CN115445697A - Dendrobe bioactive peptide reducing mechanism - Google Patents

Abstract

The invention discloses a dendrobe bioactive peptide smashing device, which comprises: the base, be provided with the mounting bracket on the base, the mounting bracket left end is provided with feed mechanism, feed mechanism is including setting up mount on the base, the mount top transversely is provided with first conveyer belt, the front end of first conveyer belt is provided with the stock guide, crushing mechanism sets up the middle part of mounting bracket, wherein, crushing mechanism is including the guide post of perpendicular setting in the mounting bracket, the lower extreme is equipped with fly leaf and lower movable plate respectively to the movable sleeve respectively on the guide post outer wall, and this device during operation can carry the smashing to stem of noble dendrobium bioactive peptide powder in succession, and the stem of noble dendrobium bioactive peptide powder after smashing can fall into down one process automatically, realizes automated production, and has reached crushing effect good, labour saving and time saving, effect that work efficiency is high when smashing.

Description

Dendrobe bioactive peptide reducing mechanism

The technical field is as follows:

the invention relates to the field of food crushing equipment, in particular to a dendrobe bioactive peptide crushing device.

The background art comprises the following steps:

the dried stem of the herb can be processed into maple bucket, which is known as the first of nine major immortals grass in China. Dendrobium officinale has the effects of benefiting stomach, promoting fluid production, nourishing yin and clearing heat and can be used for treating symptoms such as bone steaming, fatigue heat, stomach yin deficiency, fire excess, dry mouth, polydipsia and the like. In recent years, separation technology and biotechnology are rapidly developed, researchers can carry out detailed research on chemical components and biological activity of the litholysis, and find that the litholysis components are various and have various biological activities, so that the litholysis components not only can benefit the stomach and promote the production of body fluid, but also have the effects of resisting tumors and reducing blood sugar.

Bioactive peptides (bioactive peptides) are polypeptide compounds consisting of 20 natural amino acids, as small as two amino acids and as large as several hundred amino acids, and having specific biological functions. Peptides, although composed of amino acids, have many functions that are not possessed by a single amino acid. Bioactive peptides can be obtained by hydrolyzing proteins, and their biological activity is also released during the hydrolysis process. With the progress of research, various biological activities of bioactive peptides have been proved by a great deal of research, and activities of reducing blood sugar, inhibiting bacteria, resisting cancer, resisting virus, regulating immunity, etc. are often mentioned. Therefore, the bioactive peptide is expected to become a natural resource treasure house for screening medicaments by human beings.

When the bioactive peptide is prepared, the bioactive peptide is usually prepared in a crystallization mode, the volume of the crystallized bioactive peptide is different, the crystallized bioactive peptide needs to be rolled to be prepared into powder before being packaged, and in the prior art, equipment for preparing the bioactive peptide into the powder has poor crushing effect and low efficiency.

The invention content is as follows:

the invention aims to solve the technical problem of providing a dendrobe bioactive peptide crushing device with high working efficiency.

The technical problem to be solved by the invention is realized by adopting the following technical scheme: a dendrobe bioactive peptide reducing mechanism includes:

the feeding mechanism comprises a fixed frame arranged on the base, a first conveying belt is transversely arranged at the top end of the fixed frame, and a material guide plate is arranged at the front end of the first conveying belt;

broken mechanism, broken mechanism sets up the middle part of mounting bracket, wherein, broken mechanism is including setting up the guide post in the mounting bracket perpendicularly, the lower extreme is equipped with fly leaf and lower movable plate respectively in the activity cover on the guide post outer wall, the outer wall slope of going up the fly leaf is provided with broken plate, the outer wall slope of lower movable plate is provided with lower broken plate, it is provided with actuating mechanism to go up between fly leaf and the lower movable plate, actuating mechanism is including setting up the first motor of mounting bracket bottom outer wall, the output of first motor is in with the setting the carousel of mounting bracket inner wall is connected, the top of carousel corresponds be provided with a set of dead lever on the mounting bracket inner wall, vertically be provided with the gag lever post between the dead lever post, the outer activity of gag lever post is provided with the slider, the slider right side wall vertically is provided with first rack, the slider top pass through the connecting rod with carousel top edge is connected, the right side of first rack is provided with the pivot perpendicularly, be provided with in the pivot with first rack intermeshing's first gear, the pivot top correspond first gear top be provided with steering column, the left end of steering column be provided with the articulated connecting rod with the lower end of connecting rod.

