CN116268304B - Beef food seasoning ingredient and preparation method thereof - Google Patents

Abstract

The invention belongs to the technical field of ingredient stirring, and particularly relates to a beef food seasoning ingredient which comprises the following raw materials in parts by weight: 1-4 parts of edible salt, 2-5 parts of edible oil, 1-3 parts of soy sauce powder, 1-2 parts of high nucleic acid yeast extract, 1-4 parts of garlic powder, 1-3 parts of chilli powder and 15-25 parts of water; a method of preparing a flavoring formulation comprising the steps of: the raw materials or ingredients and the like are put into an ingredient barrel of the stirring device, and a driving motor is started to enable a transmission fluted disc on a driven rotating shaft to rotate, so that a rectangular rod and a rectangular moving rack connected with a combined double rod move reciprocally and engage with the rectangular moving gear to rotate reciprocally; the beef food seasoning of the invention is compounded by adopting various raw materials such as edible salt, edible oil and the like, improves various taste and sensitivity of the seasoning, enriches the functional effect of the product, optimizes the preparation method in the preparation and improves the stirring device.

Description

Beef food seasoning ingredient and preparation method thereof

Technical Field

The invention belongs to the technical field of seasoning and mixing, and particularly relates to a beef food seasoning and a preparation method thereof.

Background

Flavoring, also known as seasoning, refers to a food ingredient that is used to improve the taste by being added in small amounts to other foods. Some flavors are otherwise used as staple foods or as main ingredients for consumption. For example, onion may be a major vegetable ingredient such as French onion soup. In the processing process of beef food, special mixing devices are needed to add auxiliary materials to mix and stir beef.

The existing seasoning ingredients are simple in raw material proportion and single in function, and meanwhile in the preparation of ingredients, when the raw materials are stirred by the stirring device, the raw materials are basically stirred in the same direction for a long time, so that the raw materials are easy to bond or agglomerate together, the ingredients inside the seasoning ingredients are not easy to stir and mix, and the stirring uniformity is reduced.

Disclosure of Invention

Aiming at the situation, in order to overcome the defects in the prior art, the invention provides a beef food seasoning ingredient and a preparation method thereof, 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 beef food seasoning comprises the following raw materials in parts by weight:

1-4 parts of edible salt, 2-5 parts of edible oil, 1-3 parts of soy sauce powder, 1-2 parts of high nucleic acid yeast extract, 1-4 parts of garlic powder, 1-3 parts of chilli powder and 15-25 parts of water.

A method of preparing a flavoring formulation comprising the steps of:

step one, putting raw materials or ingredients and the like into an ingredient barrel of an agitating device, starting a driving motor to enable a transmission fluted disc on a driven rotating shaft to rotate, enabling a rectangular rod and a rectangular moving rack connected with a combined double rod to reciprocate, and meshing the rectangular moving gear to reciprocate;

step two, the moment-driven gear rotates reciprocally, so that raw materials are prevented from being bonded together due to constant stirring in the same direction, and the scraping rod is attached to the inner wall of the batching barrel, so that raw materials or ingredients adhered to the inner wall of the batching barrel can be scraped;

and step three, the transmission fluted disc drives the rotating gear to rotate when rotating, so that the striking spheres on the traverse bar are reset, and the two striking spheres are in reciprocating contact with the outer wall of the batching barrel.

The stirring device comprises a batching barrel, wherein the batching barrel is connected with the cover body through a tight control speed-relieving unit; the cover body is provided with a mounting plate, and the mounting plate is fixedly connected with the cover body through bolts; a driving motor is fixedly arranged on the mounting plate and is connected with the double-acting cleaning mechanism;

the double-acting cleaning mechanism comprises a driving block arranged on the output end of the driving motor, and the driving block is connected with a driving groove arranged on the driving bevel gear; the driving bevel gear is meshed with the driven bevel gear, a driven rotating shaft is arranged on the driven bevel gear, one end of the driven rotating shaft is in transmission connection with the cover body, the other end of the driven rotating shaft is in transmission connection with the transmission fluted disc, the transmission fluted disc is meshed with two rotating gears, the rotating shaft is arranged on the rotating gears, and the rotating shaft is in transmission connection with the cover body; the driving pulley is arranged on the rotating shaft and is connected with the rotating force impact assembly.

Preferably, the rotating force impact assembly comprises a conveying belt arranged on the driving pulley, the conveying belt is connected with the driven pulley, a force rotating shaft is arranged on the driven pulley, one end of the force rotating shaft is in transmission connection with the cover body, the other end of the force rotating shaft is connected with the double-acting bevel gear, the double-acting bevel gear is in meshed connection with the stable rotating shaft, the stable rotating shaft is arranged on the stable rotating shaft, a stable rotating gear is arranged on the stable rotating shaft, and the stable rotating gear is connected with the side stable connecting assembly.

Preferably, the stabilizing rotating shaft penetrates through a stabilizing base arranged on the cover body to be connected with a closing bevel gear, the closing bevel gear is meshed with an auxiliary bevel gear, the auxiliary bevel gear is provided with an auxiliary rotating shaft, the auxiliary rotating shaft penetrates through an auxiliary base arranged on the stabilizing base to be connected with a bump, the bump is matched and connected with a traversing square plate, traversing rods are symmetrically arranged on the traversing square plate, and the traversing rods penetrate through the auxiliary square plate to be fixedly connected with a striking sphere; the auxiliary square plate is provided with a linkage different rod which is fixedly connected with the auxiliary base; the transverse rod is sleeved with a transverse spring, one end of the transverse spring is fixedly connected with the auxiliary square plate, and the other end of the transverse spring is fixedly connected with the transverse square plate.

Preferably, the side stable body connecting component comprises a stable moving rack which is meshed with the stable moving gear and is connected with the stable moving gear, a stable moving sliding block is arranged on the stable moving rack, the stable moving sliding block is connected with a stable moving sliding box in a sliding manner, and the stable moving sliding box is connected with a stable moving base through a connecting plate; the stable sliding block is provided with a linkage substrate, the linkage substrate is provided with a linkage rod, and the linkage rod penetrates through the connecting plate to be connected with the clamping plate; the linkage rod is sleeved with a linkage spring, one end of the linkage spring is fixedly connected with the linkage substrate, and the other end of the linkage spring is fixedly connected with the connecting plate.

