CN115517385A - Sterilizing equipment is used in production of cordyceps militaris protein peptide - Google Patents

Abstract

The invention discloses a sterilizing device for producing cordyceps militaris protein peptides, and relates to the technical field of sterilizing equipment for producing protein peptides. The lamp comprises an outer shell, a rotating part and a barrel, wherein the barrel is arranged in the outer shell, a heat dissipation channel is formed between the outer shell and the barrel, a plurality of grooves are formed in the outer shell, a lamp body is installed in each groove, light of the lamp body irradiates the inside of the heat dissipation channel, through grooves are formed in two ends of the barrel, the rotating part is provided with a discharge channel and a feed channel, the discharge channel and the feed channel are separated, the rotating part is installed in the barrel, the discharge channel is communicated with the discharge end of the heat dissipation channel through one through groove, and the feed channel is communicated with the feed end of the heat dissipation channel through the other through groove. According to the invention, external air enters the heat dissipation channel through the rotating part and the through groove at the bottom to drive cordyceps militaris protein peptide powder to enter, and the powder floats upwards along with the air and passes through the lamp body, so that the floating cordyceps militaris protein peptide powder is sterilized.

Description

Sterilizing equipment is used in production of cordyceps militaris protein peptide

Technical Field

The invention relates to the technical field of sterilization equipment for producing protein peptides, and particularly relates to a sterilization device for producing cordyceps militaris protein peptides.

Background

The cordyceps militaris protein peptide belongs to one of vegetable protein peptides, and the vegetable protein peptide is a water-soluble protein extracted from plants or crops, has the effects of strongly removing skin melanin, fading and preventing the formation of the melanin, remarkably increasing the heat preservation and water locking capacity of skin, removing aged cells on the surface of the skin, softening skin keratinized cells, promoting cell metabolism, accelerating the microcirculation of capillary vessels, enhancing the binding force of collagen between cells, enabling the skin to be white, soft, glittering and translucent and full of elasticity, and can be sterilized in the production process of the protein peptide, so that a sterilization device is used.

However, the sterilization device for producing protein peptides, which is commonly seen in the market at present, has certain disadvantages in use, and generally, when the protein peptides are sterilized, because the protein peptides are spread together, the situation that the protein peptides covered below are easily covered, so that the sterilization effect is insufficient is caused, and the protein peptides are not easily taken out from the device after being sterilized, so that certain time is delayed, the working efficiency is reduced, and in addition, the existing ultraviolet sterilization lamp is inconvenient to replace after being damaged.

Disclosure of Invention

In order to solve the technical problems, the invention provides a sterilizing device for producing cordyceps militaris protein peptides, which comprises an outer shell, a rotating part and a barrel, wherein the barrel is arranged in the outer shell, a heat dissipation channel is formed between the outer shell and the barrel, a plurality of grooves are formed in the outer shell, a lamp body is arranged in each groove, light of the lamp body irradiates the inside of the heat dissipation channel, through grooves are formed in two ends of the barrel, a discharging channel and a feeding channel are arranged in the rotating part, the discharging channel and the feeding channel are separated, the rotating part is arranged in the barrel, the discharging channel is communicated with a discharging end of the heat dissipation channel through one through groove, and the feeding channel is communicated with a feeding end of the heat dissipation channel through the other through groove;

the port of body passes the opening of upper ring lid through the rotation part and puts in cordyceps militaris protein peptide powder, the drive assembly of installation is driving motor, driving motor passes through the axis body and drives the body rotation, thereby realize that the helical blade in the body outside rotates, the air that promotes the clearance between body and the barrel passes through passageway and axis body discharge, thereby realize passing through passageway and axis body discharge with the air in the heat dissipation channel of clearance intercommunication, outside air passes through the logical groove of rotation part and bottom, get into in the heat dissipation channel, drive cordyceps militaris protein peptide powder and get into, the powder is followed the air and is upwards floated the process lamp body, thereby realize disinfecting floating cordyceps militaris protein peptide powder.

Further, the shell body is of a barrel structure, the shell body and the barrel are distributed in a coaxial mode, an upper annular cover is installed on an upper port formed by the shell body and the barrel, a lower annular cover is installed on a lower port formed by the shell body and the barrel, the upper annular cover and the lower annular cover are installed to seal the upper end port and the lower end port of the heat dissipation channel, and the through groove is communicated with the inside of the heat dissipation channel.

