CN114414336B

CN114414336B - Grinding equipment for frozen food detection

Info

Publication number: CN114414336B
Application number: CN202210065112.XA
Authority: CN
Inventors: 杜兴兰; 韩猛; 杨凯; 王大海
Original assignee: Guangzhou Hongrui Instrument Equipment Co ltd
Current assignee: Guangzhou Hongrui Instrument Equipment Co ltd
Priority date: 2022-01-20
Filing date: 2022-01-20
Publication date: 2024-04-09
Anticipated expiration: 2042-01-20
Also published as: CN114414336A

Abstract

The invention belongs to the technical field of food detection, and particularly relates to grinding equipment for frozen food detection, which comprises a processing box, a feeding part, a thawing part, a impurity removing part, a grinding part and a storage part, wherein the lower end of the processing box is fixedly provided with the storage box, and the grinding part is positioned in the middle of the interior of the processing box; the broken sleeve rotates and drives the ram to cooperate with the arc in the grinding piece to pick up the meat upwards, and the grinding motor starts the linkage and drives the grinding piece to rotate and cooperate with the broken sleeve to rotate and drive the flexible rotation of flexible piece and drive the stripper plate and move and rotate and squeeze the grinding to the meat, and the ram rotates and slides and cooperates with the structure of protruding both sides indent in the middle of the filter block and the hemispherical indent of the grinding piece to drive the meat to circulate and pick up and grind and break. According to the invention, frozen meat is driven to uniformly and spirally move downwards through rotation, meanwhile, the frozen meat is driven to rotatably heat the thawing column, frozen water falling after thawing is removed, meat slices are prevented from falling and blocking, and the meat slices are circularly cut, crushed and ground into slurry.

Description

Grinding equipment for frozen food detection

Technical Field

The invention belongs to the technical field of food detection, and particularly relates to grinding equipment for frozen food detection.

Background

China is a large national world for pork production and consumption. In modern meat and meat product processing, frozen meat is a raw material for many food enterprises and an important product regulating the meat food market. The frozen meat is frozen under the low-temperature condition, so that the shelf life of the meat can be effectively prolonged, the method plays an extremely important role in different-place transportation, import and export trade, national strategic reserve and the like, and the traditional physicochemical detection method of the frozen meat is complex in operation and time-consuming in detection, and cannot feed back the quality information of the frozen meat rapidly.

The conventional grinding equipment for frozen food detection has the following problems;

(1) frozen water is produced when the frozen meat is thawed, and the frozen water cannot be treated in time to influence the detection result;

(2) when the meat is crushed and ground, main equipment is easy to clamp, so that the grinding efficiency is easily affected;

(3) insufficient grinding of meat affects the detection result;

disclosure of Invention

The invention aims at solving the problems in the prior art, and provides grinding equipment for frozen food detection, which can drive frozen meat to uniformly and spirally move downwards through rotation and simultaneously drive a defrosting column to rotationally heat, remove frozen water which thaws and falls and prevent meat slices from falling and blocking, circularly cut and crush meat slices and grind the meat slices into slurry, so that the grinding working efficiency is improved and the grinding is sufficient.

The aim of the invention can be achieved by the following technical scheme: the grinding equipment for frozen food detection comprises a processing box, a feeding part, a thawing part, a impurity removing part, a grinding part and a storage part, wherein the lower end of the processing box is fixedly provided with the storage box, and the grinding part is positioned in the middle of the interior of the processing box;

the grinding block is of a hollow hemispherical structure, one end of the grinding block in the external direction of the processing box is provided with a grinding motor in a linkage way, the lower end of the grinding block is fixedly provided with a filter block, the middle of the filter block is of an arc-shaped convex block structure, two sides of the filter block are of arc-shaped concave block structures, and the filter block is in rotary sealing connection with the grinding block;

