CN116651595A

CN116651595A - Minced fillet product raw material grinding treatment device and method

Info

Publication number: CN116651595A
Application number: CN202310946639.8A
Authority: CN
Inventors: 龚建鸿; 龚吓国; 龚志鸿
Original assignee: Hui'an Chongwu Keji Food Co ltd
Current assignee: Hui'an Chongwu Keji Food Co ltd
Priority date: 2023-07-31
Filing date: 2023-07-31
Publication date: 2023-08-29
Anticipated expiration: 2043-07-31
Also published as: CN116651595B

Abstract

The invention belongs to the technical field of grinding, and particularly relates to a minced fillet product raw material grinding treatment device and method, wherein the minced fillet product raw material grinding treatment device comprises a bottom plate, a mounting plate is arranged on the bottom plate, and the mounting plate is connected with the bottom plate through bolts; the driving motor is arranged on the mounting plate and is connected with the forward-moving material returning unit; the feed returning unit comprises a driving pulley arranged at the output end of the driving motor, the driving pulley is connected with the linkage pulley through a first transmission belt, the linkage pulley is provided with a linkage rotating shaft, and partial minced fillet can be intermittently fed into the crushing force square driving mechanism for grinding through the feed returning unit, so that blockage of a feed inlet caused by entry of all minced fillet is avoided.

Description

Minced fillet product raw material grinding treatment device and method

Technical Field

The invention belongs to the technical field of grinding, and particularly relates to a device and a method for grinding raw materials of minced fillet products.

Background

Minced fillet is a novel aquatic product conditioning food raw material. Chopping minced fish, adding salt and auxiliary materials, mincing into viscous fish paste, shaping, heating to obtain elastic gel, and making into fish ball, cake, sausage, roll, etc. The minced fillet product is simple and convenient to condition, tender and delicious, is long-lasting to store, is quite suitable for urban consumption, can be manufactured in a large-scale factory, can be produced manually at home, can improve the economic value of low-value fishes, can be accepted by people, and is a very promising aquatic product.

Before processing, the minced fillet product needs to be crushed and stirred, and when the minced fillet product is ground by the device in the prior art, the minced fillet product is fed frequently so as to avoid the situation that a large amount of minced fillet is put into a grinding port to wait for grinding, and the feeding port is blocked due to the operation, so that the grinding efficiency is reduced.

Disclosure of Invention

Aiming at the situation, in order to overcome the defects in the prior art, the invention provides a device and a method for grinding raw materials of minced fillet products, which effectively solve the problems in the background art.

In order to achieve the above purpose, the present invention provides the following technical solutions: the minced fillet product raw material grinding treatment device comprises a bottom plate, wherein a mounting plate is arranged on the bottom plate, and the mounting plate is connected with the bottom plate through bolts; the driving motor is arranged on the mounting plate and is connected with the forward-moving material returning unit;

the feed returning unit comprises a driving pulley arranged at the output end of the driving motor, the driving pulley is connected with a linkage pulley through a first transmission belt, a linkage rotating shaft is arranged on the linkage pulley, the linkage rotating shaft penetrates through a bearing arranged on a bottom plate and is connected with a linkage disc, a poking rod is arranged on the linkage disc, and the poking rod is connected with a rectangular groove arranged on a rectangular block in a sliding mode; guide rods are symmetrically arranged on one side of the rectangular block, and penetrate through guide bases arranged on the bottom plate to be connected with the first connecting plate; the guide rod is sleeved with a guide spring, one end of the guide spring is fixedly connected with the first yoke plate, and the other end of the guide spring is fixedly connected with the guide base; a guide rack is arranged on the other side of the rectangular block, the guide rack is meshed with a guide gear, and the guide gear is connected with a hinged crushing assembly; the guide rack is provided with a traversing square block, the traversing square block is connected with a traversing square box, and the traversing square box is connected with an installation clamping block arranged on the bottom plate; guide blocks are symmetrically arranged on the traversing square, guide rods are arranged on the guide blocks, and the guide rods penetrate through guide bases arranged on the traversing square box and are fixedly connected with the second linkage plates; the guide rod is sleeved with a guide spring, one end of the guide spring is fixedly connected with the guide base, the other end of the guide spring is fixedly connected with the second connecting plate, the second connecting plate is provided with a guide rack, and the guide rack is connected with the double-boosting full assembly.

Preferably, the double-boosting complete assembly comprises a guide gear meshed with a guide rack, a guide rotating shaft is arranged on the guide gear, one end of the guide rotating shaft is connected with a driving bevel gear, and the driving bevel gear is connected with a crushing force square mechanism; the other end of the guide rotating shaft penetrates through a re-lifting base arranged on the traversing square box to be connected with a driving pulley, the driving pulley is connected with a driven pulley through a second driving belt, the driven pulley is provided with a re-lifting rotating shaft, and the re-lifting rotating shaft penetrates through the re-lifting base to be connected with a linkage cam.

Preferably, the crushing force square mechanism comprises a linkage bevel gear which is meshed and connected with the driving bevel gear, a square moving rotating shaft is arranged on the linkage bevel gear, the square moving rotating shaft penetrates through a square moving base arranged on the transverse square box to be connected with a square moving gear, and the square moving gear is meshed and connected with a circular moving gear.