Further, the both ends of recess all are equipped with the bulge loop, the inboard of bulge loop is equipped with the lamp stand, installs the lamp body between two lamp stands that distribute relatively, the lamp shade is installed to the outside opening of recess, the inboard of recess is transparent casing.

Further, the main body of the rotating part is a pipe body, a disc body is arranged at the bottom of the pipe body, a shaft body which is distributed coaxially is arranged inside the pipe body, the shaft body is connected with the inner wall of the pipe body through a rod body, one end of the shaft body extends out of a port of the pipe body, the shaft body and the disc body are located on the same side, the shaft body is of a hollow structure, a channel is arranged inside the rod body and communicated with the inside of the shaft body, the pipe body is installed inside the barrel body, a gap is formed between the pipe body and the barrel body, and two through grooves which are distributed up and down are separated by the arranged disc body.

Further, the outside of body is equipped with helical blade, helical blade is located the clearance that forms between body and the barrel.

Furthermore, the bottom end of the shaft body stretches out of the lower ring cover, and the stretching end of the shaft body is in transmission connection with a driving assembly arranged on the outer side of the lower ring cover.

Further, be equipped with the cylinder of vertical distribution in the body, the bottom of cylinder stretches into in the axle body, the spring has been cup jointed in the outside of cylinder, and cordyceps militaris protein peptide powder strikes the tip of the cylinder of installation, accomplishes and compresses the spring, drives the cylinder and takes place vibrations to the cylinder vibrations of axis body are stretched into in the realization, avoid the inside of axis body to take place to block up.

Further, the outer shell is vertically installed, and a port of the pipe body penetrates through the upper ring cover and is communicated with the outside.

Furthermore, a plurality of supporting legs are installed to the bottom of lower ring lid, support through the supporting leg of installation, and the mounting height of effectual improvement lower ring lid.

The invention has the following beneficial effects:

1. according to the invention, cordyceps militaris protein peptide powder is put in through the opening of the upper ring cover penetrated by the port of the tube body in the rotating part, the installed driving component is a driving motor, the driving motor drives the tube body to rotate through the shaft body, so that the helical blade on the outer side of the tube body is rotated, air in a gap between the tube body and the tube body is pushed to be discharged through the channel and the shaft body, so that air in a heat dissipation channel communicated with the gap is discharged through the channel and the shaft body, external air enters the heat dissipation channel through the rotating part and the through groove at the bottom, the cordyceps militaris protein peptide powder is driven to enter, the powder floats upwards through the lamp body along with the air, and the floating cordyceps militaris protein peptide powder is sterilized.

2. The powder is discharged from the shaft body along with flowing air, and the powder is collected at the shaft body, and the opening at the outer side of the groove is sealed by the lampshade, so that the lamp body can be conveniently replaced through the outside.

3. The cordyceps militaris protein peptide powder impacts the end part of the installed cylinder to compress the spring and drive the cylinder to vibrate, so that the cylinder extending into the shaft body vibrates, and the inside of the shaft body is prevented from being blocked.

Of course, it is not necessary for any product to practice the invention to achieve all of the above-described advantages at the same time.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings used in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art that other drawings can be obtained according to the drawings without creative efforts.

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

FIG. 2 is a schematic overall bottom view of the present invention;

FIG. 3 is a schematic overall sectional structure of the present invention;

FIG. 4 is a schematic view of the outer casing structure of the present invention;

FIG. 5 is a schematic view of the structure of the barrel and the rotating part of the present invention;

FIG. 6 is a schematic view of the barrel structure of the present invention;

FIG. 7 is a schematic cross-sectional view of the barrel and the rotating part of the present invention;

FIG. 8 is a schematic view of the structure of the rotating part of the present invention;

in the drawings, the components represented by the respective reference numerals are listed below:

1. an outer housing; 101. a groove; 102. a convex ring; 103. a lamp socket; 104. a transparent housing; 105. a lamp body; 2. an upper ring cover; 3. a lower ring cover; 4. a lamp shade; 5. supporting legs; 6. a drive assembly; 7. a rotating part; 701. a shaft body; 702. a tray body; 703. a tube body; 704. a helical blade; 705. a rod body; 7051. a channel; 8. a barrel; 801. a through groove; 9. a cylinder; 10. a spring.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings and specific embodiments. The embodiments of the present invention have been presented for purposes of illustration and description, and are not intended to be exhaustive or limited to the invention in the form disclosed. Many modifications and variations will be apparent to those of ordinary skill in the art. The embodiment was chosen and described in order to best explain the principles of the invention and the practical application, and to enable others of ordinary skill in the art to understand the invention for various embodiments with various modifications as are suited to the particular use contemplated.