the crushing group comprises two fixed columns, two crushing sleeves are rotatably sleeved on the outer circumferential surfaces of the two fixed columns, a crushing motor is arranged at one end of each crushing sleeve in a penetrating mode through a processing box, a plurality of pickers are arranged in a sliding mode in the circumferential direction of each crushing sleeve, a plurality of telescopic blocks are arranged in a sliding mode in the circumferential direction of each crushing sleeve, a plurality of extrusion plates are fixedly arranged in the direction of each telescopic block away from the corresponding fixed column, the crushing motor is started to drive the crushing sleeve to rotate, the crushing sleeve rotates to drive the corresponding arc in the corresponding pickers to lift meat upwards, the grinding motor is started to drive the corresponding grinding blocks to rotate, the telescopic blocks are driven to rotate in a telescopic mode to drive the corresponding extrusion plates to rotate, extrusion plates are driven to rotate, and the concave structures on the two sides in the middle of the corresponding filter blocks are matched with the corresponding pickers in a sliding mode to drive the hemispherical indent of the corresponding to enable meat to rotate and pick up, and grind.

Preferably, the feeding part comprises a feeding funnel, the feeding funnel is fixed at the upper end of the processing box, feeding rotating plates are arranged on two sides of the upper end of the feeding funnel in a rotating mode, rotating cloth belts are arranged on the inner wall of the feeding funnel in a rotating mode, and the inner wall of the feeding funnel is cleaned up and kept clean by rotating and moving the cloth belts.

Preferably, the defrosting component comprises a discharging motor, the discharging motor is fixed in a processing box below the feeding hopper, a linkage column is arranged at the upper end of the discharging motor in a linkage mode, a spiral plate is fixedly arranged on the outer circumferential surface of the linkage column, a plurality of rotating columns are arranged on two sides of the linkage column in the processing box in a rotating mode, a plurality of defrosting columns are arranged at one ends of the plurality of rotating columns in the direction of the linkage column, a heating cavity is formed in the defrosting column, the defrosting column moves downwards through meat to drive the defrosting column to rotate in the processing box to be matched with the rotating columns to rotate and defrost the meat, and a disinfection cavity is arranged above the inside of the linkage column and is connected with the outside of the linkage column.

Preferably, the edulcoration part includes two unloading passageways, two unloading passageways are located the processing case of unloading motor both sides, two rotation in the unloading passageway are equipped with two pivots, be equipped with two edulcoration chambeies in two pivots, the pivot circumferencial direction has set firmly four anti-blocking bars, a plurality of feed valves have been set firmly on the anti-blocking bar, a plurality of feed valves and edulcoration chambeies pass through anti-blocking bar inside intercommunication, the pivot cooperation four anti-blocking bars block up the unloading passageway and enter into the edulcoration intracavity with the frozen water that falls through a plurality of feed valves, the pivot rotates and drives a plurality of anti-blocking bars and rotate and drive the meat in the mediation unloading passageway and prevent to block up.

Preferably, the grinding part comprises an air cavity, the air cavity is positioned inside the fixed column, the fixed column is rotationally connected with the crushing sleeve, an air outlet channel is arranged between the air cavity and the outer part of the fixed column, the air outlet channel is connected with the ram and the rear side of the telescopic block, one end of the ram, far away from the fixed column, is matched with the inner cambered surface of the grinding block in a sealing manner to slide correspondingly, one end of the plurality of squeeze plates, far away from the crushing sleeve, is matched with the inner cambered surface of the grinding block in a sealing manner to slide correspondingly, a plurality of broken blocks are arranged in the circumferential direction of the crushing sleeve in a sliding manner, and a plurality of cutting blocks are arranged in the crushing blocks in a sliding manner.

Preferably, a plurality of broken pieces on two broken sleeves rotate to drive a plurality of cutting blocks on two broken sleeves to slide in a plurality of broken blocks to cut and break meat, two filter valves are fixedly arranged on two sides of a filter block, a storage channel is arranged in a processing box below the filter block, and the two broken sleeves rotate in a meshed linkage manner through two gears.

Preferably, the storage part comprises a storage telescopic block, the storage telescopic block is positioned in a storage box below the storage channel, the storage telescopic block slides in the storage box, two discharge ports are formed in two sides of the lower portion of the storage telescopic block, a conveying mechanism is arranged in the storage box in a rotating mode below the storage telescopic block, two fixing blocks are rotatably arranged on two sides of the conveying mechanism, which penetrate out of the storage box, the storage box slides towards the fixing blocks and is provided with a discharge sliding plate, and a sealed storage cup is arranged at the upper end of the conveying mechanism.