Preferably, a rocking rod is arranged on the top surface of the transmission fluted disc and is in sliding connection with a rectangular groove arranged on the rectangular block; a rectangular rod is arranged on the rectangular block, and penetrates through a rectangular base fixedly arranged on the cover body to be connected with the rectangular moving rack; the rectangular spring is sleeved on the rectangular rod, one end of the rectangular spring is fixedly connected with the rectangular base, the other end of the rectangular spring is fixedly connected with the rectangular moving rack, the rectangular moving rack is provided with a combined double rod, and the combined double rod penetrates through the combined base fixedly arranged on the cover body to be connected with the first baffle; the combined double-rod is sleeved with a combined spring, one end of the combined spring is fixedly connected with the first baffle, and the other end of the combined spring is fixedly connected with the combined base; the torque-driven rack is meshed with the torque-driven gear, a torque-driven rotating shaft is arranged on the torque-driven gear, the torque-driven rotating shaft penetrates through the cover body and is fixedly connected with the scraping rod, and a plurality of stirring rods are arranged on the scraping rod.

Preferably, an extension rod is arranged on the stable moving rack, a fixed seat is arranged on the extension rod, and the fixed seat is connected with the two-way stable-making mechanism; the extension rod is fixedly provided with a bearing plate, the bearing plate is symmetrically provided with bearing sleeves, the bearing sleeves are arranged in a sliding connection with bearing columns, and the two bearing columns are connected with each other to be attached to the floor; a plurality of limiting blocks are arranged on the bearing post, the limiting blocks are arranged in sliding connection with a plurality of limiting grooves arranged in the bearing sleeve, the limiting grooves are connected with the limiting blocks through extrusion springs, and the bearing sleeve is connected with the bearing post through the limiting springs; transfer bases are symmetrically arranged on the stable moving racks, transfer rods are fixedly arranged on the transfer bases, and the two transfer rods penetrate through the combined moving bases to be connected with the bottom plate; the transfer rod is sleeved with a transfer spring, one end of the transfer spring is fixedly connected with the transfer base, the other end of the transfer spring is fixedly connected with the combined base, and gear teeth are arranged on the combined base.

Preferably, the tight control quick release unit comprises mounting blocks symmetrically arranged on the batching barrel, and the mounting blocks are connected with mounting grooves formed in the cover body; the installation piece is last to be equipped with the linkage slot symmetrically, and the linkage slot is connected with the linkage inserted bar and is set up, and two linkage inserted bars connect the linkage board jointly, and the brake block is installed to symmetry on the bottom surface of linkage board, and two brake blocks are equipped with the brake groove sliding connection setting on the lid, install the brake lever on the brake groove, and the cover is equipped with brake spring on the brake lever, and brake spring's one end and brake groove fixed connection set up, and the other end and brake block fixed connection set up.

Preferably, the two-way stabilizing mechanism comprises a rope arranged on the fixed seat, and the rope is connected with the paying-off wheel through a fixed pulley; a fixed moving rotating shaft is arranged on the fixed pulley, one end of the fixed moving rotating shaft is in transmission connection with a fixed moving base arranged on the linkage different rod, the other end of the fixed moving rotating shaft is connected with a moving bevel gear, and the moving bevel gear is connected with a force removing flitch unit; the paying-off wheel is provided with an engagement rotating shaft, one end of the engagement rotating shaft penetrates through the fixed base to be connected with the spring, the other end of the engagement rotating shaft is connected with the engagement gear, the engagement gear is in meshed connection with the engagement rack, the engagement rack is symmetrically provided with engagement plates, the engagement plates are in sliding connection with the engagement rod, and two ends of the engagement rod are connected with auxiliary connection different plates arranged on the fixed base; the engagement rod is sleeved with an engagement spring, one end of the engagement spring is fixedly connected with the engagement plate, and the other end of the engagement spring is connected with the auxiliary linkage different plate; an L square plate is arranged on the movable rack, a plurality of driving rods are arranged on the L square plate, and the driving rods are connected with the attaching clamp circular plate; the driving rod is sleeved with a driving spring, one end of the driving spring is connected with the attaching clamp circular plate, and the other end of the driving spring is connected with the L-shaped square plate.

Preferably, the force removing flitch unit comprises a flitch bevel gear which is engaged and connected with a tie bevel gear, a flitch rotating shaft is arranged on the flitch bevel gear, the flitch rotating shaft passes through a fixed motion base and is connected with a first pulley, the first pulley is connected with a second pulley through a connecting belt, a closing motion rotating shaft is arranged on the second pulley, the closing motion rotating shaft passes through a closing motion gear and is in transmission connection with a cover body, the closing motion gear is engaged and connected with two closing motion racks, the closing motion racks are in sliding connection with a closing motion sliding box arranged on the cover body, an extension plate is arranged on the closing motion racks, extension rods are arranged on the extension plate, and two ends of each extension rod are connected with an extension base arranged on the cover body; the extension bar is sleeved with an extension spring, one end of the extension spring is fixedly connected with the extension base, the other end of the extension spring is fixedly connected with the extension plate, the extension plate is provided with a sticking bar, and the two sticking bars are connected with the moment rotating shaft in a matched mode.

