CN218973950U - Quality control sampling structure of fat beef production - Google Patents

Abstract

The utility model belongs to the technical field of snowflake cattle production and processing equipment, and discloses a quality inspection sampling structure for cattle production. According to the utility model, the fixed shaft, the first gear and the first driving motor are arranged, the rotating shaft drives the second gear to rotate due to the operation of the first driving motor, the first gear is driven to rotate due to the meshing relationship between the second gear and the outer surface of the first gear, the round hole is sealed with the bottom end of the mincing barrel in a staggered manner, then the power motor is started, the round rod drives the mincing leaves to rotate due to the operation of the power motor, the mincing of the fat beef in the mincing barrel is carried out through the mincing leaves, the first driving motor is started again, the first gear is driven to rotate, the round hole is opened in alignment with the bottom end of the mincing barrel, and then the minced fat beef in the mincing barrel falls into the sampling pipe along the guide block to be collected.

Description

Quality control sampling structure of fat beef production

Technical Field

The utility model belongs to the technical field of snowflake fat cow production and processing equipment, and particularly relates to a quality inspection sampling structure for fat cow production.

Background

At present, when an operator processes and produces snowflake fat beef, the operator is often required to sample the quality of the snowflake fat beef, generally the operator manually samples part of the whole fat beef and then performs subsequent quality detection operation, although the operator can perform good sampling operation on the fat beef, the manual mode of the operator is complicated, and the sampled quality is different, so that the follow-up quality detection has errors, and the improvement is required.

Disclosure of Invention

The utility model aims at solving the problems, and provides a quality inspection sampling structure for beef production, which has the advantage of automatic sampling.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the utility model provides a quality control sampling structure of fat beef production, includes the sampling case, the middle part fixed mounting of sampling case inner wall has the backup pad, the middle part fixed mounting on backup pad top has the bucket of rubbing, the bottom fixed mounting on bucket inner wall has the guide block, the middle part fixed mounting on sampling case top has the motor power, the other end of motor power output shaft has fixed the pole that has cup jointed, the bottom of pole runs through sampling case in proper order and rubs the bucket and extends to the inside of rubbing the bucket and the equal fixed mounting in both sides of surface and rub the leaf, the cavity that is located the bucket left side below has been seted up to the inside of backup pad, the right side fixed mounting on cavity inner wall bottom has the fixed axle, the surface activity of fixed axle has cup jointed first gear, the round hole has been seted up inside the first gear, the top fixed mounting of backup pad is located the first driving motor of rubbing the bucket left side, the other end fixed shaft has cup jointed the pivot, the bottom of pivot runs through backup pad and cavity and extends to the inside and the surface fixed second gear that has cup jointed in proper order of cavity, the surface and the surface of second gear is connected with the surface of first gear.

As the preferable mode of the utility model, the top end of the sampling box is fixedly provided with a charging hole positioned at the left side of the power motor, and the bottom ends of the charging hole are fixedly communicated with the top ends of the sampling box and the mincing barrel.

As the preferable mode of the utility model, the front and rear sides of the bottom end of the inner wall of the sampling box are fixedly provided with the fixed plates, the left side of the back surface of the fixed plate is fixedly provided with the second driving motor, the other end of the output shaft of the second driving motor is fixedly sleeved with the driving shaft, and the front surface of the driving shaft penetrates through the fixed plate and extends to the inner wall of the front end of the fixed plate and is movably sleeved with the inner wall of the front end of the fixed plate.

As the preferable mode of the utility model, the right side of the inner wall of the fixed plate is movably sleeved with the movable shaft, the outer surfaces of the driving shaft and the movable shaft are fixedly sleeved with driving wheels, and the driving wheels are in transmission connection with each other through a belt.

As the preferable mode of the utility model, the top end of the belt is fixedly provided with a placing block, and the inside of the placing block is movably provided with a sampling tube.

As the preferable mode of the utility model, the front and rear sides of the bottom end of the inner wall of the sampling box are respectively and movably provided with a stop block positioned at the outer side of the placing block, the inside of the sampling box is provided with a moving groove positioned at the lower outer side of the stop block, the inside of the sampling box is provided with a moving cavity positioned at the lower side of the moving groove, the bottom ends of the stop blocks are respectively and fixedly provided with a moving frame positioned in the moving groove, and the bottom ends of the moving frames extend to the inside of the moving cavity.

As the preferable mode of the utility model, the middle part of the right side of the inner wall of the movable cavity is fixedly provided with the pneumatic cylinder, the left side of the pneumatic cylinder is fixedly provided with the rectangular block, the front and rear sides of the rectangular block are hinged with the pushing plate, and the other end of the pushing plate is hinged with the left end of the inner side of the movable frame.

