CN116620737B - Collagen peptide storage device and storage method thereof - Google Patents

Abstract

The invention relates to the technical field of collagen peptide storage equipment, in particular to a collagen peptide storage device and a storage method thereof. According to the invention, the effect of scraping and stirring the collagen peptide at the bottom of the shell is achieved through the stirring mechanism, the avoided collagen peptide is mutually adhered under the extrusion action, and through the drying mechanism, the electric heating plate can slide back and forth along the travel groove while rotating along with the sealing disc, so that the effect of fully drying the inside of the shell is achieved, the thoroughly of drying is improved, and the collagen peptide in the shell is prevented from condensing into a block shape when being wetted.

Description

Collagen peptide storage device and storage method thereof

Technical Field

The invention belongs to the technical field of collagen peptide preservation equipment, and particularly relates to a collagen peptide storage device and a storage method thereof.

Background

The collagen peptide is a biological polymer substance which can be directly absorbed by human body, and can be used as a supplementary source of collagen in the metabolism process, so that abnormal collagen can be repaired, and can play a normal role.

However, the existing storage device does not have a stirring function, collagen peptide powder is accumulated together for a long time, so that the mutual adhesion of collagen peptide powder particles is easily caused, the quality of the collagen peptide powder is finally reduced due to agglomeration, and the existing storage device does not have a drying function, so that when the collagen peptide powder is wet, the collagen peptide powder is easily agglomerated into a block shape, the quality of the collagen peptide powder is influenced, and even the collagen peptide powder cannot be used due to deterioration.

Disclosure of Invention

The present invention is directed to a collagen peptide storage device and a storage method thereof, which solve the problems set forth in the background art.

In order to achieve the above purpose, the present invention provides the following technical solutions:

the utility model provides a collagen peptide storage device, includes the shell, the feed inlet has been seted up on the top outer wall of shell, the discharge gate has been seted up on the bottom outer wall of shell, there is the reduction gear through bolted connection on the outer wall of one side of shell, there is the motor through bolted connection on the outer wall of reduction gear, the input of reduction gear passes through the coupling joint on the main shaft of motor, the output welding of reduction gear has the sun gear, be connected with planetary gear on the one side inner wall that the shell is close to the motor through the pivot, the one end inner wall that the shell is close to the motor rotates and peg graft there is sealing disk one, sealing disk one has been seted up on one side outer wall that the sealing disk is close to the motor first, the welding has the connecting axle on one side outer wall that the sealing disk one was kept away from the motor, sealing disk one end welding that the sealing disk one is kept away from to the connecting axle has sealing disk two, sealing disk two rotates and peg graft on the one end inner wall that the shell is kept away from the motor, the one end inner wall that the motor is kept away from the motor on set up installation room two, be provided with drying mechanism on the sealing disk one, be provided with rabbling mechanism on the sealing disk two.

In the above collagen peptide storage device, the sun gear and the planet gear are located in the first installation chamber, the sun gear and the planet gear are meshed with each other, the outer walls of the two sides of the housing are welded with the supports, the outline shape of the housing is olive-shaped, and the connecting shaft penetrates through the second sealing disc and is connected to the inner wall of the housing through the bearing.

In the collagen peptide storage device, the drying mechanism comprises a second sealing block, a gear ring is welded on the outer wall of one side of the first sealing disk, which is close to the motor, the gear ring is meshed with the planetary gear, a limiting block is welded on the inner wall of the first installation chamber, a first sliding groove is formed in the outer wall of the limiting block, an inserting block is welded on the outer side wall of the second sealing block, and the inserting block is inserted in the first sliding groove in a sliding mode.

In the above collagen peptide storage device, the outer wall of the second sealing block is provided with the second sliding groove, the outer wall of one side of the first sealing disk far away from the motor is provided with the travel groove, the travel groove is mutually perpendicular to the limiting block, the sliding block is inserted in the travel groove in a sliding manner, and the outer wall of one side of the sliding block close to the first mounting chamber is welded with the first sealing block.

