruding fish meat-bone separation and meat ; collection device according to claim 1, wherein a plurality of clamping grooves are | provided on the outer end face of the ring structure, the clamping grooves of the : plurality of sieve sheets are connected by engaging members, and the engaging ; members are fixedly connected to the mincing portion. |

5. The sieve sheet combined screw extruding fish meat-bone separation and meat | collection device according to claim 1, wherein the reducing separating screw | component is a reducing screw shaft, the reducing screw shaft is fixedly connected to 101752 | the mincing portion, and the diameter of the reducing screw shaft gradually increases | from the end connected to the mincing portion to the other end. |

6. The sieve sheet combined screw extruding fish meat-bone separation and meat | collection device according to claim 5, wherein the separating portion further | comprises a fixed plate, the fixed plate is spaced a set distance from the mincing | portion and the two are fixedly connected, and the reducing screw shaft extends out of | the fixed plate and is fixedly connected to the fixed plate. i

7. The sieve sheet combined screw extruding fish meat-bone separation and meat 1 collection device according to claim 6, wherein the fixed plate is provided with a Ë through hole through which the reducing screw shaft passes, and is fixedly connected | to an inclined delivery plate at the through hole. ;

8. The sieve sheet combined screw extruding fish meat-bone separation and meat Ë collection device according to claim 1, wherein the mincing portion comprises a | mincing cavity, the shearing component is disposed in the mincing cavity, the | shearing component comprises a fixed blade assembly and a moving blade assembly, l the fixed blade assembly is fixed to the mincing cavity, and the moving blade ! assembly can rotate and form a relative shearing movement with the fixed blade } assembly; and the moving blade assembly and the fixed blade assembly are arranged ) adjacent to each other. |

9. The sieve sheet combined screw extruding fish meat-bone separation and meat | collection device according to claim 8, wherein the feeding mechanism comprises a feeding screw shaft, and a feeding hopper is disposed above the feeding screw shaft; and the feeding screw shaft is connected to a power unit through a driving mechanism. ‘

10. The sieve sheet combined screw extruding fish meat-bone separation and | meat collection device according to claim 9, wherein the feeding screw shaft is ; connected to the moving blade assembly, and the pitch of the feeding screw shaft gradually increases from the end connected to the moving blade assembly to the other / end. | = eee