Preferably, meat paste at the upper end of the filter block is filtered by the two filter valves and enters the storage channel, and meat paste in the storage channel drives the storage telescopic block to stretch and slide downwards to enter the sealed storage cup by extruding the storage telescopic block, and meat paste in the storage channel is matched with the two discharge ports to enter the sealed storage cup for sealed storage.

The beneficial effects are that:

1. through thawing parts setting, carry out frozen meat and drive the post of thawing and rotate the heating through rotating the even spiral movement downwards of drive frozen meat, be favorable to being heated evenly and unfreeze the degree the same to frozen meat.

2. Through edulcoration part equipment, get rid of the frozen water that unfreezes whereabouts and prevent that the meat slice whereabouts from blocking up, be favorable to the detection accuracy to frozen meat.

3. Through the setting of grinding part, carry out cyclic cutting breakage and grind into thick liquid to the meat slice, improve the work efficiency of grinding and grind abundant, be favorable to grinding and detect after abundant.

Drawings

The invention is further explained below with reference to the drawings and examples:

FIG. 1 is a schematic view of an isometric structure of the present invention.

Fig. 2 is a schematic diagram of the front view structure of the present invention.

FIG. 3 is a schematic cross-sectional view of the structure at A-A in FIG. 2.

Fig. 4 is a partially enlarged structural schematic diagram at B in fig. 3.

Fig. 5 is a partially enlarged structural schematic view at C in fig. 3.

Fig. 6 is a partially enlarged structural schematic diagram at D in fig. 3.

Fig. 7 is a schematic diagram of a partial enlarged view at E in fig. 3.

Fig. 8 is a schematic diagram of a partial enlarged view at F in fig. 3.

In the drawing, a processing box 10, a storage box 11, a feeding part 12, a thawing part 13, a impurity removing part 14, a grinding part 15, a storage part 16, a feeding hopper 17, a feeding rotating plate 18, a rotating cloth belt 19, a discharging motor 20, a linkage column 21, a spiral plate 22, a rotating column 23, a thawing column 24, a sterilizing chamber 25, a rotating shaft 26, an impurity removing chamber 27, an anti-blocking rod 28, a feeding valve 29, a discharging channel 30, a grinding motor 31, a grinding block 32, a filtering block 33, a crushing group 34, a crushing sleeve 35, a fixing column 36, an air cavity 37, an air outlet channel 38, a ram 39, a telescopic block 40, a pressing plate 41, a crushing block 42, a cutting block 43, a filtering valve 44, a storage channel 45, a storage telescopic block 46, a sealing storage cup 47, a conveying mechanism 48, a fixing block 49, a discharging slide plate 50, a crushing motor 51, and a discharging port 52.

Detailed Description

The following are specific embodiments of the present invention and the technical solutions of the present invention will be further described with reference to the accompanying drawings, but the present invention is not limited to these embodiments.

Referring to fig. 1 to 8, a grinding device for frozen food detection comprises a processing box 10, a feeding part 12, a thawing part 13, a impurity removing part 14, a grinding part 15 and a storage part 16, wherein the lower end of the processing box 10 is fixedly provided with the storage box 11, and the grinding part 15 is positioned in the middle of the interior of the processing box 10;

the grinding block 32 is of a hollow hemispherical structure, one end of the grinding block 32 in the external direction of the processing box 10 is provided with a grinding motor 31 in a linkage way, the lower end of the grinding block 32 is fixedly provided with a filter block 33, the middle of the filter block 33 is of an arc-shaped convex block structure, two sides of the filter block 33 are of arc-shaped concave block structures, and the filter block 33 is in rotary sealing connection with the grinding block 32;