In the collagen peptide storage device, the first sealing block is matched with the second sealing block in a sliding mode, the first sealing block and the second sealing block are matched with the travel groove in a sliding mode, a connecting rod is connected to the outer wall of one side, close to the central gear, of the first sealing block through a rotating shaft, the outer wall of one end, far away from the first sealing block, of the connecting rod is connected to the outer wall of the central gear through a rotating shaft, and an electric heating plate is welded to the outer wall of one side, far away from the first installation chamber, of the sliding block.

In the collagen peptide storage device, the stirring mechanism comprises a stirring plate, two sections of symmetrically distributed meshing teeth are welded on the inner side wall of the second installation chamber, and a pair of transmission gears are rotatably inserted on the outer wall of one side of the second sealing disk, which is close to the second installation chamber, through a bearing.

In the above collagen peptide storage device, the pair of driving gears are symmetrically distributed according to the travel grooves, each driving gear is matched with the meshing teeth, a stirring plate is welded on the outer wall of one side of each driving gear far away from the second installation chamber, and each stirring plate is matched with the inner wall of the housing.

In the collagen peptide storage device, two inner walls of the installation chamber are welded with baffle columns symmetrically distributed, each outer wall of the transmission gear is welded with a locking block, and the locking blocks are matched with the baffle columns.

A collagen peptide storage method, which employs a collagen peptide storage device as described above.

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

1. through the rabbling mechanism that sets up for when sealing disk two takes place to rotate, sealing disk two can drive gear and revolve round the connecting axle, thereby make the last stirring board of drive gear revolve round the connecting axle, when drive gear is limited by the baffle, the stirring board can't rotate, thereby make the stirring board scrape the collagen peptide powder of device bottom when stirring, when drive gear rotates to the intermeshing with the meshing tooth in the second installation room, drive gear rotates, thereby make the stirring board take place the rotation, reach the effect of carrying out further stirring to collagen peptide powder, through the reciprocal switching of scraping and stirring state of stirring board, the collagen peptide of having kept away receives extrusion effect and bonds each other, make stirring effect more thoroughly.

2. Through the drying mechanism that sets up for when the motor drove the sun gear and rotated, the planetary gear with sun gear meshing takes place to rotate, thereby make and planetary gear intermeshing's ring gear take place to rotate, and then make ring gear drive sealing disk take place to rotate, when sealing disk one time rotates, the sealing disk drives the slider in the travel groove and rotates, thereby make the electric plate on the slider rotate thereupon, realize carrying out the effect of drying to the collagen peptide of shell inside, when the sun gear rotates, the connecting rod is driven to swing, thereby make the connecting rod drive sealing piece one carry out reciprocating sliding along the travel groove, and then make sealing piece one drive the slider carry out reciprocating sliding along the travel groove, realize the effect that the electric plate carries out reciprocating sliding along the travel groove, and then realize carrying out comprehensive drying to the shell inside and reach auxiliary stirring's effect simultaneously, the thoroughness of drying has been improved, the condensation of collagen peptide inside the shell when having avoided the humidification becomes the cubic.

To sum up: according to the invention, through the stirring mechanism, the stirring plate can realize the switching of scraping and stirring states, the effect of scraping and stirring the collagen peptide at the bottom of the shell is achieved, the avoided collagen peptide is mutually bonded under the extrusion action, and through the drying mechanism, the electric heating plate can slide back and forth along the travel groove while rotating along with the sealing disk, so that the effect of comprehensively drying the inside of the shell is achieved, the drying thoroughly is improved, and the collagen peptide in the shell is prevented from condensing into a block shape when wetted.

Drawings

FIG. 1 is a perspective view of the overall structure of the present invention;

FIG. 2 is a perspective cross-sectional schematic view of the overall structure of the present invention;

FIG. 3 is a schematic perspective view of the overall structure of the present invention with steps in section;

FIG. 4 is a schematic perspective view of a drying mechanism according to the present invention;

FIG. 5 is an enlarged schematic view of the structure at A in FIG. 4;

FIG. 6 is a schematic perspective cross-sectional view of a drying mechanism of the present invention;

FIG. 7 is a schematic perspective view of a first seal block and a second seal block according to the present invention;

FIG. 8 is a schematic perspective view of a connecting rod assembly of the present invention;

fig. 9 is an exploded view of an assembly of the sealing disk of the present invention.