Preferably, the annular gear is in meshed connection with the auxiliary gear, and the auxiliary gear is connected with the clamping coordination unit; the annular moving gear is provided with an annular moving rotating block which is connected with an annular moving rotating groove arranged on the collecting box; one side of the collecting box is connected with the bottom plate, and the other end of the collecting box is connected with the traversing square box; the rolling circular plate is arranged on the annular rotating block.

Preferably, the hinged crushing assembly comprises a guide rotating shaft arranged on a guide gear, one end of the guide rotating shaft is in transmission connection with a crushing base, and the crushing base is fixedly connected with a abnormal base arranged on a bottom plate; the driving gear is arranged at the other end of the guide rotating shaft and connected with the driven gear through a toothed belt, the driven rotating shaft is arranged on the driven gear, and the driven rotating shaft penetrates through the driven base arranged on the bottom plate and is connected with the driven bevel gear.

Preferably, the driven bevel gear is meshed with the driving bevel gear, the driving bevel gear is provided with a driving rotating shaft, the driving rotating shaft penetrates through the driven base to be connected with the full-movable pulley, a third driving belt is arranged on the full-movable pulley, the third driving belt penetrates through a feeding channel arranged on the abnormal-movable base to be connected with the matched movable pulley, the matched movable pulley is provided with a hinged rotating shaft, one end of the hinged rotating shaft is in transmission connection with the hinged base arranged in the feeding channel, and the other end of the hinged rotating shaft is connected with a plurality of blades.

Preferably, the linkage cam is matched and connected with a full-moving square, the full-moving square is connected with a limiting block, the limiting block is arranged in a collecting box in a sliding mode, a limiting rod is installed on the limiting groove, a limiting spring is sleeved on the limiting rod, one end of the limiting spring is fixedly connected with the limiting groove, the other end of the limiting spring is fixedly connected with the limiting block, the two limiting blocks are connected with a filter plate jointly, and the filter plate is connected with a rolling circular plate in a matched mode.

Preferably, the clamping synergetic unit comprises a clamping rotating shaft arranged on the auxiliary gear, a clamping cam is arranged on the clamping rotating shaft, the clamping cam is connected with a clamping square in a matched manner, clamping long rods are symmetrically arranged on the clamping square, and the clamping long rods penetrate through an installation clamping block and are connected with a brake round block; the clamping moving long rod is sleeved with a clamping moving spring, one end of the clamping moving spring is fixedly connected with the mounting clamping block, the other end of the clamping moving spring is fixedly connected with the clamping moving block, the clamping moving block is provided with a moving rack, and the moving rack is meshed with the moving gear.

Preferably, the extension gear is provided with an extension rotating shaft, the extension rotating shaft penetrates through an extension base arranged on the installation clamping block and is connected with the matching gear, the matching gear is connected with two auxiliary racks in a meshed manner, the matching racks are symmetrically provided with matching plates, the two matching plates are connected with a matching rod together, and the matching rod is connected with a quasi-motion different plate arranged on the extension base in a sliding manner; the movable rod is sleeved with a movable spring, one end of the movable spring is fixedly connected with the quasi-movable differential plate, and the other end of the movable spring is fixedly connected with the movable plate; and the two auxiliary racks are provided with extension rods, the extension rods are connected with a brake plate, and the brake plate is connected with a traversing square box.

The invention also provides a minced fillet product raw material grinding treatment method, which adopts the minced fillet product raw material grinding treatment device and comprises the following steps:

step one, starting a driving motor, wherein a driving pulley on the output end of the driving motor enables a linkage disc on a linkage rotating shaft to rotate, so that a rectangular block is limited to move in a guide base through a guide rod, and a guide spring is in a buffer state, so that a traversing square block moves in a traversing square box in a reciprocating mode;

step two, the guide gear drives the driving gear on the guide rotating shaft to rotate when rotating, so that the full movable pulley on the driving rotating shaft drives the hinging rotating shaft to rotate, and a plurality of blades on the hinging rotating shaft rotate;

step three, the guide rack drives the engaged guide gear to rotate when in reciprocating movement, so that the linkage cam rotates and is in reciprocating contact with the full-motion square, the limiting block is enabled to move in the limiting groove in a limiting mode, the limiting spring on the limiting rod is enabled to be in a buffering state, and therefore the distance between the filter plate and the rolling circular plate is adjusted;

and step four, driving the bevel gear to rotate so as to enable the linkage bevel gear to rotate, enabling the annular rotating block to drive the rolling circular plate to rotate in the annular rotating groove in a limiting mode, enabling the rolling circular plate to rotate and roll the minced fillet above the filter plate at the initial position, and grinding the minced fillet.