the crushing group 34, crushing group 34 contains and is equipped with two fixed columns 36, the cover is equipped with two crushing sleeves 35 on the outer periphery of two fixed columns 36, the processing case 10 linkage is worn out to crushing sleeve 35 one end is equipped with crushing motor 51, crushing sleeve 35 circumferencial direction slip is equipped with a plurality of ram 39, crushing sleeve 35 circumferencial direction slip is equipped with a plurality of telescopic blocks 40, a plurality of telescopic blocks 40 keep away from the fixed column 36 orientation and set firmly a plurality of stripper plates 41, crushing motor 51 starts the linkage and drives crushing sleeve 35 rotation, crushing sleeve 35 rotates and drives ram 39 cooperation grinding piece 32 in the arc with the meat upwards pick up, grinding motor 31 starts the linkage and drives grinding piece 32 to rotate and drive telescopic block 40 telescopic rotation and drive stripper plate 41 and remove and rotate and extrude the grinding to meat, ram 39 rotates and slides and cooperates the concave structure in the middle of filter block 33 and the grinding piece 32 hemisphere indent and drives the meat and circulate and pick up the grinding and smash.

Further, referring to fig. 1 to 8, the feeding member 12 includes a feeding funnel 17, the feeding funnel 17 is fixed at the upper end of the processing box 10, two sides of the upper end of the feeding funnel 17 are rotatably provided with a feeding rotation plate 18, the inner wall of the feeding funnel 17 is rotatably provided with a rotation cloth belt 19, and the inner wall of the feeding funnel 17 is cleaned and kept clean by rotating and moving the rotation cloth belt 19.

Further, referring to fig. 1 to 8, the thawing unit 13 includes a thawing unit 13 including a discharging motor 20, the discharging motor 20 is fixed in the processing box 10 below the feeding hopper 17, a linkage column 21 is provided at the upper end of the discharging motor 20 in a linkage manner, a spiral plate 22 is fixedly provided on the outer circumferential surface of the linkage column 21, a plurality of rotary columns 23 are provided at both sides of the linkage column 21 in the processing box 10 in a rotating manner, a plurality of thawing columns 24 are provided at one end of the plurality of rotary columns 23 in the direction of the linkage column 21, a heating cavity is provided in the thawing column 24, the thawing column 24 drives the thawing column 24 to rotate in cooperation with the rotary columns 23 to rotate in the processing box 10 through meat downward movement to heat and thaw meat, and a sterilizing cavity 25 is provided at the upper part inside the linkage column 21, and the sterilizing cavity 25 is connected with the outside of the linkage column 21.

Further, referring to fig. 1 to 8, the impurity removing unit 14 includes two discharging channels 30, the two discharging channels 30 are located in the processing box 10 at two sides of the discharging motor 20, two rotating shafts 26 are rotatably provided in the two discharging channels 30, two impurity removing cavities 27 are provided in the two rotating shafts 26, four anti-blocking rods 28 are fixedly provided in the circumferential direction of the rotating shafts 26, a plurality of feed valves 29 are fixedly provided on the anti-blocking rods 28, the feed valves 29 are communicated with the inside of the impurity removing cavities 27 through the anti-blocking rods 28, the rotating shafts 26 cooperate with the four anti-blocking rods 28 to block the discharging channels 30, and the falling frozen water enters the impurity removing cavities 27 through the feed valves 29, and the rotating shafts 26 rotate to drive the anti-blocking rods 28 to rotate so as to drive meat in the dredging discharging channels 30 to prevent blocking.

Further, referring to fig. 1-8, the grinding member 15 includes an air cavity 37, the air cavity 37 is located inside the fixed column 36, the fixed column 36 is rotationally connected with the crushing sleeve 35, an air outlet channel 38 is connected with the outside of the fixed column 36 in the air cavity 37, the air outlet channel 38 is connected with a ram 39 and the rear side of a telescopic block 40, one end of the ram 39, which is far away from the fixed column 36, is correspondingly matched with the inner cambered surface of the grinding block 32 to slide in a sealing manner, one end of the plurality of extrusion plates 41, which is far away from the crushing sleeve 35, is correspondingly matched with the inner cambered surface of the grinding block 32 to slide in a sealing manner, a plurality of broken blocks 42 are slidably arranged in the circumferential direction of the crushing sleeve 35, and a plurality of cutting blocks 43 are slidably arranged in the broken blocks 42.

Further, referring to fig. 1-8, the plurality of breaking pieces 42 on the two breaking sleeves 35 rotate to drive the plurality of cutting blocks 43 on the two breaking sleeves 35 to slide in the plurality of breaking pieces 42 to cut and break meat, two filtering valves 44 are fixedly arranged on two sides of the filtering block 33, a storage channel 45 is arranged in the processing box 10 below the filtering block 33, and the two breaking sleeves 35 rotate in a meshed linkage manner through two gears.

