CN114414336A

CN114414336A - Grinding equipment for frozen food detection

Info

Publication number: CN114414336A
Application number: CN202210065112.XA
Authority: CN
Inventors: 杜兴兰; 韩猛; 杨凯; 王大海
Original assignee: Liaocheng Inspection And Testing Center; Liaocheng Vocational and Technical College
Current assignee: Guangzhou Hongrui Instrument Equipment Co ltd
Priority date: 2022-01-20
Filing date: 2022-01-20
Publication date: 2022-04-29
Anticipated expiration: 2042-01-20
Also published as: CN114414336B

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 unfreezing part, an impurity removing part, a grinding part and a storage part, wherein a storage box is fixedly arranged at the lower end of the processing box, and the grinding part is positioned in the middle inside the processing box; broken sleeve rotates the arc that drives in the ram cooperation grinding piece and upwards picks up meat, and grinding motor starts the linkage and drives grinding piece normal running fit broken sleeve and rotates and drive flexible rotation of flexible piece and drive the stripper plate and remove and rotate to rotate the extrusion grinding to meat, and ram normal running sliding fit crosses in the middle of the convex both sides concave structure and grinding piece hemisphere indent and drives meat and circulate and pick up the grinding breakage. According to the invention, the frozen meat is driven to uniformly and spirally move downwards by rotation, meanwhile, the frozen meat drives the unfreezing column to rotate and heat, unfrozen and falling frozen water is removed, the falling and blocking of meat slices is prevented, and the meat slices are circularly cut, crushed and ground into pulp.

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 world-wide big country for pork production and consumption. In modern meat and meat product processing, frozen meat is a raw material for many food companies, regulating the meat food market for important products. The meat is frozen at low temperature, the shelf life of the meat can be effectively prolonged, and the method plays an extremely important role in remote transportation, import and export trade, national strategic storage and the like.

The existing grinding equipment for detecting frozen food has the following problems;

firstly, frozen water can be produced when frozen meat is thawed, and the frozen water cannot be processed in time to influence a detection result;

secondly, when meat is crushed and ground, main equipment is easily blocked to influence grinding efficiency;

thirdly, the meat is not fully ground, and the detection result is influenced;

disclosure of Invention

The invention aims to solve the problems in the prior art, and provides grinding equipment for detecting frozen food, which can drive frozen meat to uniformly and spirally move downwards and simultaneously drive a thawing column to rotationally heat the frozen meat, remove thawing falling frozen water and prevent meat pieces from falling and blocking, circularly cut and crush the meat pieces and grind the meat pieces into pulp, thereby improving the working efficiency of grinding and fully grinding.

The purpose of the invention can be realized by the following technical scheme: a grinding device for frozen food detection comprises a processing box, a feeding part, a unfreezing part, an 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 inside the processing box;

the grinding block is of a hollow hemispherical structure, one end of the grinding block, facing the outer direction of the processing box, is provided with a grinding motor in a linkage manner, 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, the 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;

broken group, broken group contains and is equipped with two fixed columns, it is equipped with two broken sleeves to rotate the cover on two fixed column outer circumferences, broken sleeve one end is worn out the processing case linkage and is equipped with broken motor, broken sleeve circumferencial direction slides and is equipped with a plurality of ram, broken sleeve circumferencial direction slides and is equipped with a plurality of flexible pieces, a plurality of flexible pieces are kept away from the fixed column direction and have been set firmly a plurality of stripper plates, broken motor starts the linkage and drives broken sleeve and rotate, broken sleeve rotates to drive the arc in ram cooperation grinding piece and upwards picks up meat, grinding motor starts the linkage and drives the broken sleeve of grinding piece normal running fit and rotates and drive flexible rotation of flexible piece and drive the stripper plate and remove the rotation and rotate to rotate the extrusion grinding to meat, protruding both sides concave structure and grinding piece hemisphere indent drive meat in the middle of ram normal running fit filter block and circulate and pick up the grinding breakage.

Preferably, the feeding part includes feed hopper, and feed hopper fixes in processing case upper end, and feed hopper upper end both sides are rotated and are equipped with the feeding rotor plate, and the feed hopper inner wall rotates and is equipped with the rotation strap, and the feed hopper inner wall is cleared up the feed hopper inner wall through rotating the strap and removing and is kept totally.