Compared with the prior art, the utility model has the following beneficial effects:

1. according to the utility model, the fixed shaft, the first gear and the first driving motor are arranged, the rotating shaft drives the second gear to rotate due to the operation of the first driving motor, the first gear is driven to rotate due to the meshing relationship between the second gear and the outer surface of the first gear, the round hole is sealed with the bottom end of the mincing barrel in a staggered manner, then the power motor is started, the round rod drives the mincing leaves to rotate due to the operation of the power motor, the mincing of the fat beef in the mincing barrel is carried out through the mincing leaves, the first driving motor is started again, the first gear is driven to rotate, the round hole is opened in alignment with the bottom end of the mincing barrel, and then the minced fat beef in the mincing barrel falls into the sampling pipe along the guide block to be collected.

2. According to the utility model, the stop block, the pneumatic cylinder and the pushing plate are arranged, the rectangular block is pushed to move leftwards by virtue of the operation of the pneumatic cylinder, at the moment, the two pushing plates simultaneously push the two movable frames and the stop block to move oppositely, so that the positioning and fixing effects on the whole placing block and the sampling tube are relieved, then the second driving motor can be started, the driving shaft drives the whole driving wheel to rotate by virtue of the operation of the second driving motor, and the driving wheels are in transmission connection with each other by virtue of the belt, finally the belt is driven to move, then the placing block and the sampling tube on the top of the driving wheel are transported leftwards, the pneumatic cylinder is started again, and the rectangular block is pushed to rightwards so that the two movable frames and the whole stop block move oppositely, so that the left side of the placing block is fixed, and the subsequent sampling collection operation is carried out.

Drawings

FIG. 1 is a schematic diagram of the structure of the present utility model;

FIG. 2 is a schematic cross-sectional view of the present utility model;

FIG. 3 is a schematic cross-sectional view of a mobile trough of the present utility model;

FIG. 4 is a schematic cross-sectional view of a cavity of the present utility model;

FIG. 5 is a schematic cross-sectional view of a second drive motor according to the present utility model;

FIG. 6 is a schematic cross-sectional view of the active chamber of the present utility model;

fig. 7 is a partially enlarged schematic view of the structure at a in fig. 4.

In the figure: 1. a sampling box; 2. a support plate; 3. mincing barrel; 4. a guide block; 5. a power motor; 6. a round bar; 7. mincing the leaves; 8. a cavity; 9. a fixed shaft; 10. a first gear; 11. a round hole; 12. a first driving motor; 13. a rotating shaft; 14. a second gear; 15. a fixing plate; 16. a second driving motor; 17. a drive shaft; 18. a movable shaft; 19. a driving wheel; 20. a belt; 21. placing a block; 22. a sampling tube; 23. a stop block; 24. a moving groove; 25. a movable cavity; 26. a movable frame; 27. a pneumatic cylinder; 28. rectangular blocks; 29. a pushing plate; 30. and a charging port.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

As shown in fig. 1 to 7, the utility model provides a quality inspection sampling structure for beef production, which comprises a sampling box 1, wherein a supporting plate 2 is fixedly arranged in the middle of the inner wall of the sampling box 1, a mincing barrel 3 is fixedly arranged in the middle of the top end of the supporting plate 2, a guide block 4 is fixedly arranged at the bottom end of the inner wall of the mincing barrel 3, a power motor 5 is fixedly arranged in the middle of the top end of the sampling box 1, a round rod 6 is fixedly sleeved at the other end of an output shaft of the power motor 5, the bottom end of the round rod 6 sequentially penetrates through the sampling box 1 and the mincing barrel 3 and extends to the inside of the mincing barrel 3, mincing leaves 7 are fixedly arranged at two sides of the outer surface, a cavity 8 positioned at the left lower part of the mincing barrel 3 is formed in the inside of the supporting plate 2, a fixed shaft 9 is fixedly arranged on the right side of the bottom end of the inner wall of the cavity 8, a first gear 10 is movably sleeved at the outer surface of the fixed shaft 9, a round hole 11 is formed in the inside the first gear 10, a first driving motor 12 positioned at the left side of the top end of the supporting plate 2, a rotary shaft 13 is fixedly sleeved at the other end of the output shaft 12, a second gear 14 sequentially penetrates through the supporting plate 2 and the cavity 8 and extends to the inside the cavity 8, and is fixedly connected to the outer surface of the second gear 14 in a sleeved mode, and meshed with the second gear 14 is fixedly sleeved at the outer surface of the first gear.