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

according to the beef food seasoning, various raw materials such as edible salt and edible oil are compounded, the multiple taste of the seasoning is improved, the functional effect of the product is enriched, the preparation method is optimized in preparation, through improvement of the stirring device, the transmission fluted disc on the specific driven rotating shaft rotates, then the shaking rod moves back and forth in the rectangular groove, the rectangular rod and the combined double rod on the rectangular block move back and forth on the rectangular base and the combined base, the rectangular spring and the combined spring are constantly in a buffer and reset state, the rectangular movable rack connected with the rectangular rod and the combined double rod moves back and forth and meshes with the rectangular movable gear to rotate back and forth, the scraping rod and the stirring rod on the rectangular movable rotating shaft rotate in the seasoning barrel, and as the rectangular movable gear rotates back and forth, the stirring rod rotates in one direction in the seasoning barrel and then rotates automatically in a reset mode, the stirring rod can rotate in different directions, the same direction, the raw materials are prevented from being bonded together by stirring, and meanwhile, when the rectangular movable rotating shaft is driven to rotate, the scraping rod is attached to the inner wall of the seasoning barrel, the inner wall of the seasoning barrel is prevented from being adhered to the inner wall of the seasoning barrel, and the raw materials can be prevented from being wasted due to the fact that the uniform stirring is not caused;

(2) The bearing plate on the extension rod moves downwards, the bearing post contacts the ground and continues to move after moving to a certain distance, so that the bearing post moves in the bearing sleeve in a limiting way, the extrusion spring and the limiting spring are in a buffer state, meanwhile, the rubber layer is arranged on the bearing post to increase the friction force between the bearing post and the ground to avoid sliding, meanwhile, the stabilizing rack moves to the maximum position, at the moment, the stabilizing gear is meshed with the gear teeth, the cross rod of the stabilizing rack contacts the vertical rod on the stabilizing slide box in the drawing, so that the closing base moves back and forth on the transfer rod, the transfer spring is in a compression and reset state continuously, the force applied to the bearing post on the bearing post is always present, when the stirring process leads to shaking of the batching barrel, the bearing post on the bearing sleeve is still in a certain distance, the force accepted by one side of the bearing post on the floor is larger than that on the other side when shaking of the batching barrel, and then the stabilizing system is reset when shaking, so that a certain buffer force is provided for the batching barrel when shaking, and the stability of stirring is improved;

(3) The cooperation of the double-acting bevel gear and the auxiliary bevel gear enables the lug on the auxiliary rotating shaft to rotate, the lug is in contact with the traversing square plate in a matching way, so that when the lug contacts the traversing square plate in rotation, a traversing rod on the traversing square plate moves on the auxiliary square plate, the traversing spring is in a buffer state, when the lug rotates, the lug does not contact the traversing square plate any more, so that the traversing spring is reset, then the beating spheres on the traversing rod are reset, the two beating spheres are in reciprocating contact with the outer wall of the batching bucket, the phenomenon that the batching bucket resonates is avoided, a large amount of raw materials are not stirred due to adhesion on the inner wall of the batching bucket in stirring, stirring efficiency is improved;

(4) The spring on the armature shaft is in a buffer state, one end of the spring is connected with the fixed base, the armature gear is further meshed with the armature rack to move in a limiting mode on the armature rod, the two armature springs are in opposite buffer, the two clamp circular plates move oppositely and simultaneously clamp the batching barrel and then do not move, as the batching can shake in the through state when being stirred, the batching barrel can shake, the batching barrel contacts the clamp circular plates when the batching barrel shakes, the active rod moves on the L-shaped plate, and the active spring is in a buffer state, so that the stability of stirring is improved;

(5) The combined moving rotating shaft on the second pulley rotates, so that the combined moving gear is driven to engage the two combined moving racks to move, the lengthening plate is limited to move on the lengthening rod, the lengthening spring is in a buffer state, and then the two attaching rods are contacted into the moment moving rotating shaft, so that ingredients adhered to the moment moving rotating shaft can be scraped, the utilization rate of the ingredients is improved, the waste is reduced, and meanwhile, the mixing degree of stirring is improved;

(6) Through the handle on the linkage board of outwards pulling simultaneously for two brake blocks on the linkage board are spacing to remove on the brake groove, and brake spring on the brake lever is in the state of buffering, make two linkage inserted bar contact and to the spacing setting of installation piece then, can accomplish the dismantlement work to this agitating unit through upwards pulling the lid, the device is all integrated on the lid simultaneously, is convenient for wash the part of stirring, is convenient for wash the batching bucket simultaneously, runs into the batching bucket and needs the stirring directly to install the lid can, has reduced the limitation of device when using.

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 view of a mounting plate according to the present invention;

FIG. 3 is a schematic diagram of a double-action clearing mechanism according to the present invention;

FIG. 4 is a schematic view of the structure of the rotary force impact assembly of the present invention;

FIG. 5 is a schematic view of the internal structure of the compounding barrel of the present invention;

FIG. 6 is a schematic diagram of a tightly controlled quick release unit according to the present invention;

FIG. 7 is a schematic view of a side stabilizer assembly according to the present invention;

FIG. 8 is a schematic view of the structure of the inventive force-removing flitch unit;

FIG. 9 is a schematic diagram of a two-way stabilization mechanism according to the present invention;

FIG. 10 is a schematic view of a bearing sleeve according to the present invention;

FIG. 11 is a schematic view of a partial enlarged structure of the present invention A;