Compared with the prior art, the invention has the beneficial effects that:

(1) Starting a driving motor, wherein a driving pulley on the output end of the driving motor drives a linkage pulley to rotate through a first driving belt, so that a linkage disc on a linkage rotating shaft rotates, a rectangular block is enabled to move in a limiting manner in a guide base through a poking rod and a rectangular groove, a guide spring is enabled to be in a buffer state, then a guide rack is enabled to reciprocate, a traversing square block is enabled to reciprocate in the traversing square box, minced fillet in the traversing square box is accumulated in a feeding channel when the traversing square block does not move, a part of minced fillet is slowly pushed forward through the traversing square box through the movement of the traversing square block, and the traversing square box can be set to incline at a certain angle so as to facilitate the internal movement of the minced fillet; the rest part of the minced fillet can not move downwards in the feeding channel, so that a part of the minced fillet which moves enters the collecting box; when the traversing square is reset, the rest minced fillet is immediately moved downwards to wait for the next feeding, so that partial minced fillet can be intermittently fed into the crushing force square mechanism for grinding, the blockage of a feeding hole caused by the entering of all minced fillet is avoided, meanwhile, the frequent feeding is avoided, the working intensity of operators is reduced, and the grinding efficiency is improved;

(2) The guide gear drives the driving gear on the guide rotating shaft to rotate when rotating, so that the driven bevel gear on the driven gear starts to rotate, the full-movable pulley on the driving rotating shaft drives the matched movable pulley through the third transmission belt, so that the hinged rotating shaft rotates, and then a plurality of blades on the hinged rotating shaft start to rotate, and minced fillet put into the feeding channel can be smashed, so that the minced fillet grinding efficiency is improved;

(3) The clamping cam is in reciprocating contact with the clamping square block, the clamping square block is enabled to move in a limiting mode in the installation clamping block through the clamping long rod, the clamping spring is in a buffering mode, when the extending racks on the clamping square block move forwards, the meshed extending gears are driven to rotate, the matching gears rotate and engage the two auxiliary racks to move, the matching cams move in the accurate moving different plates in a limiting mode through the matching rods, the matching spring is in a buffering mode, the braking plate close to one side of the feeding channel moves downwards, one braking plate is enabled to stop minced fillet in the traversing square box, and then the other braking plate moves upwards to stop minced fillet released by the former; the traverse square is moved forward at the moment by the cooperation of the feed back unit, and the brake plate matched to the side close to the feed channel is moved downwards; when the delay rack resets, the matched spring resets, so that the brake plate close to one side of the feeding channel resets and moves upwards to separate the transverse square box, at the moment, when the transverse square box resets, the minced fillet descends and is limited at the current position through the brake plate, at the moment, the other brake plate moves downwards, the minced fillet is not limited any more, and enters the collecting box to perform grinding operation, so that grinding efficiency is improved by separate grinding, and the grinding opening is orderly prevented from being blocked;

(4) The rotation of the drive bevel gear is used for enabling the linkage bevel gear to rotate, the square-movement gear is meshed with the annular-movement gear to rotate, the rolling circular plate is driven to rotate in the annular-movement rotating groove in a limiting mode through the annular-movement rotating block, the rolling circular plate rotates and rolls minced fillet above the filter plate at the initial position, the minced fillet is ground, when the specified fineness is reached after grinding, the minced fillet can enter the collecting box through the filter plate, grinding operation is completed, and the filtering efficiency is improved through vibration of the filter plate;

(5) The guide rack drives the meshed guide gear to rotate when in reciprocating movement, so that the guide rotating shaft on the drive bevel gear rotates, and then the re-lifting rotating shaft on the driven pulley rotates, so that the linkage cam rotates and is in reciprocating contact with the full-motion square block; when the linkage cam contacts the full-motion square, the limiting block is enabled to move in the limiting groove in a limiting mode, and the limiting spring on the limiting rod is in a buffering state, so that the filter plate moves upwards; when the linkage cam is not contacted with the full-motion square any more, the filter plate is reset through the reset of the limiting spring, so that the distance between the filter plate and the rolling circular plate is adjusted, and the initial position of the filter plate can be connected with the rolling circular plate in a matched manner; the gap between the filter plate and the rolling circular plate is prevented from being enlarged due to overlarge part of minced fillet, and the filter plate is in a vibrating state due to the elasticity brought by the reset of the limiting spring, the minced fillet that drops on the filter can be spread out flatly to the effect of grinding has been promoted.

Drawings

The accompanying drawings are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate the invention and together with the embodiments of the invention, serve to explain the invention.

In the drawings:

FIG. 1 is a schematic diagram of the overall structure of the present invention;

FIG. 2 is a schematic diagram of a driving motor according to the present invention;

FIG. 3 is a schematic view of the structure of the feed channel in the present invention;

FIG. 4 is a schematic block diagram of a rectangular block structure according to the present invention;

FIG. 5 is a second schematic diagram of the overall structure of the present invention;

FIG. 6 is a schematic view of a toothed belt structure according to the present invention;

FIG. 7 is a schematic diagram of a gear structure of the present invention;

FIG. 8 is a schematic view of the structure of FIG. 6 at A in a partially enlarged form;

FIG. 9 is a schematic illustration of a brake plate structure in accordance with the present invention;