Further, referring to fig. 1 to 8, the storage unit 16 includes a storage expansion block 46, the storage expansion block 46 is located in the storage box 11 below the storage channel 45, the storage expansion block 46 slides in the storage box 11, two discharge ports 52 are provided on two sides of the lower portion of the storage expansion block 46, a conveying mechanism 48 is provided below the storage expansion block 46 in a rotating manner in the storage box 11, two fixing blocks 49 are provided on two sides of the conveying mechanism 48 penetrating out of the storage box 11 in a rotating manner, the storage box 11 slides in a direction of the fixing blocks 49 and is provided with a discharge sliding plate 50, and a sealing storage cup 47 is provided on the upper end of the conveying mechanism 48.

Further, referring to fig. 1-8, the meat paste at the upper end of the filter block 33 is filtered by the two filter valves 44 and enters the storage channel 45, and the meat paste in the storage channel 45 drives the storage telescopic block 46 to slide down into the sealed storage cup 47 by extruding the storage telescopic block 46, and the meat paste in the storage channel 45 enters the sealed storage cup 47 for sealed storage by matching the inside of the storage telescopic block 46 with the two discharge ports 52.

Principle of operation

S1 feeding: the two feed rotation plates 18 are turned open on the feed hopper 17 and the frozen meat is fed into the processing box 10 through the feed hopper 17, and the two feed rotation plates 18 are turned closed on the feed hopper 17.

S2, thawing: the blanking motor 20 is started to drive the spiral plate 22 to rotate through the linkage column 21, the spiral plate 22 rotates to drive the frozen meat to uniformly spiral downwards, the frozen meat uniformly spiral downwards moves to drive the plurality of defrosting columns 24 to rotate in the processing box 10 in cooperation with the rotating column 23, and the inside of the defrosting columns 24 is heated in cooperation with the rotation of the defrosting columns 24 to uniformly defrost the frozen meat through rotation and heating.

S3, impurity removal: chilled water and meat fall into two blanking channels 30, the rotating shaft 26 is matched with four anti-blocking rods 28 to block the blanking channels 30, the fallen chilled water enters the impurity removing cavity 27 through the plurality of feed valves 29 to remove impurities, the rotating shaft 26 rotates to drive the plurality of anti-blocking rods 28 to rotate to drive meat in the dredging blanking channels 30 to fall into the grinding part 15, and the blanking channels 30 are prevented from being blocked.

S4, crushing and cutting: the crushing motor 51 is started to drive the crushing sleeve 35 to rotate, the crushing sleeve 35 rotates to drive the two crushing sleeves 35 to rotate in opposite directions through the meshing linkage of the two gears, the two crushing sleeves 35 rotate in opposite directions to drive the plurality of broken pieces 42 to rotate, the plurality of cutting blocks 43 slide in the crushing blocks 42 to cut out the meat slices, and the plurality of broken pieces 42 on the two crushing sleeves 35 rotate to squeeze and crush.

S5, grinding: the meat piece falls and moves to both sides through the arc-shaped protruding blocks in the middle of the filter block 33, the two crushing sleeves 35 rotate to drive the plurality of ram rods 39 to rotate, the plurality of ram rods 39 rotate to be connected with the air outlet channel 38, the air cavity 37 is used for discharging air through the air outlet channel 38 to enable the ram rods 39 to slide in the crushing sleeves 35 to match with the inner hemispherical arcs of the grinding block 32 to lift up the meat piece in a sealing manner, the two crushing sleeves 35 rotate to drive the plurality of telescopic blocks 40 to rotate to be connected with the air outlet channel 38, the air cavity 37 is used for discharging air through the air outlet channel 38 to enter the telescopic blocks 40 to rotate, the telescopic drive extrusion plate 41 to slide out of the inner hemispherical arcs of the matched grinding block 32 to extrude and grind the meat piece

S6, circularly grinding: the inner hemispherical arcs of the grinding blocks 32 are matched in a sliding mode in the crushing sleeves 35 through the cantilever rods 39 to conduct sealing rotation, so that the meat blocks are lifted to two sides to conduct circulating crushing cutting and grinding between the two crushing sleeves 35.