Example one

Referring to fig. 1-8, the invention is a sterilization device for producing cordyceps militaris protein peptide, comprising an outer shell 1, a rotating part 7 and a cylinder 8, wherein the cylinder 8 is arranged in the outer shell 1, a heat dissipation channel is formed between the outer shell 1 and the cylinder 8, a plurality of grooves 101 are arranged on the outer shell 1, a lamp body 105 is arranged in each groove 101, the light of the lamp body 105 irradiates the inside of the heat dissipation channel, through grooves 801 are arranged at both ends of the cylinder 8, the rotating part 7 is provided with a discharge channel and a feed channel, the discharge channel and the feed channel are separated, the rotating part 7 is arranged in the cylinder 8, the discharge channel is communicated with the discharge end of the heat dissipation channel through one through groove 801, and the feed channel is communicated with the feed end of the heat dissipation channel through the other through groove 801;

the lamp body 105 is an ultraviolet germicidal lamp;

cordyceps militaris protein peptide powder is put in through the opening of the upper ring cover 2 penetrated by the port of the pipe body 703 in the rotating part 7, the installed driving component 6 is a driving motor, the driving motor drives the pipe body 703 to rotate through the shaft body 701, thereby realizing the rotation of the helical blade 704 on the outer side of the pipe body 703, the air pushing the gap between the pipe body 703 and the cylinder body 8 is discharged through the channel 7051 and the shaft body 701, thereby realizing the discharge of the air in the heat dissipation channel communicated with the gap through the channel 7051 and the shaft body 701, the external air enters the heat dissipation channel through the rotating part 7 and the through groove 801 on the bottom, driving the cordyceps militaris protein peptide powder to enter, the powder floats upwards through the lamp body 105 along with the air, and further realizing the sterilization of the floating cordyceps militaris protein peptide powder.

The outer shell 1 is a barrel structure, the outer shell 1 and the barrel 8 are coaxially distributed, an upper ring cover 2 is installed on an upper port formed by the outer shell 1 and the barrel 8, a lower ring cover 3 is installed on a lower port formed by the outer shell 1 and the barrel 8, the upper ring cover 2 and the lower ring cover 3 are installed to seal upper and lower ports of a heat dissipation channel, and the through groove 801 is communicated with the inside of the heat dissipation channel.

The lamp comprises a groove 101, wherein two ends of the groove 101 are respectively provided with a convex ring 102, the inner side of each convex ring 102 is provided with a lamp holder 103, a lamp body 105 is arranged between the two lamp holders 103 which are oppositely distributed, the outer opening of the groove 101 is provided with a lamp cover 4, and the inner side of the groove 101 is provided with a transparent shell 104.

The main body of the rotating part 7 is a pipe body 703, a tray body 702 is arranged at the bottom of the pipe body 703, a shaft body 701 distributed coaxially is arranged inside the pipe body 703, the shaft body 701 is connected with the inner wall of the pipe body 703 through a rod body 705, one end of the shaft body 701 extends out of a port of the pipe body 703, the shaft body 701 and the tray body 702 are located on the same side, the shaft body 701 is of a hollow structure, a channel 7051 is arranged inside the rod body 705, the channel 7051 is communicated with the inside of the shaft body 701, the pipe body 703 is installed inside a barrel body 8, a gap is formed between the pipe body 703 and the barrel body 8, and two through grooves 801 distributed up and down are separated through the arranged tray body 702.

The outer side of the pipe body 703 is provided with a helical blade 704, and the helical blade 704 is located in a gap formed between the pipe body 703 and the cylinder 8.

The bottom of the shaft body 701 stretches out of the lower ring cover 3, and the stretching end of the shaft body 701 is in transmission connection with a driving component 6 arranged on the outer side of the lower ring cover 3.