In the figure: 1. a housing; 11. a feed inlet; 12. a discharge port; 13. a bracket; 14. a second installation room; 141. meshing teeth; 142. a baffle column; 2. a motor; 21. a sun gear; 22. a speed reducer; 3. a planetary gear; 4. a sealing disk I; 41. a first installation room; 42. a gear ring; 43. a travel groove; 44. a limiting block; 441. a first chute; 45. a second sealing block; 451. a plug block; 452. a second chute; 46. a connecting shaft; 47. a second sealing disc; 5. an electric heating plate; 51. a slide block; 52. a first sealing block; 53. a connecting rod; 6. a transmission gear; 61. a stirring plate; 62. and a locking block.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. 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.

Referring to fig. 1-9, a collagen peptide storage device comprises a housing 1, a feed inlet 11 is formed in the outer wall of the top of the housing 1, a discharge outlet 12 is formed in the outer wall of the bottom of the housing 1, a speed reducer 22 is connected to the outer wall of one side of the housing 1 through bolts, a motor 2 is connected to the outer wall of the speed reducer 22 through bolts, an input end of the speed reducer 22 is connected to a main shaft of the motor 2 through a coupling, a sun gear 21 is welded to an output end of the speed reducer 22, a planetary gear 3 is connected to the inner wall of one side of the housing 1, which is close to the motor 2, a first sealing disc 4 is rotatably inserted into the inner wall of one side of the housing 1, which is close to the motor 2, a first installation chamber 41 is formed in the outer wall of one side, which is close to the motor 2, a connecting shaft 46 is welded to the outer wall of one side, which is far from the sealing disc 4, a second sealing disc 47 is welded to one end of the sealing disc 4, a second sealing disc 47 is rotatably arranged on the inner wall of one side, which is far from the motor 2, a second installation chamber 14 is formed in the inner wall of the housing 1, a second sealing disc 47 is rotatably connected to the inner wall of one end of the housing 2, a second sealing disc 47 is arranged on the inner wall of the one side, which is far from the motor 2, a second sealing disc 47 is rotatably connected to the inner wall of the sealing disc 4, a second sealing disc 21 is rotatably connected to the inner wall of the planetary gear 3, and the planetary gear 3 is meshed with the first sealing disc 1, and the inner sealing disc 4 is meshed with the first sealing disc 3, and the second sealing disc 13, the inner sealing disc 13 is meshed with the first sealing disc 13, and the inner sealing disc 13 is meshed with the first sealing ring gear 4 and the second sealing ring 13, and the inner sealing device 13 is meshed with the first sealing ring gear 4 and the first sealing device and the sealing device 13.

The outline shape of the shell 1 is olive-shaped, the middle part of the shell is gradually thinned towards two ends, so that collagen peptide can slide to a discharge hole 12 at the bottom of the shell 1 under the action of dead weight during discharging, discharging is facilitated, a first sealing disc 4 and a second sealing disc 47 are matched with the inner wall of the shell 1, the first sealing disc 4 and the second sealing disc 47 are in movable sealing connection with the inner wall of the shell 1, the collagen peptide inside the shell 1 is prevented from entering a first installation chamber 41 and a second installation chamber 14, a sun gear 21 and a planetary gear 3 are meshed with each other, the planetary gear 3 and a gear ring 42 are meshed with each other, the first sealing disc 4 can rotate when the sun gear 21 rotates, and the motor 2 is decelerated through a speed reducer 22, so that the rotating speed of the sun gear 21 is prevented from being too fast.