FIG. 10 is a schematic view of a filter plate according to the present invention;

in the figure: 1. a bottom plate; 2. a mounting plate; 3. a bolt; 4. a driving motor; 5. a drive pulley; 6. a first belt; 7. a linkage pulley; 8. a linkage rotating shaft; 9. a bearing; 10. a linkage disc; 11. a toggle rod; 12. rectangular blocks; 13. rectangular grooves; 14. a guide rod; 15. a guide base; 16. a first yoke plate; 17. a guide spring; 18. a guide rack; 19. a guide gear; 20. traversing the square; 21. traversing the square box; 22. installing a clamping block; 23. a guide block; 24. a guide rod; 25. a guide base; 26. a second yoke plate; 27. a guide spring; 28. a guide rack; 29. a guide gear; 30. a guide rotating shaft; 31. driving a bevel gear; 32. a re-lifting base; 33. a driving pulley; 34. a second belt; 35. a driven pulley; 36. a re-lifting rotating shaft; 37. a linked cam; 38. a linkage bevel gear; 39. a square rotating shaft; 40. a square base; 41. a square gear; 42. a ring gear; 43. an auxiliary gear; 44. a ring-moving rotating block; 45. a collection box; 46. a circular rotating groove; 47. grinding the circular plate; 48. a guide rotating shaft; 49. a crushing base; 50. a transaction base; 51. a drive gear; 52. a toothed belt; 53. a driven gear; 54. a driven rotating shaft; 55. a driven base; 56. a driven bevel gear; 57. a drive bevel gear; 58. a driving rotating shaft; 59. a full movable pulley; 60. a third belt; 61. a feed channel; 62. a movable pulley is matched; 63. hinging the rotating shaft; 64. hinging the base; 65. a blade; 66. full-motion square blocks; 67. a limiting block; 68. a limit groove; 69. a limit rod; 70. a limit spring; 71. a filter plate; 72. locking the rotating shaft; 73. a cam is blocked; 74. a blocking square; 75. locking the long rod; 76. a locking spring; 77. a delay rack; 78. a delay gear; 79. extending the rotating shaft; 80. extending the base; 81. a mating gear; 82. an auxiliary rack; 83. a moving plate; 84. a mating lever; 85. a quasi-motion differential plate; 86. a mating spring; 87. an extension rod; 88. a brake plate.

Detailed Description

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

Examples: the device for grinding and treating the minced fillet product raw materials comprises a bottom plate 1, wherein a mounting plate 2 is arranged on the bottom plate 1, and the mounting plate 2 is connected with the bottom plate 1 through bolts 3; the driving motor 4 is arranged on the mounting plate 2, and the driving motor 4 is connected with the feed returning unit; the feed returning unit comprises a driving pulley 5 arranged at the output end of a driving motor 4, the driving pulley 5 is connected with a linkage pulley 7 through a first transmission belt 6, a linkage rotating shaft 8 is arranged on the linkage pulley 7, the linkage rotating shaft 8 penetrates through a bearing 9 arranged on a bottom plate 1 to be connected with a linkage disc 10, a toggle rod 11 is arranged on the linkage disc 10, and the toggle rod 11 is in sliding connection with a rectangular groove 13 arranged on a rectangular block 12; guide rods 14 are symmetrically arranged on one side of the rectangular block 12, and the guide rods 14 penetrate through guide bases 15 arranged on the bottom plate 1 to be connected with the first yoke plate 16; the guide rod 14 is sleeved with a guide spring 17, one end of the guide spring 17 is fixedly connected with the first yoke plate 16, and the other end of the guide spring is fixedly connected with the guide base 15; a guide rack 18 is arranged on the other side of the rectangular block 12, the guide rack 18 is meshed with a guide gear 19, and the guide gear 19 is connected with a hinged crushing assembly; a traversing square 20 is arranged on the guide rack 18, the traversing square 20 is connected with a traversing square box 21, and the traversing square box 21 is connected with an installation clamping block 22 arranged on the bottom plate 1; the traversing square 20 is symmetrically provided with guide blocks 23, the guide blocks 23 are provided with guide rods 24, and the guide rods 24 penetrate through guide bases 25 arranged on the traversing square box 21 to be fixedly connected with a second linkage plate 26; the guide rod 24 is sleeved with a guide spring 27, one end of the guide spring 27 is fixedly connected with the guide base 25, the other end of the guide spring is fixedly connected with the second connecting plate 26, the second connecting plate 26 is provided with a guide rack 28, and the guide rack 28 is connected with the complex boosting full assembly.

An operator sends minced fillet into the traversing square box 21 through the feeding channel 61, the driving pulley 5 on the output end of the driving motor 4 is started to drive the linkage pulley 7 to rotate through the first transmission belt 6, the linkage disc 10 on the linkage rotating shaft 8 rotates, the rectangular block 12 is limited to move in the guide base 15 through the toggle rod 11 and the rectangular groove 13, the guide spring 17 is in a buffer state through the guide rod 14, the guide rack 18 is then reciprocated, the traversing square box 20 is reciprocated in the traversing square box 21, when the traversing square box 20 does not move, minced fillet in the traversing square box 21 is accumulated in the feeding channel 61, a part of minced fillet is slowly pushed forward through the traversing square box 21 through the movement of the traversing square box 20, and the traversing square box 21 can be set to incline at a certain angle so as to facilitate the internal movement of the minced fillet; while the remainder cannot move down in the feed channel 61 so that a portion of the displaced surimi enters the collection box 45; when the traversing block 20 resets, the rest minced fillet moves down immediately to wait for the next feeding, so that partial minced fillet can be intermittently fed into the crushing force square mechanism for grinding, the blockage of a feeding hole caused by the entering of all minced fillets is avoided, meanwhile, the frequent feeding is avoided, the working intensity of operators is reduced, and the grinding efficiency is improved.