in the figure: 1. a dosing barrel; 2. a cover body; 3. a mounting plate; 4. a bolt; 5. a driving motor; 6. a driving block; 7. a drive bevel gear; 8. a driving groove; 9. a driven bevel gear; 10. a driven rotating shaft; 11. a transmission fluted disc; 12. rotating the gear; 13. rotating the rotating shaft; 14. a driving pulley; 15. a conveyor belt; 16. a driven pulley; 17. a force-driven rotating shaft; 18. double-acting bevel gears; 19. a steady bevel gear; 20. a stable rotating shaft; 21. a steady gear; 22. a stationary base; 23. a bevel gear is engaged; 24. an auxiliary bevel gear; 25. an auxiliary rotating shaft; 26. an auxiliary base; 27. a bump; 28. traversing the square plate; 29. a traverse bar; 30. auxiliary square plates; 31. striking the ball; 32. a linkage different rod; 33. a traversing spring; 34. a steady rack; 35. a steady sliding block; 36. a steady sliding box; 37. a connecting plate; 38. a linkage substrate; 39. a linkage rod; 40. a linkage spring; 41. a rocking lever; 42. rectangular blocks; 43. rectangular grooves; 44. a rectangular bar; 45. a rectangular base; 46. a moment-driven rack; 47. a rectangular spring; 48. combining the double rods; 49. a joint base; 50. a first baffle; 51. a combination spring; 52. a moment gear; 53. a moment-motion rotating shaft; 54. a scraper bar; 55. a stirring rod; 56. an extension rod; 57. a fixing seat; 58. a bearing plate; 59. a bearing sleeve; 60. a bearing column; 61. sticking a floor; 62. a limiting block; 63. a limit groove; 64. extruding a spring; 65. a limit spring; 66. a transfer base; 67. a transfer lever; 68. a combined base; 69. a transfer spring; 70. gear teeth; 71. a mounting block; 72. a mounting groove; 73. a linkage slot; 74. a linkage inserted link; 75. a linkage plate; 76. a brake block; 77. a brake groove; 78. a brake lever; 79. a brake spring; 80. a rope; 81. a fixed pulley; 82. a paying-off wheel; 83. a fixed rotating shaft; 84. a stationary base; 85. a bevel gear is engaged; 86. a connecting shaft; 87. a clockwork spring; 88. a connecting gear; 89. a rack is engaged; 90. a linkage plate; 91. a tie rod; 92. auxiliary connection different plates; 93. a spring is engaged; 94. an L square plate; 95. a driving rod; 96. attaching and clamping a circular plate; 97. an active spring; 98. pasting a bevel gear; 99. pasting a rotating shaft; 100. a first pulley; 101. a connecting belt; 102. a second pulley; 103. a rotating shaft is combined; 104. a clutch gear; 105. a rack is combined; 106. closing the sliding box; 107. a lengthening plate; 108. an extension bar; 109. lengthening the base; 110. lengthening the spring; 111. and (5) sticking a rod.

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.

The beef food seasoning comprises the following raw materials in parts by weight:

1 part of edible salt, 3.5 parts of edible oil, 2 parts of soy sauce powder, 1.5 parts of high nucleic acid yeast extract, 2 parts of garlic powder, 2 parts of chilli powder and 20 parts of water.

A method for mixing beef food seasoning ingredients, comprising the steps of:

step one, putting raw materials or ingredients and the like into an ingredient barrel 1 of a stirring device, starting a driving motor 5 to enable a transmission fluted disc 11 on a driven rotating shaft 10 to rotate, enabling a rectangular rod 44 and a rectangular rack 46 connected with a double-rod 48 to reciprocate, and meshing a rectangular gear 52 to reciprocate;

step two, the moment gear 52 is reciprocally rotated to avoid raw materials from being stuck together due to constant stirring in the same direction, and the scraping rod 54 is attached to the inner wall of the batching bucket 1, so that the raw materials or the ingredients adhered to the inner wall of the batching bucket 1 can be scraped;

step three, the driving fluted disc 11 drives the rotating gear 12 to rotate when rotating, so that the striking spheres 31 on the traverse bar 29 are reset, and the two striking spheres 31 are in reciprocating contact with the outer wall of the batching bucket 1.

As shown in fig. 1 to 11, the stirring device of the invention comprises a batching barrel 1, wherein the batching barrel 1 and a cover body 2 are connected through a tight control speed-relieving unit; the cover body 2 is provided with a mounting plate 3, and the mounting plate 3 is fixedly connected with the cover body 2 through a bolt 4; a driving motor 5 is fixedly arranged on the mounting plate 3, and the driving motor 5 is connected with the double-acting cleaning mechanism; the double-acting cleaning mechanism comprises a driving block 6 arranged at the output end of a driving motor 5, and the driving block 6 is connected with a driving groove 8 arranged on a driving bevel gear 7; the driving bevel gear 7 is in meshed connection with the driven bevel gear 9, a driven rotating shaft 10 is arranged on the driven bevel gear 9, one end of the driven rotating shaft 10 is in transmission connection with the cover body 2, the other end of the driven rotating shaft 10 is in connection with the transmission fluted disc 11, the transmission fluted disc 11 is in meshed connection with two rotating gears 12, a rotating shaft 13 is arranged on the rotating gears 12, and the rotating shaft 13 is in transmission connection with the cover body 2; a driving pulley 14 is arranged on the rotating shaft 13, and the driving pulley 14 is connected with the rotating force impact assembly; a rocking rod 41 is arranged on the top surface of the transmission fluted disc 11, and the rocking rod 41 is arranged in a sliding connection with a rectangular groove 43 arranged on a rectangular block 42; a rectangular rod 44 is arranged on the rectangular block 42, and the rectangular rod 44 penetrates through a rectangular base 45 fixedly arranged on the cover body 2 to be connected with a rectangular moving rack 46; a rectangular spring 47 is sleeved on the rectangular rod 44, one end of the rectangular spring 47 is fixedly connected with the rectangular base 45, the other end of the rectangular spring is fixedly connected with the rectangular moving rack 46, a combined double rod 48 is mounted on the rectangular moving rack 46, and the combined double rod 48 penetrates through a combined base 49 fixedly arranged on the cover body 2 to be connected with the first baffle 50; the combined double rod 48 is sleeved with a combined spring 51, one end of the combined spring 51 is fixedly connected with the first baffle 50, and the other end of the combined spring is fixedly connected with the combined base 49; the moment-moving rack 46 is in meshed connection with a moment-moving gear 52, a moment-moving rotating shaft 53 is arranged on the moment-moving gear 52, the moment-moving rotating shaft 53 penetrates through the cover body 2 and is fixedly connected with a scraping rod 54, and a plurality of stirring rods 55 are arranged on the scraping rod 54;

an operator puts raw materials or ingredients and the like into the ingredients barrel 1, the driving bevel gear 7 is driven to rotate by starting the driving motor 5, the driving fluted disc 11 on the driven rotating shaft 10 rotates, the shaking rod 41 is enabled to reciprocate in the rectangular groove 43, the rectangular rod 44 and the combined double rod 48 on the rectangular block 42 reciprocate on the rectangular base 45 and the combined base 49, the rectangular spring 47 and the combined spring 51 are enabled to be in a buffer and reset state continuously, the rectangular rack 46 connected with the rectangular rod 44 and the combined double rod 48 reciprocates and is meshed with the rectangular gear 52 to rotate in a reciprocating mode, the scraping rod 54 and the stirring rod 55 on the rectangular rotating shaft 53 rotate in the ingredients barrel 1, the rectangular gear 52 rotates in a reciprocating mode, the stirring rod 55 rotates in one direction and then rotates in a certain number of turns in the ingredients barrel 1, the stirring rod 55 can rotate in different directions, the raw materials are prevented from being bonded together due to the fact that the stirring is carried out in the same direction, meanwhile, the rectangular rotating shaft 53 drives the scraping rod 54 to rotate, the inner wall of the same stirring barrel is prevented from being adhered to the inner wall of the ingredients barrel 1, and the raw materials can be prevented from being adhered to the inner wall of the ingredients from being mixed evenly, and the raw materials can be prevented from being wasted due to the fact that the inner wall of the mixing barrel is adhered to the inner wall of the ingredients is not being evenly mixed.