Firstly, the first driving motor 12 can be started, the rotating shaft 13 drives the second gear 14 to integrally rotate due to the operation of the first driving motor 12, and the first gear 10 is driven to rotate due to the meshing relationship between the second gear 14 and the outer surface of the first gear 10, so that the round hole 11 is sealed with the bottom end of the mincing barrel 3 in a staggered manner, then the beef is thrown into the mincing barrel 3 from the feed inlet 30, the power motor 5 is started again, the round rod 6 drives the mincing blade 7 to rotate due to the operation of the power motor 5, the mincing of the beef in the mincing barrel 3 is carried out through the mincing blade 7, and then the subsequent sampling collection operation can be carried out.

Referring to fig. 1 and 2, a feed inlet 30 positioned at the left side of the power motor 5 is fixedly installed at the top end of the sampling tank 1, and the bottom ends of the feed inlet 30 are fixedly communicated with the top ends of the sampling tank 1 and the mincing barrel 3.

As a technical optimization scheme of the utility model, by arranging the feed inlet 30, due to the design of the feed inlet 30, an operator can put snowflake fat beef into the mincing barrel 3 through the feed inlet 30 so as to carry out subsequent operation.

Referring to fig. 5, a fixing plate 15 is fixedly installed at the front and rear of the bottom end of the inner wall of the sampling box 1, a second driving motor 16 is fixedly installed at the left side of the back surface of the fixing plate 15, a driving shaft 17 is fixedly sleeved at the other end of the output shaft of the second driving motor 16, and the front surface of the driving shaft 17 penetrates through the fixing plate 15 and extends to the inner wall of the front end of the fixing plate 15 and is movably sleeved with the inner wall of the front end of the fixing plate 15.

As a technical optimization of the present utility model, by providing the second driving motor 16, the driving shaft 17 is rotated as a whole due to the operation of the second driving motor 16.

Referring to fig. 5, a movable shaft 18 is movably sleeved on the right side of the inner wall of the fixed plate 15, driving shafts 17 and the outer surfaces of the movable shaft 18 are fixedly sleeved with driving wheels 19, and the driving wheels 19 are in transmission connection with each other through a belt 20.

As a technical optimization scheme of the utility model, due to the design of the driving wheel 19, when the driving shaft 17 integrally rotates, the driving wheel 19 is driven to rotate at the moment, and then the belt 20 integrally reciprocates back and forth.

Referring to fig. 2, a placement block 21 is fixedly installed at the top end of the belt 20, and a sampling tube 22 is movably installed inside the placement block 21.

As a technical optimization scheme of the utility model, by arranging the placement block 21, the design of the placement block 21 can have good supporting and fixing effects on the whole sampling tube 22.

Referring to fig. 3, the front and rear sides of the bottom end of the inner wall of the sampling box 1 are movably provided with a stop block 23 positioned at the outer side of the placement block 21, a movable groove 24 positioned below the outer side of the stop block 23 is formed in the sampling box 1, a movable cavity 25 positioned below the movable groove 24 is formed in the sampling box 1, the bottom ends of the stop blocks 23 are fixedly provided with a movable frame 26 positioned in the movable groove 24, and the bottom ends of the movable frames 26 extend to the inside of the movable cavity 25.

As a technical optimization scheme of the utility model, by arranging the movable groove 24, the movable groove 24 and the movable frame 26 are matched, so that a good limiting effect on the whole movement of the stop block 23 can be achieved.

Referring to fig. 6, a pneumatic cylinder 27 is fixedly installed in the middle of the right side of the inner wall of the movable cavity 25, a rectangular block 28 is fixedly installed on the left side of the pneumatic cylinder 27, pushing plates 29 are hinged to the front and rear sides of the rectangular block 28, and the other ends of the pushing plates 29 are hinged to the left end of the inner side of the movable frame 26.

As a technical optimization scheme of the utility model, by arranging the pneumatic cylinder 27, the rectangular block 28 is pushed to move leftwards integrally due to the operation of the pneumatic cylinder 27, so that the two pushing plates 29 simultaneously push the two movable frames 26 and the stop block 23 to move reversely integrally.

The working principle and the using flow of the utility model are as follows:

firstly, an operator can start the first driving motor 12, the rotating shaft 13 drives the second gear 14 to integrally rotate due to the operation of the first driving motor 12, and the first gear 10 is driven to integrally rotate due to the meshing relationship between the second gear 14 and the outer surface of the first gear 10, so that the round hole 11 is staggered and sealed with the bottom end of the mincing barrel 3, then the beef can be thrown into the mincing barrel 3 from the charging hole 30, the power motor 5 is started again, the round rod 6 drives the mincing blade 7 to integrally rotate due to the operation of the power motor 5, the mincing of the beef in the mincing barrel 3 is carried out through the mincing blade 7, then the first driving motor 12 can be started, the first gear 10 is driven to rotate, the bottom ends of the round hole 11 and the mincing barrel 3 are opened in a counterpoint mode, and finally the minced beef in the mincing barrel 3 falls into the sampling tube 22 along the guide block 4 for collection.