The double-boosting full assembly of the embodiment comprises a guide gear 29 meshed with a guide rack 28, a guide rotating shaft 30 is arranged on the guide gear 29, one end of the guide rotating shaft 30 is connected with a driving bevel gear 31, and the driving bevel gear 31 is connected with a crushing force square mechanism; the other end of the guide rotating shaft 30 passes through a re-lifting base 32 arranged on the traversing square box 21 to be connected with a driving pulley 33, the driving pulley 33 is connected with a driven pulley 35 through a second transmission belt 34, a re-lifting rotating shaft 36 is arranged on the driven pulley 35, and the re-lifting rotating shaft 36 passes through the re-lifting base 32 to be connected with a linkage cam 37; the linkage cam 37 is matched and connected with a full-moving square 66, the full-moving square 66 is connected with a limiting block 67, the limiting block 67 is slidably connected with a limiting groove 68 arranged in the collecting box 45, a limiting rod 69 is mounted on the limiting groove 68, a limiting spring 70 is sleeved on the limiting rod 69, one end of the limiting spring 70 is fixedly connected with the limiting groove 68, the other end of the limiting spring 70 is fixedly connected with the limiting block 67, the two limiting blocks 67 are connected with a filter plate 71 jointly, and the filter plate 71 is matched and connected with the rolling circular plate 47.

The guide rack 28 drives the engaged guide gear 29 to rotate during reciprocating movement, so that the guide rotating shaft 30 on the drive bevel gear 31 rotates, and then the re-lifting rotating shaft 36 on the driven pulley 35 rotates, and the linkage cam 37 rotates and is in reciprocating contact with the full-motion block 66; when the linkage cam 37 contacts the full-motion block 66, the limiting block 67 is enabled to move in the limiting groove 68 in a limiting mode, the limiting spring 70 on the limiting rod 69 is enabled to be in a buffering state, and the filter plate 71 is enabled to move upwards; when the linkage cam 37 no longer contacts the full-motion block 66, the filter plate 71 is reset through the reset of the limit spring 70, so that the distance between the filter plate 71 and the rolling circular plate 47 is adjusted, and the initial position of the filter plate 71 can be matched and connected with the rolling circular plate 47; the gap between the filter plate 71 and the rolling circular plate 47 is increased due to the fact that part of minced fillet is too large, the filter plate 71 is in a vibrating state due to the elastic force brought by the reset of the limiting spring 70, the minced fillet falling on the filter plate 71 can be spread out flatly, and the grinding effect is improved.

The crushing force square mechanism of the embodiment comprises a linkage bevel gear 38 which is meshed and connected with a drive bevel gear 31, a square movement rotating shaft 39 is arranged on the linkage bevel gear 38, the square movement rotating shaft 39 is connected with a square movement gear 41 by passing through a square movement base 40 arranged on a transverse square movement box 21, and the square movement gear 41 is meshed and connected with a ring movement gear 42; the annular gear 42 is in meshed connection with the auxiliary gear 43, and the auxiliary gear 43 is connected with the clamping coordination unit; the annular gear 42 is provided with an annular rotating block 44, and the annular rotating block 44 is connected with an annular rotating groove 46 arranged on a collecting box 45; one side of the collecting box 45 is connected with the bottom plate 1, and the other end is connected with the traversing square box 21; the ring rotation block 44 is provided with a rolling disk 47.

When the minced fillet enters the upper part of the filter plate 71 in the collection box 45, the linkage bevel gear 38 is rotated by the rotation of the drive bevel gear 31, the square gear 41 is meshed with the circular gear 42 to rotate, the rolling circular plate 47 is driven by the circular rotating block 44 to rotate in the circular rotating groove 46 in a limiting way, the rolling circular plate 47 rotates and rolls the minced fillet falling above the filter plate 71 in the initial position, so that the minced fillet is ground, and the minced fillet can enter the collection box 45 through the filter plate 71 when reaching a specified fineness after grinding, so that the grinding operation is finished, and the filtering efficiency is improved by the vibration of the filter plate 71.

The hinged crushing assembly of the embodiment comprises a guide rotating shaft 48 arranged on a guide gear 19, one end of the guide rotating shaft 48 is in transmission connection with a crushing base 49, and the crushing base 49 is fixedly connected with a abnormal base 50 arranged on the bottom plate 1; the driving gear 51 is mounted on the other end of the guiding rotating shaft 48, the driving gear 51 is connected with the driven gear 53 through the toothed belt 52, the driven rotating shaft 54 is mounted on the driven gear 53, and the driven rotating shaft 54 passes through the driven base 55 arranged on the bottom plate 1 to be connected with the driven bevel gear 56; the driven bevel gear 56 is in meshed connection with the drive bevel gear 57, the drive bevel gear 57 is provided with a drive rotating shaft 58, the drive rotating shaft 58 penetrates through the driven base 55 to be connected with the full movable pulley 59, the full movable pulley 59 is provided with a third driving belt 60, the third driving belt 60 penetrates through a feeding channel 61 arranged on the abnormal movable base 50 to be connected with a matched movable pulley 62, the matched movable pulley 62 is provided with a hinged rotating shaft 63, one end of the hinged rotating shaft 63 is in transmission connection with a hinged base 64 arranged in the feeding channel 61, and the other end of the hinged rotating shaft 63 is connected with a plurality of blades 65.