Furthermore, a second motor is arranged below the material guide plate and corresponds to the fixing frame, the output end of the second motor extends to the upper portion of the material guide plate through a shaft, a scraper plate is annularly arranged at the output end of the second motor, and baffles are arranged on two side walls of the material guide plate.

Further, all be provided with broken tooth on the inner wall of last crushing plate and lower crushing plate, the outer wall of the last crushing plate of telling is provided with down the side downwards, the outer wall of lower crushing plate upwards is provided with the side, wherein, side and last side crisscross the setting down.

Furthermore, the middle part of the sliding block is arranged in a hollow way, and the sliding block is movably sleeved on the outer surface of the limiting rod.

Further, the upper crushing plate and the lower crushing plate are arranged from the left end to the right end in a downward inclined manner, wherein the left end of the lower crushing plate is positioned below the material guide plate.

Compared with the prior art, the invention has the following technical effects: this device during operation can carry the stem of noble dendrobium bioactive peptide powder in succession and smash, and the stem of noble dendrobium bioactive peptide powder after smashing can fall into one process down automatically, realizes automated production, and has reached when smashing that crushing effect is good, labour saving and time saving, effect that work efficiency is high.

Description of the drawings:

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is an enlarged view of portion A of FIG. 1;

FIG. 3 is a schematic view of the feed mechanism of the present invention;

FIG. 4 is a schematic side view of the crushing mechanism of the present invention;

FIG. 5 is a schematic view of the driving mechanism of the present invention;

FIG. 6 is a schematic view of the upper and lower crushing plates of the present invention;

FIG. 7 is a schematic structural view of the quantitative packaging apparatus of the present invention;

FIG. 8 is a schematic structural view of a spacing shell of the present invention;

sequence numbers in the figure: 10. a base; 11. a mounting frame; 20. a guide post; 21. an upper movable plate; 22. an upper crushing plate; 221. crushing teeth; 222. an upper side edge; 23. a lower breaker plate; 231. a lower side edge; 24. a movable plate is lowered; 25. an upper connecting rod; 26. a deflector plate; 27. a lower connecting rod; 30. a first motor; 31. a turntable; 32. a connecting rod; 33. a slider; 34. a limiting rod; 35. a first gear; 36. fixing the rod; 37. a first rack; 38. a rotating shaft; 40. a fixed mount; 41. a first conveyor belt; 42. a material guide plate; 421. a baffle plate; 43. a second motor; 44. a squeegee; 50. a frame; 51. a second conveyor belt; 60. a quantitative packaging device; 61. a material storage tank; 62. a support frame; 63. a discharging pipe; 64. a housing; 65. a slide rail; 66. a second rack; 67. a support plate; 70. a limiting shell; 701. a bearing; 702. a through hole; 703. a limiting groove; 71. a threaded rod; 72. a second gear; 73. a movable sleeve; 74. a screw block; 75. and (5) packing boxes.

The specific implementation mode is as follows:

in order to make the technical means, the creation characteristics, the achievement purposes and the effects of the invention easy to understand, the invention is further clarified by combining the specific drawings.

It will be understood that when an element is referred to as being "secured to" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present. The terms "vertical," "horizontal," "left," "right," and the like as used herein are for illustrative purposes only and do not denote a unique embodiment.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used herein in the description of the invention is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. As used herein, the term "and/or" includes any and all combinations of one or more of the associated listed items.