Specifically, the drying mechanism comprises a second sealing block 45, a limiting block 44 is welded on the inner wall of the first mounting chamber 41, a first sliding groove 441 is formed in the outer wall of the limiting block 44, a first inserting block 451 is welded on the outer wall of the second sealing block 45, a second sliding groove 452 is formed in the outer wall of the second sealing block 45, a travel groove 43 is formed in the outer wall of one side, far away from the motor 2, of the first sealing disk 4, the travel groove 43 and the limiting block 44 are mutually perpendicular, a sliding block 51 is inserted in the travel groove 43 in a sliding manner, a first sealing block 52 is welded on the outer wall of one side, close to the first mounting chamber 41, of the sliding block 51, the first sealing block 52 is matched with the second sealing block 45, the first sealing block 52 is inserted in the second sliding groove 452 in a sliding manner, both the first sealing block 52 and the second sealing block 45 are matched with the travel groove 43, a connecting rod 53 is connected to the outer wall of one side, close to the central gear 21, one end of the connecting rod 53 is connected to the outer wall of the central gear 21 through the rotating shaft, and a plate 5 is welded on the outer wall of one side, far away from the first mounting chamber 41, of the sliding block 51.

The appearance of sealing block one 52 is right trapezoid, the appearance of sealing block two 45 is right triangle, sealing block one 52 and the inclined plane of sealing block two 45 butt each other, be convenient for sealing block one 52 to promote sealing block two 45 along stopper 44 along the inclined plane of sealing block two 45 and slide, consider mechanical wear, can add the pulley in spout one 441 and spout two 452, reach the effect that reduces mechanical wear, after sealing block one 52 and sealing block two 45 butt, can let the travel slot 43 keep the closure state all the time, avoid collagen peptide in the shell 1 to get into installation room one 41 through travel slot 43, limit sealing block two 45 through setting up stopper 44, make sealing block two 45 can remain closely laminating with the bottom of travel slot 43 all the time, thereby make sliding grafting sealing block one 52 in sealing block two 45 remain closely laminating with the bottom of travel slot 43 all the time, avoid collagen peptide in shell 1 to get into installation room one 41 through travel slot 43 and sealing block one 52 or clearance between travel slot 43 and the sealing block two 45.

Further explanation is made to the above-described drying mechanism: starting the motor 2, the motor 2 drives the sun gear 21 to rotate, the sun gear 21 drives the connecting rod 53 to swing, thereby the connecting rod 53 drives the sealing block one 52 to slide reciprocally along the travel groove 43, and then the sealing block one 52 drives the sliding block 51 and the electric heating plate 5 to slide reciprocally along the travel groove 43, the drying range of the electric heating plate 5 is improved, the drying thoroughness is improved, the sealing block one 52 slides reciprocally along the travel groove 43, and thus the sealing block two 45 slides reciprocally along the limiting block 44, the sealing block one 52 and the sealing block two 45 always keep a tight abutting state, so that the travel groove 43 always keeps a closed state, collagen peptide is prevented from entering the installation chamber one 41 through the travel groove 43, the sun gear 21 drives the planetary gear 3 to rotate when rotating, and then the planetary gear 3 drives the gear ring gear 42 to rotate, and then the gear ring gear 42 drives the sealing plate one 4 to rotate, the sliding block 51 in the travel groove 43 is driven to rotate along with the sliding block 51, and then the electric heating plate 5 on the sliding block 51 rotates along with the travel groove, the collagen peptide is assisted in stirring effect, and the drying thoroughness of collagen peptide in the shell 1 is realized, and the drying thoroughness of collagen peptide is further improved.

Specifically, the stirring mechanism includes a stirring plate 61, two sections of symmetrically distributed meshing teeth 141 are welded on the inner side wall of the second installation chamber 14, a pair of transmission gears 6 are rotatably inserted on the outer wall of one side of the second sealing disk 47, which is close to the second installation chamber 14, through bearings, the pair of transmission gears 6 are symmetrically distributed according to the travel groove 43, each transmission gear 6 is matched with the meshing teeth 141, a stirring plate 61 is welded on the outer wall of one side, which is far away from the second installation chamber 14, of each transmission gear 6, each stirring plate 61 is matched with the inner wall of the housing 1, a pair of symmetrically distributed blocking columns 142 are welded on the inner wall of the second installation chamber 14, locking blocks 62 are welded on the outer wall of each transmission gear 6, and the locking blocks 62 are matched with the blocking columns 142.