S7, filtering and storing: the meat paste is ground into meat paste, the meat paste is filtered by the two filter valves 44 and enters the storage channel 45, falls to the upper end of the storage telescopic block 46 through the storage channel 45, the storage telescopic block 46 slides into the sealed storage cup 47 in a telescopic manner, the meat paste at the upper end of the storage telescopic block 46 enters the sealed storage cup 47 to be stored in a sealed manner through the cooperation of the inside of the storage telescopic block 46 and the two discharge ports 52, and the storage telescopic block 46 stretches out and draws back from the outside of the sealing block on the sealed storage cup 47, so that the sealing block on the sealed storage cup 47 is lower than the inner upper wall of 11.

S8, transmission and extraction: the conveying mechanism 48 is started to drive the sealed storage cup 47 to move outside the storage box 11, and the discharging slide plate 50 slides in the storage box 11 to be opened, so that the sealed storage cup 47 is conveyed out of the storage box 11.

S9, cleaning and sterilizing: the inner wall of the feeding funnel 17 is cleaned by rotating and moving the cloth belt 19, and the sterilizing solution in the sterilizing cavity 25 is sprayed out by the rotation of the linkage column 21 to sterilize and clean the inside of the processing box 10.

The foregoing description is only illustrative of the present invention and is not intended to limit the scope of the invention, and all equivalent structures or equivalent processes using the descriptions and the drawings of the present invention or directly or indirectly applied to other related technical fields are included in the scope of the invention.

Claims

1. The grinding equipment for frozen food detection comprises a processing box (10), a feeding part (12), a thawing part (13), a impurity removing part (14), a grinding part (15) and a storage part (16), and is characterized in that the lower end of the processing box (10) is fixedly provided with the storage box (11), and the grinding part (15) is positioned in the middle of the inside of the processing box (10);

the grinding block (32), the grinding block (32) is of a hollow hemispherical structure, one end of the grinding block (32) in the external direction of the processing box (10) is provided with a grinding motor (31) in a linkage way, the lower end of the grinding block (32) is fixedly provided with a filter block (33), the middle of the filter block (33) is of an arc-shaped convex block structure, two sides of the filter block (33) are of arc-shaped concave block structures, and the filter block (33) is in rotary sealing connection with the grinding block (32);

the crushing group (34), crushing group (34) contains and is equipped with two fixed columns (36), the cover is equipped with two crushing sleeves (35) in the rotation on the outer periphery of two fixed columns (36), processing case (10) are worn out to crushing sleeve (35) one end linkage is equipped with crushing motor (51), crushing sleeve (35) circumferencial direction slip is equipped with a plurality of ram (39), crushing sleeve (35) circumferencial direction slip is equipped with a plurality of expansion blocks (40), a plurality of ram (40) keep away from fixed column (36) direction and set firmly a plurality of stripper plates (41), crushing motor (51) start the linkage and drive crushing sleeve (35) rotation, crushing sleeve (35) rotation drives ram (39) cooperation grinding piece (32) in the arc and upwards pick up meat, grinding motor (31) start the linkage and drive grinding piece (32) rotation and drive expansion block (40) expansion and rotation drive stripper plate (41) and remove and rotate and carry out rotary extrusion grinding to meat, ram (39) rotation and drive the concave-convex side filter block (32) and the concave and concave half ball grinding structure of grinding;

the impurity removing component (14) comprises two blanking channels (30), the two blanking channels (30) are positioned in processing boxes (10) on two sides of a blanking motor (20), two rotating shafts (26) are rotationally arranged in the two blanking channels (30), two impurity removing cavities (27) are arranged in the two rotating shafts (26), four anti-blocking rods (28) are fixedly arranged in the circumferential direction of the rotating shafts (26), a plurality of feed valves (29) are fixedly arranged on the anti-blocking rods (28), the feed valves (29) are communicated with the impurity removing cavities (27) through the anti-blocking rods (28), the rotating shafts (26) are matched with the four anti-blocking rods (28) to block the blanking channels (30) to enable falling frozen water to enter the impurity removing cavities (27) through the feed valves (29), and the rotating shafts (26) rotate to drive the anti-blocking rods (28) to rotate to drive meat in the blanking channels (30) to be prevented from blocking;