Example 1

As shown in fig. 1 to 8, the present invention provides a dendrobe bioactive peptide crushing device, which comprises:

the feeding device comprises a base 10, wherein a mounting frame 11 is arranged on the base 10, a feeding mechanism is arranged at the left end of the mounting frame 11, the feeding mechanism comprises a fixing frame 40 arranged on the base 10, a first conveying belt 41 is transversely arranged at the top end of the fixing frame 40, and a material guide plate 42 is arranged at the front end of the first conveying belt 41;

the crushing mechanism is arranged in the middle of the mounting frame 11, the crushing mechanism comprises a guide post 20 vertically arranged in the mounting frame 11, the upper end and the lower end of the outer wall of the guide post 20 are respectively and movably sleeved with an upper movable plate 21 and a lower movable plate 24, the outer wall of the upper movable plate 21 is obliquely provided with an upper crushing plate 22, the outer wall of the lower movable plate 24 is obliquely provided with a lower crushing plate 23, a driving mechanism is arranged between the upper movable plate 21 and the lower movable plate 24, the driving mechanism comprises a first motor 30 arranged on the outer wall of the bottom of the mounting frame 11, the output end of the first motor 30 is connected with a rotary table 31 arranged on the inner wall of the mounting frame 11, a group of fixed rods 36 is arranged above the rotary table 31 corresponding to the inner wall of the mounting frame 11, a limiting rod 34 is longitudinally arranged between the fixed rods 36, a sliding block 33 is movably arranged outside the limiting rod 34, a first rack 37 is longitudinally arranged on the right side wall of the sliding block 33, the top of the sliding block 33 is connected with the top edge of the rotary table 31 through a connecting rod 32, a rotating shaft 38 is vertically arranged on the right side of the first rack 37, a first gear 35 is arranged on the rotating shaft 38, a left connecting rod 26 which is hinged with the upper end of the lower movable plate 26, and a lower connecting rod 27 of the upper movable plate 21;

during operation can carry the dendrobe bioactive peptide powder in succession and smash, and the dendrobe bioactive peptide powder after smashing can fall into one process down automatically, realizes automated production, and has reached crushing effect good, labour saving and time saving, effect that work efficiency is high when smashing.

In specific implementation, a second motor 43 is disposed below the material guide plate 42 corresponding to the fixing frame 40, an output end of the second motor 43 extends to a position above the material guide plate 42 through a shaft, a scraper 44 is annularly disposed at an output end of the second motor 43, and baffles 421 are disposed on two side walls of the material guide plate 42.

In specific implementation, the inner walls of the upper crushing plate 22 and the lower crushing plate 23 are both provided with crushing teeth 221, the outer wall of the upper crushing plate 22 is provided with a lower side edge 222 downwards, the outer wall of the lower crushing plate 23 is provided with an upper side edge 231 upwards, and the lower side edge 222 and the upper side edge 231 are arranged in a staggered manner.

During specific implementation, the middle part of the sliding block 33 is arranged in a hollow manner, and the sliding block 33 is movably sleeved on the outer surface of the limiting rod 34.

In practice, the upper and lower crushing plates 22 and 23 are arranged to be inclined downward from the left end to the right end, wherein the left end of the lower crushing plate 23 is located below the material guide plate 42.

Example 2

As shown in fig. 1 to 8, the present invention provides a pulverizing device on a production line of bioactive peptide powder of dendrobe, comprising:

the feeding device comprises a base 10, wherein a mounting frame 11 is arranged on the base 10, a feeding mechanism is arranged at the left end of the mounting frame 11, the feeding mechanism comprises a fixing frame 40 arranged on the base 10, a first conveying belt 41 is transversely arranged at the top end of the fixing frame 40, and a material guide plate 42 is arranged at the front end of the first conveying belt 41;

the crushing mechanism is arranged in the middle of the mounting frame 11, the crushing mechanism comprises a guide post 20 vertically arranged in the mounting frame 11, the upper end and the lower end of the outer wall of the guide post 20 are respectively and movably sleeved with an upper movable plate 21 and a lower movable plate 24, the outer wall of the upper movable plate 21 is obliquely provided with an upper crushing plate 22, the outer wall of the lower movable plate 24 is obliquely provided with a lower crushing plate 23, a driving mechanism is arranged between the upper movable plate 21 and the lower movable plate 24, the driving mechanism comprises a first motor 30 arranged on the outer wall of the bottom of the mounting frame 11, the output end of the first motor 30 is connected with a rotary table 31 arranged on the inner wall of the mounting frame 11, a group of fixed rods 36 is arranged above the rotary table 31 corresponding to the inner wall of the mounting frame 11, a limiting rod 34 is longitudinally arranged between the fixed rods 36, a sliding block 33 is movably arranged outside the limiting rod 34, a first rack 37 is longitudinally arranged on the right side wall of the sliding block 33, the top of the sliding block 33 is connected with the top edge of the rotary table 31 through a connecting rod 32, a rotating shaft 38 is vertically arranged on the right side of the first rack 37, a first gear 35 is arranged on the rotating shaft 38, a left connecting rod 26 which is hinged with the upper end of the lower movable plate 26, and a lower connecting rod 27 of the upper movable plate 21;