When the locking block 62 on the transmission gear 6 is matched with the baffle column 142, the stirring plate 61 is in a scraping state, the meshing teeth 141 are matched with the transmission gear 6, each section of meshing teeth 141 can enable the transmission gear 6 to rotate for one circle, so that when the transmission gear 6 is meshed with the meshing teeth 141, the locking block 62 on the transmission gear 6 can rotate to a state of being abutted against the baffle column 142 again, and when the transmission gear 6 is meshed with the meshing teeth 141, the stirring plate 61 can turn over for one circle, so that the stirring plate 61 can scrape materials again after auxiliary stirring is carried out on scraped collagen peptide, the stirring plate 61 is matched with the inner wall of the shell 1, the stirring plate 61 can effectively scrape collagen peptide at the bottom of the device, the locking block 62 is matched with the baffle column 142, when the transmission gear 6 is not meshed with the meshing teeth 141, the baffle column 142 can lock and limit the transmission gear 6, the stirring plate 61 on the transmission gear 6 is prevented from turning over when the stirring plate 61 is scraped, the transmission gear 6 is symmetrically distributed according to the grooves 43, and the stirring plate 61 is prevented from being symmetrically distributed according to the strokes 43, and the electric heating plate is prevented from being interfered by the grooves 5.

Further explanation is made on the above stirring mechanism: when the sealing disc two 47 rotates along with the sealing disc one 4, the sealing disc two 47 drives the transmission gear 6 to revolve around the connecting shaft 46, so that the stirring plate 61 on the transmission gear 6 revolves around the connecting shaft 46, when the locking block 62 on the transmission gear 6 is abutted against the baffle post 142, the stirring plate 61 is locked and cannot rotate, so that collagen peptide at the bottom of the device can be scraped while the stirring plate 61 is stirred, when the transmission gear 6 rotates to be meshed with the meshing teeth 141 in the mounting chamber two 14, the locking block 62 on the transmission gear 6 is separated from the baffle post 142, and at the moment, the transmission gear 6 rotates, so that the transmission gear 6 drives the stirring plate 61 to rotate, the stirring plate 61 further stirs the collagen peptide, and the stirring plate 61 is switched between the scraping and stirring states, so that the stirring effect is more thorough, and the phenomenon that the collagen peptide powder at the bottom of the device is bonded and caked due to extrusion is avoided.

A collagen peptide storage method, which employs a collagen peptide storage device, comprising the steps of:

s1, putting the produced and processed collagen peptide powder into a shell 1 from a feed inlet 11 for storage;

s2, closing a feed inlet 11, starting a motor 2, rotating a stirring plate 61 under the action of a stirring mechanism, and stirring collagen peptide through the stirring plate 61;

s3, judging whether the electric heating plate 5 is electrified according to the dry and wet conditions of the collagen peptide powder, rotating the electric heating plate 5 under the action of a drying mechanism, drying the collagen peptide powder through the electric heating plate 5, and simultaneously carrying out auxiliary stirring on the collagen peptide powder through the rotation of the electric heating plate 5;

and S4, after stirring is completed, the motor 2 is turned off, the discharge port 12 is opened, collagen peptide is taken out through the discharge port 12 according to the requirement, and then the discharge port 12 is turned off.

The working principle and the using flow of the invention are as follows: after throwing collagen peptide into the device through the feed inlet 11, the feed inlet 11 is closed, the motor 2 is started, when the collagen peptide needs to be dried, the electric heating plate 5 is electrified, under the action of a drying mechanism, the electric heating plate 5 can slide back and forth along the travel groove 43 along with the rotation of the sealing disc I4, the effect of comprehensively drying and auxiliary stirring the collagen peptide in the shell 1 is achieved, under the action of the stirring mechanism, the collagen peptide at the bottom of the device can be scraped in the stirring process of the stirring plate 61, meanwhile, the stirring plate 61 can be used for scraping and switching the autorotation stirring state, the stirring effect is further improved, the phenomenon that the collagen peptide at the bottom of the device is extruded to cause bonding agglomeration is avoided, the stirring effect is more thorough, after stirring is completed, the motor 2 is closed, and the discharge port 12 is opened for discharging.