Be equipped with the cylinder 9 of vertical distribution in the body 703, in the bottom of cylinder 9 stretched into axis body 701, spring 10 has been cup jointed in the outside of cylinder 9, and cordyceps militaris protein peptide powder strikes the tip of the cylinder 9 of installation, accomplishes and compresses spring 10, drives cylinder 9 and shakes to the cylinder 9 vibrations that the realization stretched into axis body 701 shakes, avoids the inside of axis body 701 to take place to block up.

The outer shell 1 is vertically installed, and the port of the pipe body 703 passes through the upper ring cover 2 and is communicated with the outside.

A plurality of supporting leg 5 is installed to the bottom of lower ring cap 3, supports the mounting height of effectual improvement lower ring cap 3 through the supporting leg 5 of installation.

The working principle is as follows:

cordyceps militaris protein peptide powder to be disinfected penetrates through an opening of the upper ring cover 2 through a port of the pipe body 703 in the rotating part 7 to be thrown in, the installed driving component 6 is a driving motor, the driving motor drives the pipe body 703 to rotate through the shaft body 701, so that the spiral blade 704 on the outer side of the pipe body 703 rotates, air in a gap between the pipe body 703 and the cylinder body 8 is pushed to be discharged through the channel 7051 and the shaft body 701, air in a heat dissipation channel communicated with the gap is discharged through the channel 7051 and the shaft body 701, external air enters the heat dissipation channel through the rotating part 7 and the through groove 801 in the bottom, the cordyceps militaris protein peptide powder is driven to enter, the powder floats upwards along with the air and passes through the lamp body 105, and accordingly the floating cordyceps militaris protein peptide powder is disinfected;

because the cordyceps militaris protein peptide powder moves from bottom to top, the content of the cordyceps militaris protein peptide powder in flowing air is effectively increased, and the sterilization effect is improved;

the air that the powder follows the flow is discharged from the shaft 701 by being collected at the shaft 701;

since the outer opening of the groove 101 is closed by the lamp cover 4, the lamp body 105 can be replaced by the outside;

in the feeding process, the cordyceps militaris protein peptide powder impacts the end part of the installed cylinder 9 to complete compression of the spring 10 and drive the cylinder 9 to vibrate, so that the cylinder 9 stretching into the shaft body 701 vibrates, and blockage in the shaft body 701 is avoided.

Example two

The main body of the rotating part 7 is a pipe body 703, a tray body 702 is arranged at the bottom of the pipe body 703, a shaft body 701 distributed coaxially is arranged inside the pipe body 703, the shaft body 701 is connected with the inner wall of the pipe body 703 through a rod body 705, one end of the shaft body 701 extends out of a port of the pipe body 703, meanwhile, the shaft body 701 and the tray body 702 are located on the same side, the shaft body 701 is of a hollow structure, a channel 7051 is arranged inside the rod body 705, the channel 7051 is communicated with the inside of the shaft body 701, the pipe body 703 is installed inside a barrel body 8, a gap is formed between the pipe body 703 and the barrel body 8, and the provided tray body 702 separates two through grooves 801 distributed up and down.

The outer side of the pipe body 703 is provided with a helical blade 704, and the helical blade 704 is located in a gap formed between the pipe body 703 and the cylinder 8.

The bottom of the shaft body 701 stretches out of the lower ring cover 3, and the stretching end of the shaft body 701 is in transmission connection with a driving component 6 arranged on the outer side of the lower ring cover 3.

Be equipped with the cylinder 9 of vertical distribution in the body 703, in the bottom of cylinder 9 stretched into axis body 701, spring 10 has been cup jointed in the outside of cylinder 9, and cordyceps militaris protein peptide powder strikes the tip of the cylinder 9 of installation, accomplishes and compresses spring 10, drives cylinder 9 and shakes to the cylinder 9 vibrations that the realization stretched into axis body 701 shakes, avoids the inside of axis body 701 to take place to block up.

The vertical installation of shell body 1, the port of body 703 pass upper ring lid 2, with outside intercommunication, a plurality of supporting leg 5 is installed to the bottom of lower ring lid 3, supports the mounting height of effectual improvement lower ring lid 3 through the supporting leg 5 of installation.