Referring to fig. 1 and 4, the rotary power impact assembly of the present embodiment includes a conveyor belt 15 disposed on a driving pulley 14, the conveyor belt 15 is connected with a driven pulley 16, a power rotating shaft 17 is mounted on the driven pulley 16, one end of the power rotating shaft 17 is connected with a cover 2 in a transmission manner, the other end is connected with a double-acting bevel gear 18, the double-acting bevel gear 18 is meshed with a stable bevel gear 19, a stable rotating shaft 20 is mounted on the stable bevel gear 19, a stable gear 21 is mounted on the stable rotating shaft 20, and the stable gear 21 is connected with a side stable body connecting assembly; the stabilizing rotating shaft 20 passes through a stabilizing base 22 arranged on the cover body 2 and is connected with a combining bevel gear 23, the combining bevel gear 23 is meshed with an auxiliary bevel gear 24, an auxiliary rotating shaft 25 is arranged on the auxiliary bevel gear 24, the auxiliary rotating shaft 25 passes through an auxiliary base 26 arranged on the stabilizing base 22 and is connected with a bump 27, the bump 27 is matched and connected with a traversing square plate 28, traversing rods 29 are symmetrically arranged on the traversing square plate 28, and the traversing rods 29 pass through an auxiliary square plate 30 and are fixedly connected with a striking sphere 31; the auxiliary square plate 30 is provided with a linkage different rod 32, and the linkage different rod 32 is fixedly connected with the auxiliary base 26; the transverse rod 29 is sleeved with a transverse spring 33, one end of the transverse spring 33 is fixedly connected with the auxiliary square plate 30, and the other end of the transverse spring 33 is fixedly connected with the transverse square plate 28;

the transmission fluted disc 11 drives the rotation of the rotating gear 12 when rotating, so that the force rotating shaft 17 on the driven pulley 16 rotates, the lug 27 on the auxiliary rotating shaft 25 rotates through the cooperation of the double-acting bevel gear 18 and the auxiliary bevel gear 24, the lug 27 contacts with the transverse square plate 28 in a matched manner, when the lug 27 contacts with the transverse square plate 28 when rotating, the transverse rod 29 on the transverse square plate 28 moves on the auxiliary square plate 30, the transverse spring 33 is in a buffer state, when the lug 27 rotates, the transverse spring 33 is reset after the lug 27 does not contact with the transverse square plate 28 any more, the striking sphere 31 on the transverse rod 29 is reset, so that the two striking spheres 31 are in reciprocating contact with the outer wall of the batching bucket 1, the phenomenon that the batching bucket 1 resonates is avoided, a large amount of raw materials are adhered on the inner wall of the stirring bucket, the stirring bucket is even, and the stirring efficiency is improved.

Referring to fig. 5, 7, 10 and 11, the lateral stable body connecting assembly of the present embodiment includes a stable moving rack 34 engaged with and connected to the stable moving gear 21, a stable moving slide block 35 is mounted on the stable moving rack 34, the stable moving slide block 35 is slidably connected to a stable moving slide box 36, and the stable moving slide box 36 is connected to the stable moving base 22 through a connecting plate 37; a linkage base plate 38 is arranged on the stable sliding block 35, a linkage rod 39 is arranged on the linkage base plate 38, and the linkage rod 39 penetrates through the connecting plate 37 to be connected with the clamping plate; a linkage spring 40 is sleeved on the linkage rod 39, one end of the linkage spring 40 is fixedly connected with the linkage base plate 38, and the other end of the linkage spring is fixedly connected with the connecting plate 37; an extension rod 56 is arranged on the stable moving rack 34, a fixed seat 57 is arranged on the extension rod 56, and the fixed seat 57 is connected with the two-way stable-making mechanism; a bearing plate 58 is fixedly arranged on the extension rod 56, bearing sleeves 59 are symmetrically arranged on the bearing plate 58, the bearing sleeves 59 are arranged in a sliding connection with bearing columns 60, and the two bearing columns 60 are connected with a floor 61; a plurality of limiting blocks 62 are arranged on the bearing post 60, the limiting blocks 62 are slidably connected with a plurality of limiting grooves 63 arranged in the bearing sleeve 59, the limiting grooves 63 are connected with the limiting blocks 62 through extrusion springs 64, and the bearing sleeve 59 is connected with the bearing post 60 through limiting springs 65; transfer bases 66 are symmetrically arranged on the stable moving racks 34, transfer rods 67 are fixedly arranged on the transfer bases 66, and the two transfer rods 67 penetrate through a combined moving base 68 to be connected with a bottom plate; a transfer spring 69 is sleeved on the transfer rod 67, one end of the transfer spring 69 is fixedly connected with the transfer base 66, the other end of the transfer spring is fixedly connected with the combined base 68, and gear teeth 70 are arranged on the combined base 68;