The guide gear 19 drives the driving gear 51 on the guide rotating shaft 48 to rotate when rotating, so that the driven bevel gear 56 on the driven gear 53 starts to rotate, the full movable pulley 59 on the driving rotating shaft 58 drives the matched movable pulley 62 through the third transmission belt 60, so that the hinged rotating shaft 63 rotates, and then the blades 65 on the hinged rotating shaft 63 start to rotate, and minced fillet put into the feeding channel 61 can be smashed, so that the minced fillet grinding efficiency is improved.

The clamping synergetic unit of the embodiment comprises a clamping rotating shaft 72 arranged on the auxiliary gear 43, a clamping cam 73 is arranged on the clamping rotating shaft 72, the clamping cam 73 is connected with a clamping square 74 in a matched and connected mode, clamping long rods 75 are symmetrically arranged on the clamping square 74, and the clamping long rods 75 penetrate through the mounting clamp blocks 22 and are connected with the brake round blocks; the clamping long rod 75 is sleeved with a clamping spring 76, one end of the clamping spring 76 is fixedly connected with the mounting clamping block 22, the other end of the clamping spring is fixedly connected with the clamping block 74, the clamping block 74 is provided with a sliding rack 77, and the sliding rack 77 is in meshed connection with a sliding gear 78; the extension gear 78 is provided with an extension rotating shaft 79, the extension rotating shaft 79 passes through an extension base 80 arranged on the installation clamping block 22 and is connected with an auxiliary gear 81, the auxiliary gear 81 is connected with two auxiliary racks 82 in a meshed manner, the auxiliary racks 82 are symmetrically provided with an auxiliary plate 83, the two auxiliary plates 83 are jointly connected with an auxiliary rod 84, and the auxiliary rod 84 is in sliding connection with a quasi-motion differential plate 85 arranged on the extension base 80; the said match moves the spring 86 of the set on the lever 84, match and move one end of the spring 86 and move the different plate 85 fixedly, another end and match and move the plate 83 fixedly and connect and set up; the two auxiliary racks 82 are provided with extension rods 87, the extension rods 87 are connected with a brake plate 88, and the brake plate 88 is connected with the traversing square box 21.

The auxiliary gear 43 rotates the blocking cam 73 on the blocking rotating shaft 72 when rotating, so that the blocking cam 73 is in reciprocating contact with the blocking square block 74, and the blocking cam moves in a limiting manner in the mounting clamping block 22 through the blocking long rod 75, so that the blocking spring 76 is in a buffering state, when the extending rack 77 on the blocking square block 74 moves forwards, the engaged extending gear 78 is driven to rotate, the matching gear 81 rotates and engages the two auxiliary racks 82 to move, the matching spring 86 moves in a limiting manner in the accurate moving differential plate 85 through the matching rod 84, the matching spring 86 is in a buffering state, the brake plate 88 on the side close to the feeding channel 61 moves downwards, one brake plate 88 does not block minced fillet in the traversing square box 21 any more, and then the other brake plate 88 moves upwards, so that minced fillet released by the former is blocked; the traverse block 20 is now moving forward by the engagement of the feed back unit and the brake plate 88 engaged to the side near the feed channel 61 moves down; when the delay rack 77 is reset, the actuating spring 86 is reset, the brake plate 88 close to one side of the feeding channel 61 is reset and moves upwards to separate the traversing square box 21, at the moment, when the traversing square box 20 is reset, the minced fillet descends and is limited at the current position through the brake plate 88, at the moment, the other brake plate 88 moves downwards, the minced fillet is not limited, and the minced fillet enters the collecting box 45 to be ground, so that the grinding efficiency is improved by separate grinding, and the blockage of a grinding port is avoided by orderly proceeding.

step one, starting a driving motor 4, wherein a driving pulley 5 at the output end of the driving motor rotates a linkage disc 10 on a linkage rotating shaft 8, so that a rectangular block 12 moves in a limiting manner in a guide base 15 through a guide rod 14, and a guide spring 17 is in a buffering state, so that a traversing square block 20 moves in a traversing square box 21 in a reciprocating manner;

step two, the guide gear 19 drives the driving gear 51 on the guide rotating shaft 48 to rotate when rotating, so that the full movable pulley 59 on the driving rotating shaft 58 drives the hinging rotating shaft 63 to rotate, and a plurality of blades 65 on the hinging rotating shaft 63 rotate;

step three, the guide rack 28 drives the engaged guide gear 29 to rotate during reciprocating movement, so that the linkage cam 37 rotates and reciprocally contacts the full-moving square block 66, the limiting block 67 is enabled to move in the limiting groove 68 in a limiting mode, the limiting spring 70 on the limiting rod 69 is enabled to be in a buffering state, and therefore the distance between the filter plate 71 and the rolling circular plate 47 is adjusted;

step four, the bevel gear 31 is driven to rotate so that the linkage bevel gear 38 rotates, the annular rotating block 44 drives the rolling circular plate 47 to rotate in the annular rotating groove 46 in a limiting mode, the rolling circular plate 47 rotates and rolls minced fillet above the filter plate 71 at the initial position, and therefore the minced fillet is ground.