It is to be understood that the described embodiments are merely a few embodiments of the invention, and not all embodiments. All other embodiments, which can be derived by one of ordinary skill in the art and related arts based on the embodiments of the present invention without any creative effort, shall fall within the protection scope of the present invention. Structures, devices, and methods of operation not specifically described or illustrated herein are not specifically illustrated or described, but are instead contemplated to be practiced in the art by those skilled in the art.

Claims (9)

1. The utility model provides a sterilizing equipment is used in production of cordyceps militaris protein peptide, includes shell body (1), rotation portion (7) and barrel (8), its characterized in that:

a cylinder body (8) is arranged in the outer shell (1), and a heat dissipation channel is formed between the outer shell (1) and the cylinder body (8);

the heat dissipation channel is characterized in that a plurality of grooves (101) are formed in the outer shell (1), a lamp body (105) is installed in each groove (101), and light of the lamp body (105) irradiates the inside of the heat dissipation channel;

through grooves (801) are formed in the two ends of the cylinder body (8);

the rotating part (7) is provided with a discharging channel and a feeding channel, and the discharging channel and the feeding channel are separated;

the rotating part (7) is installed in the barrel (8), the discharging channel is communicated with the discharging end of the heat dissipation channel through one through groove (801), and the feeding channel is communicated with the feeding end of the heat dissipation channel through the other through groove (801).

2. The sterilizing device for producing the cordyceps militaris protein peptide according to claim 1, wherein the outer shell (1) is of a cylinder structure, the outer shell (1) and the cylinder (8) are coaxially distributed, an upper annular cover (2) is installed on an upper port formed by the outer shell (1) and the cylinder (8), and a lower annular cover (3) is installed on a lower port formed by the outer shell (1) and the cylinder (8);

the upper ring cover (2) and the lower ring cover (3) are arranged to seal the upper and lower ports of the heat dissipation channel;

the through groove (801) is communicated with the inside of the heat dissipation channel.

3. The sterilization device for producing the cordyceps militaris protein peptide, according to claim 1, wherein two ends of the groove (101) are both provided with a convex ring (102), the inner side of the convex ring (102) is provided with a lamp holder (103), and a lamp body (105) is arranged between the two lamp holders (103) which are oppositely distributed;

the lamp shade (4) is installed to the outside opening of recess (101), the inboard of recess (101) is transparent casing (104).

4. The sterilization device for producing the cordyceps militaris protein peptide according to claim 1, wherein the main body of the rotating part (7) is a pipe body (703);

a disc body (702) is arranged at the bottom of the pipe body (703), shaft bodies (701) which are distributed coaxially are arranged inside the pipe body (703), the shaft bodies (701) are connected with the inner wall of the pipe body (703) through rod bodies (705), one end of each shaft body (701) extends out of a port of the pipe body (703), and meanwhile, the shaft bodies (701) and the disc body (702) are located on the same side;

the shaft body (701) is of a hollow structure, a channel (7051) is formed inside the rod body (705), and the channel (7051) is communicated with the inside of the shaft body (701);

the pipe body (703) is arranged in the barrel body (8), a gap is formed between the pipe body (703) and the barrel body (8), and the arranged plate body (702) separates the two through grooves (801) which are distributed up and down.

5. The sterilization device for producing the cordyceps militaris protein peptide as claimed in claim 4, wherein a helical blade (704) is arranged on the outer side of the pipe body (703), and the helical blade (704) is positioned in a gap formed between the pipe body (703) and the cylinder body (8).

6. The sterilization device for producing the cordyceps militaris protein peptide according to claim 4, wherein the bottom end of the shaft body (701) extends out of the lower ring cover (3), and the extending end of the shaft body (701) is in transmission connection with a driving assembly (6) arranged on the outer side of the lower ring cover (3).

7. The sterilization device for producing the cordyceps militaris protein peptide as claimed in claim 4, wherein vertically distributed cylinders (9) are arranged in the tube body (703), the bottom end of each cylinder (9) extends into the shaft body (701), and the outside of each cylinder (9) is sleeved with a spring (10).

8. The sterilization device for producing the cordyceps militaris protein peptide as claimed in claim 4, wherein the outer shell (1) is vertically installed, and a port of the pipe body (703) passes through the upper ring cover (2) and is communicated with the outside.

9. The sterilization device for producing the cordyceps militaris protein peptide as claimed in claim 2, wherein a plurality of support legs (5) are installed at the bottom of the lower ring cover (3).

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