during operation can carry the stem of noble dendrobium bioactive peptide powder in succession and smash, and the stem of noble dendrobium bioactive peptide powder after smashing can fall into one process down automatically, realizes automated production, and has reached crushing effect good, labour saving and time saving, effect that work efficiency is high when smashing.

Quantitative packing device 60, quantitative packing device 60 sets up the right side at mounting bracket 11, wherein, quantitative packing device 60 left side is provided with frame 50, frame 50 top tilt up is provided with second conveyer belt 51, quantitative packing device 60 is including setting up storage tank 61 at second conveyer belt 51 discharge end, when specifically implementing, storage tank 61 can be fixed with frame 50 through setting up support frame 62 at the outer wall, storage tank 62 bottom is provided with casing 64, the inside left side of casing 64 is vertical to be provided with slide rail 65, it is provided with second rack 66 to slide from top to bottom in the slide rail 65, the bottom right side wall of second rack 66 transversely is provided with backup pad 67, the upper surface of backup pad 67 is provided with packing box 75 to the below that corresponds storage tank 61, the top inner wall of casing 64 is provided with spacing shell 70, be provided with spacing groove 703 in the spacing shell 70, the inside intermediate position of spacing groove 703 transversely runs through and is provided with threaded rod 71, the left end of threaded rod 71 is provided with second gear 72, second gear 72 and second rack 66 intermeshing, the threaded rod outer wall of spacing groove 703 corresponds threaded rod and is provided with screw block 74, the fixed being provided with movable sleeve 73 on the right side, movable threaded rod 73 is outside the threaded rod 71.

In specific implementation, a second motor 43 is disposed below the material guide plate 42 and corresponding to the fixing frame 40, an output end of the second motor 43 extends to a position above the material guide plate 42 through a shaft, a scraper 44 is annularly disposed at an output end of the second motor 43, and baffles 421 are disposed on two side walls of the material guide plate 42.

In specific implementation, the inner walls of the upper crushing plate 22 and the lower crushing plate 23 are both provided with crushing teeth 221, the outer wall of the upper crushing plate 22 is provided with a lower side 222 downwards, the outer wall of the lower crushing plate 23 is provided with an upper side 231 upwards, and the lower side 222 and the upper side 231 are arranged in a staggered manner.

During the specific implementation, the middle part of the sliding block 33 is arranged in a hollow way, and the sliding block 33 is movably sleeved on the outer surface of the limiting rod 34.

In practice, the upper and lower crushing plates 22 and 23 are arranged to be inclined downward from the left end to the right end, wherein the left end of the lower crushing plate 23 is located below the material guide plate 42.

In specific implementation, the lower part of the storage tank 61 is provided with a discharge pipe 63.

To ensure the reciprocating movement of the support plate 67, a spring 68 is provided between the support plate 67 and the bottom of the housing 64.

The left side of spacing shell 70 is provided with bearing 701, threaded rod 71 sets up in bearing 701, during the concrete implementation, be located the outside threaded rod 71 surface of spacing shell 70 and can not set up the screw thread, the right side of spacing shell 70 is provided with through-hole 702, movable sleeve 73 activity sets up in this through-hole 73, and movable sleeve 73's right-hand member is connected with baling box 75, can carry stem of noble dendrobium bioactive peptide powder in succession, and can prescribe a limit to the weight of the bioactive peptide powder of stem of noble dendrobium, after reaching predesigned weight, can pack the bioactive peptide powder of stem of noble dendrobium quantitatively, realize the function of quick quantitative baling.