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 invention 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 invention, the scope of which is defined in the appended claims and their equivalents.

Claims

1. A minced fillet product raw materials grinds processing apparatus, its characterized in that: the device comprises a bottom plate (1), wherein a mounting plate (2) is arranged on the bottom plate (1), and the mounting plate (2) is connected with the bottom plate (1) through bolts (3); a driving motor (4) is arranged on the mounting plate (2), and the driving motor (4) is connected with the forward feeding and returning unit;

the feed reversing unit comprises a driving pulley (5) arranged at the output end of a driving motor (4), the driving pulley (5) is connected with a linkage pulley (7) through a first transmission belt (6), a linkage rotating shaft (8) is arranged on the linkage pulley (7), the linkage rotating shaft (8) passes through a bearing (9) arranged on a bottom plate (1) to be connected with a linkage disc (10), a toggle rod (11) is arranged on the linkage disc (10), and the toggle rod (11) is connected with a rectangular groove (13) arranged on a rectangular block (12) in a sliding manner; guide rods (14) are symmetrically arranged on one side of the rectangular block (12), and the guide rods (14) penetrate through guide bases (15) arranged on the bottom plate (1) to be connected with the first connecting plate (16); a guide spring (17) is sleeved on the guide rod (14), one end of the guide spring (17) is fixedly connected with the first connecting plate (16), and the other end of the guide spring is fixedly connected with the guide base (15); a guide rack (18) is arranged on the other side of the rectangular block (12), the guide rack (18) is meshed with a guide gear (19), and the guide gear (19) is connected with the hinged crushing assembly; a traversing square block (20) is arranged on the guide rack (18), the traversing square block (20) is connected with a traversing square box (21), and the traversing square box (21) is connected with an installation clamping block (22) arranged on the bottom plate (1); guide blocks (23) are symmetrically arranged on the traversing square blocks (20), guide rods (24) are arranged on the guide blocks (23), and the guide rods (24) penetrate through guide bases (25) arranged on the traversing square boxes (21) to be fixedly connected with the second connecting plates (26); the guide rod (24) is sleeved with a guide spring (27), one end of the guide spring (27) is fixedly connected with the guide base (25), the other end of the guide spring is fixedly connected with the second connecting plate (26), the second connecting plate (26) is provided with a guide rack (28), and the guide rack (28) is connected with the complex boosting full assembly.

2. The minced fish product raw material grinding and processing apparatus according to claim 1, wherein: the double-boosting full assembly comprises a guide gear (29) meshed with a guide rack (28), a guide rotating shaft (30) is arranged on the guide gear (29), one end of the guide rotating shaft (30) is connected with a driving bevel gear (31), and the driving bevel gear (31) is connected with a crushing force square mechanism; the other end of the guide rotating shaft (30) penetrates through a re-lifting base (32) arranged on the traversing square box (21) to be connected with a driving pulley (33), the driving pulley (33) is connected with a driven pulley (35) through a second transmission belt (34), a re-lifting rotating shaft (36) is arranged on the driven pulley (35), and the re-lifting rotating shaft (36) penetrates through the re-lifting base (32) to be connected with a linkage cam (37).

3. The minced fish product raw material grinding and processing apparatus according to claim 2, wherein: the crushing force square mechanism comprises a linkage bevel gear (38) which is meshed and connected with the driving bevel gear (31), a square moving rotating shaft (39) is arranged on the linkage bevel gear (38), the square moving rotating shaft (39) penetrates through a square moving base (40) arranged on the traversing square box (21) to be connected with a square moving gear (41), and the square moving gear (41) is meshed and connected with a circular moving gear (42).

4. A minced fish product raw material grinding and processing apparatus according to claim 3, wherein: the annular gear (42) is connected with the auxiliary gear (43) in a meshed manner, and the auxiliary gear (43) is connected with the clamping coordination unit; a ring-moving rotating block (44) is arranged on the ring-moving gear (42), and the ring-moving rotating block (44) is connected with a ring-moving rotating groove (46) arranged on the collecting box (45); one side of the collecting box (45) is connected with the bottom plate (1), and the other end of the collecting box is connected with the traversing square box (21); the annular rotating block (44) is provided with a rolling circular plate (47).

5. The minced fish product raw material grinding and processing apparatus according to claim 1, wherein: the hinged crushing assembly comprises a guide rotating shaft (48) arranged on the guide gear (19), one end of the guide rotating shaft (48) is in transmission connection with a crushing base (49), and the crushing base (49) is fixedly connected with a abnormal base (50) arranged on the bottom plate (1); the driving gear (51) is arranged at the other end of the guide rotating shaft (48), the driving gear (51) is connected with the driven gear (53) through the toothed belt (52), the driven rotating shaft (54) is arranged on the driven gear (53), and the driven rotating shaft (54) penetrates through the driven base (55) arranged on the bottom plate (1) to be connected with the driven bevel gear (56).