the steady rotation shaft 20 drives the steady gear 21 to rotate when rotating, so that the engaged steady rack 34 moves down on the steady sliding box 36 in a limiting manner, the linkage spring 40 is in a buffering manner, then the bearing plate 58 on the extension rod 56 moves down, after moving to a certain distance, the bearing post 60 contacts the ground and continues to move, so that the bearing post 60 moves in the bearing sleeve 59 in a limiting manner, the extrusion spring 64 and the limiting spring 65 are in a buffering manner, meanwhile, a rubber layer is mounted on the bearing post 60 and can increase friction force between the bearing post and the ground to avoid sliding, meanwhile, the steady rack 34 moves to a maximum position, at the moment, the steady gear 21 is engaged with the gear teeth 70, and as the cross rod of the steady rack 34 contacts the vertical rod on the steady sliding box 36 in fig. 7, the bearing plate 68 moves back and forth on the transfer rod 67, the bearing plate 69 is in a compressing and resetting manner, so that force applied to the bearing post 60 always exists on the bearing post 61, when the bearing post 60 shakes, the bearing post 60 of the former is in a buffering manner, the bearing post 59 is still in a certain distance, when the bearing post 1 shakes, the bearing post 1 is still in a certain distance, and the shaking post is in a shaking manner, when the stirring post is in a shaking manner, the shaking motion is still caused on one side of the bearing post 1, and a shaking post is in a stable manner, when the shaking motion is still caused on the side of the floor 1 is in a certain side, which is in a stable manner, is in which is in a stable condition when the shaking motion is caused.

Referring to fig. 5 and 6, the tight control quick release unit of the present embodiment includes mounting blocks 71 symmetrically disposed on the batch bucket 1, where the mounting blocks 71 are connected with mounting grooves 72 disposed on the cover 2; the installation blocks 71 are symmetrically provided with linkage slots 73, the linkage slots 73 are connected with linkage inserting rods 74, the two linkage inserting rods 74 are connected with a linkage plate 75 together, brake blocks 76 are symmetrically installed on the bottom surface of the linkage plate 75, the two brake blocks 76 are slidably connected with a brake groove 77 arranged on the cover body 2, a brake rod 78 is installed on the brake groove 77, a brake spring 79 is sleeved on the brake rod 78, one end of the brake spring 79 is fixedly connected with the brake groove 77, and the other end of the brake spring 79 is fixedly connected with the brake block 76;

through the handle on the linkage plate 75 of simultaneously outwards pulling for two brake pads 76 on the linkage plate 75 are spacing removal on the brake groove 77, and brake spring 79 on the brake lever 78 is in the state of buffering, then makes two linkage inserted bars 74 contact the spacing setting to the installation piece 71, can accomplish the dismantlement work to this agitating unit through pulling lid 2 upwards, and the device is all integrated on lid 2 simultaneously, is convenient for wash the part of stirring, is convenient for wash batching bucket 1 simultaneously, runs into batching bucket and needs the stirring directly to install lid 2 can, has reduced the limitation of device when using.

Referring to fig. 1, 5 and 9, the bi-directional stabilizing mechanism of the present embodiment includes a rope 80 disposed on a fixed seat 57, where the rope 80 is connected to a paying-off wheel 82 through a fixed pulley 81; a fixed moving rotating shaft 83 is arranged on the fixed pulley 81, one end of the fixed moving rotating shaft 83 is in transmission connection with a fixed moving base 84 arranged on the linkage different rod 32, the other end of the fixed moving rotating shaft is connected with a moving bevel gear 85, and the moving bevel gear 85 is connected with a force removing flitch unit; the paying-off wheel 82 is provided with an engagement rotating shaft 86, one end of the engagement rotating shaft 86 passes through the fixed base 84 to be connected with the spring 87, the other end of the engagement rotating shaft is connected with an engagement gear 88, the engagement gear 88 is in engagement connection with an engagement rack 89, the engagement rack 89 is symmetrically provided with engagement plates 90, the engagement plates 90 are in sliding connection with an engagement rod 91, and two ends of the engagement rod 91 are connected with auxiliary linkage different plates 92 arranged on the fixed base 84; the engagement rod 91 is sleeved with an engagement spring 93, one end of the engagement spring 93 is fixedly connected with the engagement plate 90, and the other end is connected with the auxiliary linkage different plate 92; an L square plate 94 is arranged on the moving rack 89, a plurality of driving rods 95 are arranged on the L square plate 94, and the driving rods 95 are connected with a pasting and clamping circular plate 96; the driving rod 95 is sleeved with a driving spring 97, one end of the driving spring 97 is connected with the attaching and clamping circular plate 96, and the other end of the driving spring is connected with the L-shaped plate 94;

the extension rod 56 makes the paying-off wheel 82 rotate through the cooperation of the fixing seat 57, the rope 80 and the fixed pulley 81 when descending, then makes the clockwork spring 87 on the armature rotating shaft 86 be in a buffering state, one end of the clockwork spring 87 is connected with the fixed base 84, further makes the armature gear 88 engage the armature rack 89 to move on the armature rod 91 in a limiting manner, makes the two armature springs 93 in opposite buffering, makes the two clamp circular plates 96 move oppositely and simultaneously clamp the batching bucket 1 and then does not move any more, and because the batching can shake in the through when being stirred, the batching can shake to further cause the batching bucket 1 to shake, and when the batching bucket 1 shakes, the clockwork springs 96 are contacted, so that the active rod 95 moves on the L square plate 94, and the active spring 97 is in a buffering state, thereby improving the stability when stirring.

Referring to fig. 1, 8 and 9, the force removing flitch unit of the present embodiment includes a flitch gear 98 engaged with a bevel gear 85, a flitch shaft 99 mounted on the flitch gear 98, a flitch shaft 99 passing through a fixed base 84 and connected with a first pulley 100, the first pulley 100 connected with a second pulley 102 through a connecting belt 101, a closing rotation shaft 103 mounted on the second pulley 102, a closing rotation shaft 103 passing through a closing gear 104 and connected with a cover 2 in a transmission manner, a closing gear 104 engaged with two closing racks 105, a closing rack 105 slidably connected with a closing slide box 106 provided on the cover 2, an extension plate 107 mounted on the closing rack 105, an extension rod 108 mounted on the extension plate 107, and extension bases 109 provided on the cover 2 and connected with two ends of the extension rod 108; the lengthening bar 108 is sleeved with a lengthening spring 110, one end of the lengthening spring 110 is fixedly connected with the lengthening base 109, the other end of the lengthening spring is fixedly connected with the lengthening plate 107, the lengthening plate 107 is provided with a sticking bar 111, and the two sticking bars 111 are connected with the moment rotating shaft 53 in a matched manner;

the fixed pulley 81 can drive the fixed rotating shaft 83 to rotate when rotating, so that the combined rotating shaft 103 on the second pulley 102 rotates, and then the combined gear 104 is driven to engage with the two combined racks 105 to move, so that the lengthening plate 107 is limited to move on the lengthening rod 108, the lengthening spring 110 is in a buffer state, and then the two paste rods 111 are contacted into the moment rotating shaft 53, so that ingredients adhered to the moment rotating shaft 53 can be scraped, the utilization rate of the ingredients is improved, the waste is reduced, and meanwhile, the mixing degree of stirring is improved.