In operation, the material is conveyed from the first conveying belt 41 to the material guide plate 42, the second motor 43 is started, the second motor 43 drives the scraper 44, the material on the first conveying belt 41 is moved to the lower crushing plate 23, the feeding function is realized, at this time, the first motor 30 is started, the first motor 30 drives the rotary table 31 to rotate, the rotary table 31 drives the slider 33 to reciprocate through the connecting rod 32, and further drives the first rack 37 to reciprocate, the first rack 37 drives the upper connecting rod 25 and the lower connecting rod 27 to move up and down through being meshed with the first gear 35, so as to finally drive the upper crushing plate 22 and the lower crushing plate 23 to extrude each other, so as to realize extrusion crushing of the material, the crushed material falls onto the second conveying belt 51 due to gravity, and further the material is conveyed into the material storage tank 61 through the second conveying belt 51, the material in the material storage tank 61 is then discharged from the discharging pipe 63, and finally falls into the packing box 75, as the material is continuously discharged, the material in the packing box 75 is continuously piled up, the weight of the packing box 75 is continuously increased, thereby the weight of the packing box 75 is increased, the weight of the packing box 75 is realized, the packing box 71 is moved downwards, the supporting plate 67, and the supporting plate 66 moves downwards, and the second movable sleeve 73, and the movable sleeve 73 is moved downwards, and the movable sleeve 73 is moved, and the movable sleeve 73 is moved downwards, and the sleeve 73 is moved, and then the movable sleeve 73 is moved downwards, and the movable sleeve 73 is moved.

The foregoing shows and describes the general principles, essential features, and inventive features of this invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are described in the specification and illustrated only to illustrate the principle of the present invention, but that various changes and modifications may be made therein without departing from the spirit and scope of the present invention, which fall within the scope of the invention as claimed. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (5)

1. The utility model provides a stem of noble dendrobium bioactive peptide reducing mechanism which characterized in that includes:

the feeding mechanism comprises a fixed frame arranged on the base, a first conveying belt is transversely arranged at the top end of the fixed frame, and a material guide plate is arranged at the front end of the first conveying belt;

the crushing mechanism is arranged in the middle of the mounting frame and comprises a guide post which is vertically arranged in the mounting frame, the upper end and the lower end of the outer wall of the guide post are movably sleeved with an upper movable plate and a lower movable plate respectively, the outer wall of the upper movable plate is inclined to be provided with an upper crushing plate, the outer wall of the lower movable plate is inclined to be provided with a lower crushing plate, a driving mechanism is arranged between the upper movable plate and the lower movable plate and comprises a first motor which is arranged on the outer wall of the bottom of the mounting frame, the output end of the first motor is connected with a turntable which is arranged on the inner wall of the mounting frame, the upper side of the turntable corresponds to the inner wall of the mounting frame, a set of fixed rods is longitudinally arranged between the fixed rods, a sliding block is movably arranged outside the fixed rods, a first rack is longitudinally arranged on the right side wall of the sliding block, the top of the sliding block is connected with the edge of the top of the turntable through a connecting rod, a rotating shaft is vertically arranged on the right side of the first rack, a first gear which is meshed with the first rack, the top end of the rotating shaft corresponds to the upper side of the first gear, the left end of the steering plate is provided with an upper hinged connecting rod of the upper connecting rod, and the lower end of the lower movable plate, and the lower end of the lower movable rod is provided with the lower end of the lower movable plate.

2. The dendrobe bioactive peptide smashing device as claimed in claim 1, wherein a second motor is arranged below the material guide plate corresponding to the fixing frame, an output end of the second motor extends to the position above the material guide plate through a shaft, a scraping plate is annularly arranged at the output end of the second motor, and baffles are arranged on two side walls of the material guide plate.

3. The dendrobe bioactive peptide crushing device as claimed in claim 1, wherein the inner walls of the upper crushing plate and the lower crushing plate are provided with crushing teeth, the outer wall of the upper crushing plate is provided with a lower side edge downwards, the outer wall of the lower crushing plate is provided with an upper side edge upwards, and the lower side edge and the upper side edge are staggered.

4. The dendrobe bioactive peptide crushing device as claimed in claim 1, wherein the middle part of the sliding block is arranged in a hollow manner, and the sliding block is movably sleeved on the outer surface of the limiting rod.

5. The dendrobe bioactive peptide crushing device as claimed in claim 1, wherein the upper crushing plate and the lower crushing plate are arranged to be inclined downwards from the left end to the right end, and the left end of the lower crushing plate is located below the material guide plate.

Images