Preferably, the part of unfreezing includes the unloading motor including the part of unfreezing, the unloading motor is fixed in the processing case of feed hopper below, the linkage of unloading motor upper end is equipped with the linkage post, the spiral plate has set firmly on the linkage post outer periphery, linkage post both sides are equipped with a plurality of rotary columns at the processing incasement internal rotation, a plurality of rotary columns are equipped with a plurality of posts of unfreezing to linkage post direction one end, there is the heating chamber in the post of unfreezing, the post of unfreezing moves down through meat and drives the post of unfreezing normal running fit rotary column and rotate the heating to meat at the processing incasement internal rotation, the inside top of linkage post is equipped with the disinfection chamber of unfreezing, disinfection chamber and linkage post external connection.

Preferably, the edulcoration part includes two unloading passageways, two unloading passageways are located the processing incasement of unloading motor both sides, two unloading passageway internal rotations are equipped with two pivots, be equipped with two edulcoration chambeies in two pivots, the pivot circumferencial direction has set firmly four and has prevented stifled poles, prevent having set firmly a plurality of feed valves on the stifled pole, a plurality of feed valves and edulcoration chamber are through preventing the inside intercommunication of stifled pole, the frozen water that unloading passageway will fall is plugged up to four stifled poles of pivot cooperation enters into the edulcoration intracavity through a plurality of feed valves, the pivot is rotated and is driven a plurality of stifled poles and is rotated the meat that drives in the mediation unloading passageway and prevent to plug up.

Preferably, grinding part includes the air cavity, the air cavity is located inside the fixed column, the fixed column rotates with broken sleeve to be connected, the air cavity is equipped with air outlet channel with fixed column external connection, air outlet channel and ram, flexible piece rear side is connected, fixed column direction one end is kept away from to the ram and the sealed slip of the corresponding cooperation of the inside cambered surface of grinding block, broken sleeve direction one end is kept away from to a plurality of stripper plates and the sealed slip of the corresponding cooperation of the inside cambered surface of grinding block, broken sleeve circumferencial direction slip is equipped with a plurality of broken fragments, it is equipped with a plurality of cutting pieces to slide in a plurality of broken blocks.

Preferably, a plurality of broken pieces on two broken sleeves rotate and drive a plurality of cutting block on two broken sleeves roll-off in a plurality of broken blocks and cut the breakage to meat, filter block both sides are fixed and are equipped with two filter valves, are equipped with storage channel below the filter block in the processing case, and two broken sleeves rotate through two gear engagement linkages.

Preferably, the storage part comprises a storage telescopic block, the storage telescopic block is located 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 inner lower side of the storage telescopic block, a conveying mechanism is arranged below the storage telescopic block in the storage box in a rotating mode, the conveying mechanism penetrates out of the outer two sides of the storage box and is provided with two fixed blocks in a rotating mode, the storage box is provided with a discharge sliding plate in a sliding mode in the direction of the fixed blocks, and a sealed storage cup is arranged at the upper end of the conveying mechanism.

Preferably, meat thick liquid on the upper end of the filter block enters the storage channel through the filtration of the two filter valves, the meat thick liquid in the storage channel drives the storage telescopic block to slide down in a telescopic manner to enter the sealed storage cup through the extrusion of the storage telescopic block, and the meat thick liquid in the storage channel enters the sealed storage cup through the matching of the inside of the storage telescopic block and the two discharge ports for sealed storage.

Has the advantages that:

1. through the setting of the part that unfreezes, drive the even downward spiral shell screwing in of frozen meat through rotating and carry out frozen meat and drive the post that unfreezes and rotate the heating, be favorable to being heated the even degree of unfreezing the frozen meat the same.

2. Through edulcoration part equipment, get rid of and prevent that the meat piece whereabouts from plugging up the refrigerated water of thawing whereabouts, be favorable to accurate to the detection of freezing meat.

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

Drawings

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

fig. 1 is a schematic isometric view of the present invention.

Fig. 2 is a schematic structural view in front view of the present invention.

Fig. 3 is a schematic sectional view at a-a in fig. 2.

Fig. 4 is a schematic view of a portion B in fig. 3.

Fig. 5 is a schematic view of a portion C in fig. 3.

Fig. 6 is a schematic view of a portion of fig. 3 at D.

Fig. 7 is a schematic view of a portion at E in fig. 3.