the grinding part (15) comprises an air cavity (37), the air cavity (37) is positioned inside a fixed column (36), the fixed column (36) is rotationally connected with a crushing sleeve (35), an air outlet channel (38) is arranged outside the air cavity (37) and is connected with a ram (39) and the rear side of a telescopic block (40), one end of the ram (39) away from the fixed column (36) is correspondingly matched with the inner cambered surface of the grinding block (32) to slide in a sealing manner, one end of the plurality of extrusion plates (41) away from the crushing sleeve (35) is correspondingly matched with the inner cambered surface of the grinding block (32) to slide in a sealing manner, a plurality of broken fragments (42) are arranged in the circumferential direction of the crushing sleeve (35) in a sliding manner, and a plurality of cutting blocks (43) are arranged in the sliding manner of the broken fragments (42);

the meat cutting machine is characterized in that a plurality of broken blocks (42) on the two crushing sleeves (35) rotate to drive a plurality of cutting blocks (43) on the two crushing sleeves (35) to slide out in the plurality of broken blocks (42) to cut and crush the meat, two filtering valves (44) are fixedly arranged on two sides of the filtering block (33), a storage channel (45) is arranged in the processing box (10) below the filtering block (33), and the two crushing sleeves (35) are meshed and linked to rotate through two gears.

2. A frozen food detection grinding apparatus as recited in claim 1, wherein: the feeding component (12) comprises a feeding funnel (17), the feeding funnel (17) is fixed at the upper end of the processing box (10), feeding rotating plates (18) are rotatably arranged on two sides of the upper end of the feeding funnel (17), rotating cloth belts (19) are rotatably arranged on the inner wall of the feeding funnel (17), and the inner wall of the feeding funnel (17) is cleaned and kept clean by rotating the cloth belts (19) to rotate.

3. A frozen food detection grinding apparatus as recited in claim 2, wherein: the thawing component (13) comprises a discharging motor (20), the discharging motor (20) is fixed in a processing box (10) below a feeding funnel (17), a linkage column (21) is arranged at the upper end of the discharging motor (20) in a linkage mode, a spiral plate (22) is fixedly arranged on the outer circumferential surface of the linkage column (21), a plurality of rotary columns (23) are arranged on two sides of the linkage column (21) in the processing box (10) in a rotating mode, a plurality of thawing columns (24) are arranged at one end of the direction of the linkage column (21) in the rotary columns (23), a heating cavity is formed in the thawing columns (24), the thawing columns (24) drive the thawing columns (24) to rotate in the processing box (10) in a rotating mode through meat, and are used for thawing in a rotating mode, a disinfection cavity (25) is formed in the upper portion of the inside of the linkage column (21), and the disinfection cavity (25) is connected with the outside of the linkage column (21).

4. A frozen food detection grinding apparatus as recited in claim 3, wherein: the storage part (16) comprises a storage telescopic block (46), the storage telescopic block (46) is located in a storage box (11) below a storage channel (45), the storage telescopic block (46) slides in the storage box (11), two discharging holes (52) are formed in two sides below the storage telescopic block (46), a conveying mechanism (48) is arranged in the storage box (11) below the storage telescopic block (46) in a rotating mode, two fixing blocks (49) are arranged on two sides outside the storage box (11) in a penetrating mode in a rotating mode, the storage box (11) is provided with a discharging sliding plate (50) in a sliding mode towards the fixing blocks (49), and a sealing storage cup (47) is arranged at the upper end of the conveying mechanism (48).

5. The grinding apparatus for frozen food detection as recited in claim 4, wherein: meat paste at the upper end of the filter block (33) is filtered by the two filter valves (44) and enters the storage channel (45), the meat paste in the storage channel (45) drives the storage telescopic block (46) to stretch and slide downwards to enter the sealed storage cup (47) by extruding the storage telescopic block (46), and the meat paste in the storage channel (45) is matched with the two discharge holes (52) to enter the sealed storage cup (47) for sealed storage.