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. A collagen peptide storage device comprising a housing (1), characterized in that: the utility model discloses a motor, including shell (1), connecting shaft (46) and sealing disc (4), feed inlet (11) has been seted up on the top outer wall of shell (1), discharge gate (12) has been seted up on the bottom outer wall of shell (1), there is reduction gear (22) through bolted connection on the outer wall of one side of shell (1), there is motor (2) through bolted connection on the outer wall of reduction gear (22), the input of reduction gear (22) passes through the coupling joint on the main shaft of motor (2), sun gear (21) has been welded to the output of reduction gear (22), be connected with planetary gear (3) on one side inner wall that shell (1) is close to motor (2) through the pivot, one end inner wall rotation grafting that shell (1) is close to motor (2) has sealing disc one (4), one side outer wall that sealing disc one (4) is close to motor (2) has been seted up install room one (41), one side outer wall that sealing disc one (4) is kept away from motor (2) is welded on one side outer wall of sealing disc (46) has sealed disc one end (47) and is kept away from motor (2), a drying mechanism is arranged on the first sealing disc (4), and a stirring mechanism is arranged on the second sealing disc (47);

the drying mechanism comprises a sealing block II (45), a gear ring (42) is welded on the outer wall of one side of the sealing disc I (4) close to the motor (2), the gear ring (42) is mutually meshed with the planetary gear (3), a limiting block (44) is welded on the inner wall of the first installation chamber (41), a sliding groove I (441) is formed in the outer wall of the limiting block (44), a connecting block (451) is welded on the outer wall of the sealing block II (45), the connecting block II (451) is slidingly connected in the sliding groove I (441), a sliding groove II (452) is formed in the outer wall of the sealing block II (45), a travel groove (43) is formed in the outer wall of one side of the sealing disc I (4) far away from the motor (2), the travel groove (43) is mutually perpendicular to the limiting block (44), a sliding block (51) is slidingly connected on the outer wall of one side of the limiting block (44), which is close to the first installation chamber (41), a sealing block I (52) is welded on the outer wall of the sliding block I (51), the sealing block I (52) is matched with the sealing block II (45), the sealing block II (52) is matched with the sliding block II (52) in the sliding groove I (52), the outer wall of one side of the first sealing block (52) close to the central gear (21) is connected with a connecting rod (53) through a rotating shaft, the outer wall of one end of the connecting rod (53) far away from the first sealing block (52) is connected to the outer wall of the central gear (21) through the rotating shaft, and an electric heating plate (5) is welded on the outer wall of one side of the sliding block (51) far away from the first installation chamber (41).

2. The collagen peptide storage device according to claim 1, wherein: the sun gear (21) and the planet gears (3) are located in the first installation chamber (41), the sun gear (21) and the planet gears (3) are meshed with each other, supports (13) are welded on the outer walls of the two sides of the shell (1), the outline shape of the shell (1) is olive-shaped, and the connecting shaft (46) penetrates through the second sealing disc (47) and is connected to the inner wall of the shell (1) through a bearing.

3. The collagen peptide storage device according to claim 1, wherein: the stirring mechanism comprises a stirring plate (61), two sections of symmetrically distributed meshing teeth (141) are welded on the inner side wall of a second installation chamber (14), a pair of transmission gears (6) are rotatably inserted on the outer wall of one side, close to the second installation chamber (14), of a sealing disc (47) through bearings, the transmission gears (6) are symmetrically distributed according to a travel groove (43), each transmission gear (6) is matched with the meshing teeth (141), the stirring plate (61) is welded on the outer wall of one side, far away from the second installation chamber (14), of each transmission gear (6), each stirring plate (61) is matched with the inner wall of a shell (1), a pair of symmetrically distributed baffle columns (142) are welded on the inner wall of the second installation chamber (14), and locking blocks (62) are welded on the outer wall of each transmission gear (6), and each locking block (62) is matched with each baffle column (142).

4. A collagen peptide storage method, characterized in that: the collagen peptide storage method employs a collagen peptide storage device according to any one of claims 1 to 3.