Fig. 8 is a schematic view of a portion at F in fig. 3.

In the figure, a processing box 10, a storage box 11, a feeding part 12, a thawing part 13, an 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 blanking motor 20, a linkage column 21, a spiral plate 22, a rotating column 23, a thawing column 24, a disinfection cavity 25, a rotating shaft 26, an impurity removing cavity 27, an anti-blocking rod 28, a feeding valve 29, a blanking channel 30, a grinding motor 31, a grinding block 32, a filter block 33, a crushing group 34, a crushing sleeve 35, a fixed column 36, an air cavity 37, an air outlet channel 38, a picking rod 39, a telescopic block 40, an extrusion plate 41, a crushing block 42, a cutting block 43, a filter valve 44, a storage channel 45, a storage telescopic block 46, a sealed storage cup 47, a conveying mechanism 48, a fixed block 49, a discharging sliding plate 50, a crushing motor 51 and a discharging port 52 are arranged.

Detailed Description

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

Referring to fig. 1-8, a grinding apparatus for frozen food detection includes a processing box 10, a feeding part 12, a thawing part 13, an impurity removing part 14, a grinding part 15, and a storage part 16, wherein a storage box 11 is fixedly disposed at the lower end of the processing box 10, and the grinding part 15 is disposed in the middle of the processing box 10;

the grinding block 32 is of a hollow hemispherical structure, one end of the grinding block 32, facing the outer direction of the processing box 10, is provided with a grinding motor 31 in a linkage manner, 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;

crushing group 34, crushing group 34 contains and is equipped with two fixed columns 36, it is equipped with two broken sleeves 35 to rotate the cover on the outer periphery of two fixed columns 36, broken sleeve 35 one end is worn out processing case 10 linkage and is equipped with crushing motor 51, broken sleeve 35 circumferencial direction slides and is equipped with a plurality of ram 39, broken sleeve 35 circumferencial direction slides and is equipped with a plurality of collets 40, a plurality of collets 40 are kept away from fixed column 36 direction and are set firmly a plurality of stripper plates 41, crushing motor 51 starts the linkage and drives broken sleeve 35 and rotate, broken sleeve 35 rotates and drives ram 39 cooperation grinding block 32 in the arc upwards kicks meat, grinding motor 31 starts the linkage and drives grinding block 32 and rotate the cooperation of driving ram 40 and rotate and drive stripper plate 41 and remove and rotate and carry out the extrusion grinding to meat, ram 39 rotates the concave structure in protruding both sides in the middle of sliding fit filter block 33 and drives meat to circulate with grinding block 32 indent and pick up the grinding breakage.

Further, with reference to fig. 1-8, the feeding component 12 includes a feeding funnel 17, the feeding funnel 17 is fixed on 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 rotating plate 18, the inner wall of the feeding funnel 17 is rotatably provided with a rotating cloth belt 19, and the inner wall of the feeding funnel 17 is cleaned and kept clean by rotating and moving the rotating cloth belt 19.

Further, referring to fig. 1-8, the thawing component 13 includes a thawing component 13 including a blanking motor 20, the blanking motor 20 is fixed in the processing box 10 below the feeding hopper 17, a linkage column 21 is provided on the upper end of the blanking 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 rotating columns 23 are rotatably provided on both sides of the linkage column 21 in the processing box 10, a plurality of thawing columns 24 are provided on one end of the plurality of rotating columns 23 facing the linkage column 21, a heating chamber is provided in the thawing column 24, the thawing column 24 drives the thawing column 24 to rotate to cooperate with the rotating column 23 to rotate in the processing box 10 to heat and thaw meat through the downward movement of the meat, a disinfection chamber 25 is provided above the interior of the linkage column 21, and the disinfection chamber 25 is externally connected with the linkage column 21.

Further, with reference to fig. 1-8, the impurity removing component 14 includes two discharging channels 30, the two discharging channels 30 are located in the processing box 10 on both sides of the discharging motor 20, two rotating shafts 26 are disposed in the two discharging channels 30, two impurity removing cavities 27 are disposed in the two rotating shafts 26, four anti-blocking rods 28 are fixedly disposed in the circumferential direction of the rotating shafts 26, a plurality of feeding valves 29 are fixedly disposed on the anti-blocking rods 28, the plurality of feeding valves 29 are communicated with the impurity removing cavities 27 through the insides of the anti-blocking rods 28, the rotating shafts 26 cooperate with the four anti-blocking rods 28 to block the discharging channels 30, so that the frozen water falling down enters the impurity removing cavities 27 through the plurality of feeding valves 29, and the rotating shafts 26 rotate to drive the plurality of anti-blocking rods 28 to rotate to drive the meat in the dredging discharging channels 30 to prevent blocking.