6. The minced fish product raw material grinding and processing apparatus according to claim 5, wherein: the automatic feeding device is characterized in that the driven bevel gear (56) is connected with the driving bevel gear (57) in a meshed mode, the driving bevel gear (57) is provided with a driving rotating shaft (58), the driving rotating shaft (58) penetrates through the driven base (55) to be connected with the full-movable pulley (59), a third driving belt (60) is arranged on the full-movable pulley (59), the third driving belt (60) penetrates through a feeding channel (61) arranged on the abnormal-movable base (50) to be connected with a matched movable pulley (62), the matched movable pulley (62) is provided with a hinged rotating shaft (63), one end of the hinged rotating shaft (63) is connected with a hinged base (64) arranged in the feeding channel (61) in a transmission mode, and the other end of the hinged rotating shaft is connected with a plurality of blades (65).

7. The device for grinding and processing minced fish product raw materials according to claim 4, wherein: the linkage cam (37) is matched and connected with the full-moving square block (66), the full-moving square block (66) is connected with the limiting block (67), the limiting block (67) is slidably connected with the limiting groove (68) formed in the collecting box (45), the limiting rod (69) is mounted on the limiting groove (68), the limiting spring (70) is sleeved on the limiting rod (69), one end of the limiting spring (70) is fixedly connected with the limiting groove (68), the other end of the limiting spring is fixedly connected with the limiting block (67), the two limiting blocks (67) are connected with the filter plate (71) together, and the filter plate (71) is matched and connected with the grinding circular plate (47).

8. The device for grinding and processing minced fish product raw materials according to claim 4, wherein: the clamping coordination unit comprises a clamping rotating shaft (72) arranged on the auxiliary gear (43), a clamping cam (73) is arranged on the clamping rotating shaft (72), the clamping cam (73) is connected with a clamping square block (74) in a matched mode, clamping long rods (75) are symmetrically arranged on the clamping square block (74), and the clamping long rods (75) penetrate through the mounting clamping blocks (22) to be connected with the braking round blocks; the clamping moving long rod (75) is sleeved with a clamping moving spring (76), one end of the clamping moving spring (76) is fixedly connected with the mounting clamping block (22), the other end of the clamping moving spring is fixedly connected with the clamping moving block (74), the clamping moving block (74) is provided with a moving rack (77), and the moving rack (77) is meshed with a moving gear (78).

9. The apparatus for grinding and treating minced fish product raw materials as set forth in claim 8, wherein: the automatic control device is characterized in that a delay rotating shaft (79) is arranged on the delay gear (78), the delay rotating shaft (79) passes through a delay base (80) arranged on an installation clamping block (22) and is connected with a matched gear (81), the matched gear (81) is connected with two auxiliary racks (82) in a meshed mode, matched plates (83) are symmetrically arranged on the auxiliary racks (82), the two matched plates (83) are jointly connected with a matched rod (84), and the matched rod (84) is connected with a quasi-motion different plate (85) arranged on the delay base (80) in a sliding mode; the matching spring (86) is sleeved on the matching rod (84), one end of the matching spring (86) is fixedly connected with the quasi-motion different plate (85), and the other end of the matching spring is fixedly connected with the matching plate (83); the two auxiliary racks (82) are provided with extension rods (87), the extension rods (87) are connected with a brake plate (88), and the brake plate (88) is connected with the traversing square box (21).

10. A method for grinding and treating raw materials of a surimi product, characterized by comprising the steps of:

step one, starting a driving motor (4), wherein a driving pulley (5) at the output end of the driving motor enables a linkage disc (10) on a linkage rotating shaft (8) to rotate, so that a rectangular block (12) is limited to move in a guide base (15) through a guide rod (14), and a guide spring (17) is in a buffer state, so that a traversing square block (20) moves reciprocally in a traversing square box (21);

step two, the guide gear (19) drives the driving gear (51) on the guide rotating shaft (48) to rotate when rotating, so that the full movable pulley (59) on the driving rotating shaft (58) drives the hinging rotating shaft (63) to rotate, and a plurality of blades (65) on the hinging rotating shaft (63) are enabled to rotate;

step three, the guide rack (28) drives the engaged guide gear (29) to rotate when in reciprocating movement, so that the linkage cam (37) rotates and is in reciprocating contact with the full-motion square block (66), the limiting block (67) is in limiting movement in the limiting groove (68), and the limiting spring (70) on the limiting rod (69) is in a buffering state, so that the distance between the filter plate (71) and the grinding circular plate (47) is adjusted;

step four, driving the bevel gear (31) to rotate so that the linkage bevel gear (38) rotates, enabling the annular rotating block (44) to drive the grinding circular plate (47) to rotate in the annular rotating groove (46) in a limiting mode, enabling the grinding circular plate (47) to rotate and grind minced fillet above the filter plate (71) falling on the initial position, and grinding the minced fillet.