Then, the operator can start the pneumatic cylinder 27, because the operation of the pneumatic cylinder 27 will drive the rectangular block 28 to move leftwards, so that the two pushing plates 29 push the two movable frames 26 and the stop block 23 to move reversely integrally, further the fixing effect on the placement block 21 and the sampling tube 22 is relieved, then the second driving motor 16 can be started, because the operation of the second driving motor 16 will enable the driving shaft 17 to drive the driving wheel 19 to rotate, and because the driving wheels 19 are in transmission connection with each other through the belt 20, the belt 20 is driven to move, the placement block 21 and the sampling tube 22 at the top of the belt 20 can be sequentially sampled and collected leftwards, finally the sampling tube 22 in the placement block 21 can be sequentially taken down to the leftmost end, then the operator can start the second driving motor 16 again, so that the belt 20 drives the placement block 21 and the sampling tube 22 to integrally reset rightwards, and further sampling operation can be performed.

It is noted that relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Moreover, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present utility model have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.

Claims (7)

1. Quality control sampling structure of fat beef production, including sample case (1), its characterized in that: the utility model discloses a novel mincing machine, including sampling case (1), backup pad (2) are installed to the middle part fixed mounting on sampling case (1) inner wall, the middle part fixed mounting on backup pad (2) top has mincing barrel (3), the bottom fixed mounting on mincing barrel (3) inner wall has guide block (4), the middle part fixed mounting on sampling case (1) top has motor (5), round bar (6) have been cup jointed to the other end of motor (5) output shaft, the bottom of round bar (6) runs through sampling case (1) and mincing barrel (3) in proper order and extends to mincing barrel (3) inside and the both sides of surface all fixed mounting mincing leaf (7), cavity (8) that are located mincing barrel (3) left side below have been seted up to the inside of backup pad (2), fixed axle (9) are installed on the right side of cavity (8) inner wall bottom, first gear (10) have been cup jointed to the surface activity of fixed axle (9), round hole (11) have been seted up inside first motor (12) that are located mincing barrel (3) left side in the top fixed mounting of backup pad (2), first output shaft (12) have fixed shaft (13), the bottom of pivot (13) runs through backup pad (2) and cavity (8) in proper order and extends to the inside and the surface fixed sleeve of cavity (8) have received second gear (14), the surface of second gear (14) is connected with the surface meshing of first gear (10).

2. The quality control sampling structure for beef production of claim 1, wherein: the sampling box (1) top fixed mounting has charge door (30) that are located power motor (5) left side, the bottom of charge door (30) all with sampling box (1) and the top fixed intercommunication of mincing bucket (3).

3. The quality control sampling structure for beef production of claim 1, wherein: the front and rear of sampling case (1) inner wall bottom all fixed mounting has fixed plate (15), the left side fixed mounting at fixed plate (15) back has second driving motor (16), the other end of second driving motor (16) output shaft has fixedly cup jointed drive shaft (17), the front of drive shaft (17) runs through fixed plate (15) and extends to the inner wall of fixed plate (15) front end and cup joints with the inner wall activity of fixed plate (15) front end.

4. A quality control sampling structure for beef production according to claim 3, wherein: the right side of the inner wall of the fixed plate (15) is movably sleeved with a movable shaft (18), the outer surfaces of the driving shaft (17) and the movable shaft (18) are fixedly sleeved with driving wheels (19), and the driving wheels (19) are in transmission connection with each other through a belt (20).

5. The quality control sampling structure for beef production of claim 4, wherein: the top of belt (20) fixed mounting has place piece (21), the inside movable mounting of placing piece (21) has sampling tube (22).

6. The quality control sampling structure for beef production of claim 1, wherein: the utility model discloses a movable box, including sample case (1), movable box (24), movable box (25), movable box (26) are located movable box (24) in the inside of sample case (1), all movable box (23) are located at the front and back of sample case (1) inner wall bottom, the inside of sample case (1) has been seted up and is located movable box (24) below movable box (24) in the inside of movable box (23), the bottom of movable box (26) extends to the inside of movable box (25).

7. The quality control sampling structure for beef production of claim 6, wherein: the middle part fixed mounting in movable chamber (25) inner wall right side has pneumatic cylinder (27), the left side fixed mounting of pneumatic cylinder (27) has rectangle piece (28), the front and back place of rectangle piece (28) all articulates has push plate (29), the other end of push plate (29) articulates with the left end of movable frame (26) inboard.

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