Further, with reference to fig. 1 to 8, the grinding component 15 includes an air chamber 37, the air chamber 37 is located inside a fixed column 36, the fixed column 36 is rotatably connected to the crushing sleeve 35, the air chamber 37 is connected to the outside of the fixed column 36 and is provided with an air outlet channel 38, the air outlet channel 38 is connected to 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 and sealed with the inner arc surface of the grinding block 32 to slide, one end of a plurality of extrusion plates 41 away from the crushing sleeve 35 is correspondingly matched and sealed with the inner arc surface of the grinding block 32 to slide, the crushing sleeve 35 is provided with a plurality of crushing blocks 42 in a sliding manner in the circumferential direction, and a plurality of cutting blocks 43 are slidably arranged in the crushing blocks 42.

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

Further, referring to fig. 1 to 8, the storage part 16 includes a storage expansion block 46, the storage expansion block 46 is located in the storage box 11 below the storage passage 45, the storage expansion block 46 slides in the storage box 11, two discharge ports 52 are disposed on two sides of the inner lower portion of the storage expansion block 46, a conveying mechanism 48 is rotatably disposed below the storage expansion block 46 in the storage box 11, the conveying mechanism 48 penetrates through two outer sides of the storage box 11 and is rotatably disposed with two fixed blocks 49, the storage box 11 is slidably disposed with a discharge slide plate 50 in the direction of the fixed blocks 49, and a sealed storage cup 47 is disposed at the upper end of the conveying mechanism 48.

Further, with reference to fig. 1-8, the meat pulp at the upper end of the filter block 33 is filtered by two filter valves 44 and enters the storage channel 45, the meat pulp in the storage channel 45 is extruded to the storage expansion block 46 to drive the storage expansion block 46 to expand and contract and slide down to enter the sealed storage cup 47, and the meat pulp in the storage channel 45 enters the sealed storage cup 47 to be sealed and stored through the matching of the inside of the storage expansion block 46 and two discharge ports 52.

Principle of operation

S1 feeding: the two feed rotating plates 18 are rotated on the feed hopper 17 to be opened, the frozen meat is introduced into the processing tank 10 through the feed hopper 17, and the two feed rotating plates 18 are rotated on the feed hopper 17 to be closed.

S2, unfreezing: unloading motor 20 starts and rotates through linkage post 21 and drive the spiral plate 22 and rotate, and spiral plate 22 rotates and drives the even spiral of frozen meat and move down, and the even spiral of frozen meat moves down and drives a plurality of 24 cooperation rotary columns 23 that unfreeze and rotate in the

processing box

10, and 24 internal heating of post 24 that unfreezes cooperate the post 24 rotation of unfreezing to frozen meat rotation heating evenly unfreeze.

S3 impurity removal: in frozen water and meat fall two unloading passageways 30, pivot 26 cooperates four to prevent that stifled pole 28 blocks up unloading passageway 30 and enters into the edulcoration chamber 27 with the frozen water of whereabouts through a plurality of feed valves 29 and carries out the edulcoration, and pivot 26 rotates and drives a plurality of stifled poles 28 and rotate and drive the meat of dredging in the unloading passageway 30 and fall grinding part 15 in, prevent to block up unloading passageway 30.

S4 crushing and cutting: broken motor 51 starts to drive broken sleeve 35 and rotates, and broken sleeve 35 rotates and drives two broken sleeve 35 and rotate to the direction in opposite directions through two gear engagement linkages, and two broken sleeve 35 rotate to the direction in opposite directions and drive a plurality of broken fragments 42 normal running fit a plurality of cutting block 43 and slide out in broken block 42 and to cutting the meat piece, and a plurality of broken fragments 42 on two broken sleeve 35 of rethread rotate and extrude the breakage.