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 (4)

1. The preparation method of the beef food seasoning ingredient is characterized by comprising the following raw materials in parts by weight:

1-4 parts of edible salt, 2-5 parts of edible oil, 1-3 parts of soy sauce powder, 1-2 parts of high nucleic acid yeast extract, 1-4 parts of garlic powder, 1-3 parts of chilli powder and 15-25 parts of water;

the preparation method of the beef food seasoning comprises the following steps:

firstly, putting raw materials into a batching barrel (1) of a stirring device, starting a driving motor (5) to enable a transmission fluted disc (11) on a driven rotating shaft (10) to rotate, enabling a rectangular rod (44) and a rectangular rack (46) connected with a combined double rod (48) to reciprocate, and meshing a rectangular gear (52) to reciprocate;

step two, the moment-driven gear (52) rotates reciprocally, so that raw materials are prevented from being bonded together due to constant stirring in the same direction, and the scraping rod (54) is attached to the inner wall of the batching bucket (1) so that the raw materials or the ingredients adhered to the inner wall of the batching bucket (1) can be scraped;

step three, the transmission fluted disc (11) drives the rotating gear (12) to rotate when rotating, so that the striking spheres (31) on the traverse bar (29) are reset, and the two striking spheres (31) are in reciprocating contact with the outer wall of the batching barrel (1);

the stirring device comprises a batching barrel (1), wherein the batching barrel (1) and the cover body (2) are connected through a tight control speed-relieving unit; the cover body (2) is provided with a mounting plate (3), and the mounting plate (3) is fixedly connected with the cover body (2) through bolts (4); a driving motor (5) is fixedly arranged on the mounting plate (3), and the driving motor (5) is connected with the double-acting cleaning mechanism;

the double-acting cleaning mechanism comprises a driving block (6) arranged at the output end of a driving motor (5), and the driving block (6) is connected with a driving groove (8) arranged on a driving bevel gear (7); the driving bevel gear (7) is connected with the driven bevel gear (9) in a meshed mode, a driven rotating shaft (10) is arranged on the driven bevel gear (9), one end of the driven rotating shaft (10) is in transmission connection with the cover body (2), the other end of the driven rotating shaft is connected with the transmission fluted disc (11), the transmission fluted disc (11) is connected with two rotating gears (12) in a meshed mode, a rotating shaft (13) is arranged on the rotating gears (12), and the rotating shaft (13) is in transmission connection with the cover body (2); a driving pulley (14) is arranged on the rotating shaft (13), and the driving pulley (14) is connected with the rotating force impact assembly; a rocking rod (41) is arranged on the top surface of the transmission fluted disc (11), and the rocking rod (41) is arranged in a sliding connection with a rectangular groove (43) arranged on the rectangular block (42); a rectangular rod (44) is arranged on the rectangular block (42), and the rectangular rod (44) penetrates through a rectangular base (45) fixedly arranged on the cover body (2) to be connected with a rectangular moving rack (46); a rectangular spring (47) is sleeved on the rectangular rod (44), one end of the rectangular spring (47) is fixedly connected with the rectangular base (45), the other end of the rectangular spring is fixedly connected with the rectangular moving rack (46), a combined double rod (48) is arranged on the rectangular moving rack (46), and the combined double rod (48) penetrates through a combined base (49) fixedly arranged on the cover body (2) to be connected with the first baffle (50); a combined spring (51) is sleeved on the combined double rod (48), one end of the combined spring (51) is fixedly connected with the first baffle (50), and the other end of the combined spring is fixedly connected with the combined base (49); the rectangular moving rack (46) is connected with a rectangular moving gear (52) in a meshed manner, a rectangular moving rotating shaft (53) is arranged on the rectangular moving gear (52), the rectangular moving rotating shaft (53) penetrates through the cover body (2) and is fixedly connected with the scraping rod (54), and a plurality of stirring rods (55) are arranged on the scraping rod (54);

the rotary force impact assembly comprises a conveying belt (15) arranged on a driving pulley (14), the conveying belt (15) is connected with a driven pulley (16), a force rotating shaft (17) is arranged on the driven pulley (16), one end of the force rotating shaft (17) is in transmission connection with a cover body (2), the other end of the force rotating shaft is connected with a compound rotating bevel gear (18), the compound rotating bevel gear (18) is in meshed connection with a stable rotating bevel gear (19), a stable rotating shaft (20) is arranged on the stable rotating bevel gear (19), a stable rotating gear (21) is arranged on the stable rotating shaft (20), and the stable rotating gear (21) is connected with a side stable body connecting assembly; the stabilizing rotating shaft (20) penetrates through a stabilizing base (22) arranged on the cover body (2) to be connected with the closing bevel gear (23), the closing bevel gear (23) is connected with the auxiliary bevel gear (24) in a meshed mode, the auxiliary rotating shaft (25) is arranged on the auxiliary bevel gear (24), the auxiliary rotating shaft (25) penetrates through an auxiliary base (26) arranged on the stabilizing base (22) to be connected with the protruding block (27), the protruding block (27) is connected with the traversing square plate (28) in a matched mode, traversing rods (29) are symmetrically arranged on the traversing square plate (28), and the traversing rods (29) penetrate through the auxiliary square plate (30) to be fixedly connected with the striking balls (31); the auxiliary square plate (30) is provided with a linkage different rod (32), and the linkage different rod (32) is fixedly connected with the auxiliary base (26); a transverse spring (33) is sleeved on the transverse rod (29), one end of the transverse spring (33) is fixedly connected with the auxiliary square plate (30), and the other end of the transverse spring is fixedly connected with the transverse square plate (28);