S5 grinding: meat mass whereabouts is removed to both sides through the arc lug in the middle of filtering piece 33, two broken sleeves 35 rotate and drive a plurality of ram 39 and rotate, a plurality of ram 39 rotate and are connected with outlet channel 38, air cavity 37 gives vent to anger through outlet channel 38 with ram 39 sealed the rotation and drive the meat mass to both sides kicking up in the interior hemisphere arc of sliding fit abrasive brick 32 in broken sleeve 35, two broken sleeves 35 rotate and drive a plurality of flexible pieces 40 and rotate and connect outlet channel 38, air cavity 37 gives vent to anger through outlet channel 38 and enters into flexible piece 40 internal rotation flexible interior hemisphere arc that drives stripper plate 41 roll-off cooperation abrasive brick 32 and carry out the extrusion grinding to the meat mass

S6 circular grinding: the ram 39 is matched with the inner hemispherical arc of the grinding block 32 in the crushing sleeve 35 in a sliding way to carry out sealed rotation so as to drive the meat blocks to be lifted to two sides between the two crushing sleeves 35 for cyclic crushing, cutting and grinding.

S7 filter store: grind into meat piece meat thick liquid and filter through two filter valves 44 and enter into storage channel 45 in, fall the flexible piece 46 upper end of storage through storage channel 45, the flexible piece 46 of storage slides in entering into sealed storage cup 47, through the flexible piece 46 of storage inside with two discharge gates 52 cooperation with the meat thick liquid of the flexible piece 46 upper end of storage enter into sealed storage cup 47 and seal the storage, the flexible piece 46 of storage breaks away from outside the sealed piece on the sealed storage cup 47, make the sealed piece on the sealed storage cup 47 be less than 11 inside upper wall.

S8 transfer fetch: the conveying mechanism 48 is started to drive the sealed storage cup 47 to move towards the outside of the storage box 11, and the discharging sliding plate 50 slides and opens in the storage box 11 to convey the sealed storage cup 47 out of the storage box 11.

S9 cleaning and disinfecting: the inner wall of the feeding funnel 17 is moved by rotating the rotating cloth belt 19 to clean the inner wall of the feeding funnel 17 and keep clean, and the disinfection solution in the disinfection cavity 25 is sprayed out through the rotation of the linkage column 21 to disinfect and clean the processing box 10.

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

Claims

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

the grinding block (32) is of a hollow hemispherical structure, one end of the grinding block (32) in the direction of the outer portion of the processing box (10) is provided with a grinding motor (31) in a linkage mode, 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 connected with the grinding block (32) in a rotating and sealing mode;

broken group (34), broken group (34) contain and are equipped with two fixed columns (36), it is equipped with two broken sleeves (35) to rotate the cover on two fixed column (36) outer circumferences, broken sleeve (35) one end is worn out processing case (10) linkage and is equipped with broken motor (51), broken sleeve (35) circumferencial direction slides and is equipped with a plurality of ram (39), broken sleeve (35) circumferencial direction slides and is equipped with a plurality of flexible piece (40), fixed column (36) orientation is kept away from in a plurality of flexible piece (40) and has set firmly a plurality of stripper plate (41), broken motor (51) start linkage drives broken sleeve (35) and rotates, and broken sleeve (35) rotate and drive ram (41) and rotate, and the arc that drives in ram (39) cooperation grinding block (32) is kicked up meat, and grinding motor (31) start linkage drives grinding block (32) rotation cooperation broken sleeve (35) and rotates and drive flexible rotation of flexible piece (40) and drive stripper plate (41) and move and rotate to the rotation The meat is rotated, extruded and ground, and the ram (39) is rotatably and slidably matched with a structure of the middle convex part and the two concave sides of the filter block (33) and a hemisphere concave part of the grinding block (32) to drive the meat to be circularly lifted, ground and crushed.

2. A grinding apparatus for frozen food inspection according to claim 1, characterized in that: feeding part (12) are including feed hopper (17), feed hopper (17) are fixed in processing case (10) upper end, feed hopper (17) upper end both sides are rotated and are equipped with feeding rotor plate (18), feed hopper (17) inner wall rotates and is equipped with rotation strap (19), feed hopper (17) inner wall is cleared up feed hopper (17) inner wall and is kept totally through rotating strap (19) rotation removal.

3. A grinding apparatus for frozen food inspection according to claim 2, characterized in that: the unfreezing part (13) comprises a unfreezing part (13) and a blanking motor (20), the blanking motor (20) is fixed in the processing box (10) below the feeding hopper (17), the upper end of the blanking motor (20) is provided with a linkage column (21) in a linkage way, the outer circumferential surface of the linkage column (21) is fixedly provided with a spiral plate (22), a plurality of rotating columns (23) are rotatably arranged at the two sides of the linkage column (21) in the processing box (10), a plurality of unfreezing columns (24) are arranged at one end of the plurality of rotating columns (23) towards the direction of the linkage column (21), a heating cavity is arranged in the unfreezing column (24), the unfreezing column (24) is driven by the downward movement of the meat to be matched with the rotating column (23) to rotate in the processing box (10) to carry out rotary heating and unfreezing on the meat, the disinfection chamber (25) is arranged above the inside of the linkage column (21), and the disinfection chamber (25) is connected with the outside of the linkage column (21).

4. A grinding apparatus for frozen food inspection according to claim 3, characterized in that: the impurity removing component (14) comprises two blanking channels (30), the two blanking channels (30) are positioned in the processing boxes (10) at two sides of the blanking motor (20), two rotating shafts (26) are rotatably 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 shaft (26), a plurality of feeding valves (29) are fixedly arranged on the anti-blocking rods (28), the plurality of feeding valves (29) are communicated with the impurity removing cavity (27) through the inner part of the anti-blocking rod (28), the rotating shaft (26) is matched with four anti-blocking rods (28) to block the blanking channel (30) so that falling frozen water enters the impurity removing cavity (27) through a plurality of feeding valves (29), the rotating shaft (26) rotates to drive the anti-blocking rods (28) to rotate to drive meat in the dredging and blanking channel (30) to prevent blocking.

5. The grinding apparatus for frozen food detection according to claim 4, wherein: the grinding part (15) comprises an air cavity (37), the air cavity (37) is located inside a fixing column (36), the fixing column (36) is rotatably connected with a grinding sleeve (35), an air outlet channel (38) is connected with the outer portion of the fixing column (36) and is connected with the rear side of a lifting rod (39) and a telescopic block (40), one end, far away from the fixing column (36), of the lifting rod (39) is correspondingly matched and sealed with the inner arc surface of a grinding block (32) to slide, one ends, far away from the grinding sleeve (35), of a plurality of extrusion plates (41) are correspondingly matched and sealed with the inner arc surface of the grinding block (32) to slide, a plurality of broken blocks (42) are arranged in the circumferential direction of the grinding sleeve (35) in a sliding mode, and a plurality of cutting blocks (43) are arranged in the broken blocks (42) in a sliding mode.

6. The grinding apparatus for frozen food detection according to claim 5, wherein: a plurality of broken pieces (42) on two broken sleeves (35) rotate and drive a plurality of cutting block (43) on two broken sleeves (35) and slide out in a plurality of broken pieces (42) and cut the breakage to meat, filter block (33) both sides are fixed and are equipped with two filter valves (44), be equipped with storage channel (45) in processing case (10) below filter block (33), two broken sleeves (35) are through two gear engagement linkage rotations.

7. The grinding apparatus for frozen food detection according to claim 6, wherein: storage part (16) are including saving flexible piece (46), save flexible piece (46) is located storage channel (45) storage box (11) of below, save flexible piece (46) and slide in storage box (11), the inside below both sides of saving flexible piece (46) are equipped with two discharge gates (52), it is equipped with transport mechanism (48) to save flexible piece (46) below at storage box (11) internal rotation, transport mechanism (48) are worn out the outer both sides rotation of storage box (11) and are equipped with two fixed blocks (49), storage box (11) are equipped with ejection of compact slide (50) to fixed block (49) direction slip, transport mechanism (48) upper end is equipped with sealed storage cup (47).

8. The grinding apparatus for frozen food detection according to claim 7, wherein: meat thick liquid of filter block (33) upper end filters through two filtering valve (44) and enters into in storage channel (45), and the meat thick liquid in storage channel (45) drives the flexible gliding entering of storage telescopic block (46) and enters into sealed storage cup (47) through extrusion storage telescopic block (46), and the meat thick liquid in will storage channel (45) enters into sealed storage cup (47) sealed storage through storage telescopic block (46) inside and two discharge gates (52) cooperation.