the side stable body connecting component comprises a stable moving rack (34) which is meshed with the stable moving gear (21), a stable moving sliding block (35) is arranged on the stable moving rack (34), the stable moving sliding block (35) is connected with a stable moving sliding box (36) in a sliding manner, and the stable moving sliding box (36) is connected with a stable moving base (22) through a connecting plate (37); a linkage base plate (38) is arranged on the stable sliding block (35), a linkage rod (39) is arranged on the linkage base plate (38), and the linkage rod (39) penetrates through the connecting plate (37) to be connected with the clamping plate; a linkage spring (40) is sleeved on the linkage rod (39), one end of the linkage spring (40) is fixedly connected with the linkage base plate (38), and the other end of the linkage spring is fixedly connected with the connecting plate (37); an extension rod (56) is arranged on the stable moving rack (34), a fixed seat (57) is arranged on the extension rod (56), and the fixed seat (57) is connected with the two-way stable making mechanism; a bearing plate (58) is fixedly arranged on the extension rod (56), bearing sleeves (59) are symmetrically arranged on the bearing plate (58), the bearing sleeves (59) are slidably connected with bearing columns (60), and the two bearing columns (60) are jointly connected with a floor (61); a plurality of limiting blocks (62) are arranged on the bearing column (60), the limiting blocks (62) are slidably connected with a plurality of limiting grooves (63) arranged in the bearing sleeve (59), the limiting grooves (63) are connected with the limiting blocks (62) through extrusion springs (64), and the bearing sleeve (59) is connected with the bearing column (60) through limiting springs (65); transfer bases (66) are symmetrically arranged on the stable moving racks (34), transfer rods (67) are fixedly arranged on the transfer bases (66), and the two transfer rods (67) penetrate through the combined moving bases (68) to be connected with the bottom plate; transfer spring (69) is sleeved on transfer rod (67), one end of transfer spring (69) is fixedly connected with transfer base (66), the other end of transfer spring is fixedly connected with combining base (68), and gear teeth (70) are arranged on combining base (68).

2. The method of preparing a beef food flavoring according to claim 1, wherein: the tight control speed-resolving unit comprises mounting blocks (71) symmetrically arranged on the batching barrel (1), and the mounting blocks (71) are connected with mounting grooves (72) arranged on the cover body (2); the installation piece (71) is last the symmetry to be equipped with linkage slot (73), linkage slot (73) are connected with linkage inserted bar (74) and are set up, linkage board (75) are connected jointly to two linkage inserted bars (74), install brake block (76) on the bottom surface of linkage board (75) symmetry, brake groove (77) sliding connection that are equipped with on two brake blocks (76) and lid (2) sets up, install brake lever (78) on brake groove (77), the cover is equipped with brake spring (79) on brake lever (78), one end and brake groove (77) fixed connection of brake spring (79) set up, the other end and brake block (76) fixed connection set up.

3. A method of preparing a beef food flavoring according to claim 2, wherein: the two-way stabilizing mechanism comprises a rope (80) arranged on the fixed seat (57), and the rope (80) is connected with the paying-off wheel (82) through a fixed pulley (81); a fixed moving rotating shaft (83) is arranged on the fixed pulley (81), one end of the fixed moving rotating shaft (83) is in transmission connection with a fixed moving base (84) arranged on the linkage different rod (32), the other end of the fixed rotating shaft is connected with a connecting bevel gear (85), and the connecting bevel gear (85) is connected with a force removing flitch unit; a connecting rotating shaft (86) is arranged on the paying-off wheel (82), one end of the connecting rotating shaft (86) penetrates through the fixed base (84) to be connected with the clockwork spring (87), the other end of the connecting rotating shaft is connected with the connecting gear (88), the connecting gear (88) is connected with a connecting rack (89) in a meshed mode, connecting plates (90) are symmetrically arranged on the connecting rack (89), the connecting plates (90) are in sliding connection with connecting rods (91), and two ends of the connecting rods (91) are connected with auxiliary connecting different plates (92) arranged on the fixed base (84); the engagement rod (91) is sleeved with an engagement spring (93), one end of the engagement spring (93) is fixedly connected with the engagement plate (90), and the other end of the engagement spring is connected with the auxiliary linkage different plate (92); an L square plate (94) is arranged on the moving rack (89), a plurality of driving rods (95) are arranged on the L square plate (94), and the driving rods (95) are connected with a clamp circular plate (96); the driving rod (95) is sleeved with a driving spring (97), one end of the driving spring (97) is connected with the attaching and clamping circular plate (96), and the other end of the driving spring is connected with the L-shaped square plate (94).

4. A method of preparing a beef food flavoring according to claim 3, wherein: the force removing flitch unit comprises a flitch gear (98) which is connected with a movable bevel gear (85) in a meshed manner, a movable rotating shaft (99) is arranged on the flitch gear (98), the movable rotating shaft (99) passes through a fixed moving base (84) and is connected with a first pulley (100), the first pulley (100) is connected with a second pulley (102) through a connecting belt (101), a movable rotating shaft (103) is arranged on the second pulley (102), the movable rotating shaft (103) passes through a movable gear (104) and is connected with a cover body (2) in a transmission manner, the movable gear (104) is connected with two movable racks (105) in a meshed manner, the movable racks (105) are connected with a movable sliding box (106) arranged on the cover body (2) in a sliding manner, extension plates (107) are arranged on the movable racks (105), and two ends of each extension plate (107) are connected with an extension base (109) arranged on the cover body (2); the lengthening rod (108) is sleeved with a lengthening spring (110), one end of the lengthening spring (110) is fixedly connected with the lengthening base (109), the other end of the lengthening spring is fixedly connected with the lengthening plate (107), the lengthening plate (107) is provided with a sticking rod (111), and the two sticking rods (111) are connected with the moment rotating shaft (53) in a matched mode.