CN114279176A - Low-temperature drying system without damaging effective components of collagen peptide powder - Google Patents

Abstract

The invention relates to the technical field of collagen peptide drying systems, and discloses a low-temperature drying system without destroying the effective components of collagen peptide powder, wherein a cleaning mechanism is arranged on the surface of observation glass, the cleaning mechanism comprises a scraper, a first air hole, a fixing ring, an inner chute, a partition plate, a second air hole, a top rod, a sliding block, a strong magnet, an outer chute and a metal block, external air enters the inner chute from the first air hole and reaches the opposite side of the second air hole, the gas in the inner chute is discharged from the second air hole, the gas outside enters the inner chute and is positioned between the partition plate and the sliding block, the sliding block is pushed by the external air to slide in the inner chute, the metal block is attracted by the strong magnet to synchronously slide in the outer chute and do circular motion, the scraper is driven by the metal block to do circular motion on the left side of the observation glass and scrape on the wall surface of the observation glass in a drying tank, so as to improve the permeability of the observation glass, the working condition inside the drying tank is convenient to observe.

Description

Low-temperature drying system without damaging effective components of collagen peptide powder

Technical Field

The invention relates to the technical field of collagen peptide drying, in particular to a low-temperature drying system which does not destroy the effective components of collagen peptide powder.

Background

The prior art discloses a vacuum belt dryer, which comprises a cylinder body, a plurality of layers of conveyor belts arranged in the cylinder body, a feeding system and a discharging system; a conveying motor of the conveyor belt synchronously conveys the slurry raw materials from a feeding end to a discharging end; the feeding system supplies materials by screw pumps and feeding branch pipelines which have the same number as the layers of the transmission belt, the spreading motor drives a swing arm which extends into the feeding end of the layer transmission belt on a vertical shaft to swing in a reciprocating manner through a crank, and the swing arm is communicated with a material spitting nozzle of each feeding branch pipeline to uniformly distribute the slurry raw materials on the transmission belt; the discharging system comprises a discharging pipe, a screw rod is arranged in the discharging pipe, and a crusher, a first discharging valve, a middle storage tank, a second discharging valve and a powder outlet are sequentially arranged on the lower side of the discharging end of the discharging pipe. The automatic drying device can realize automatic continuous drying, has high drying efficiency, uniform distribution of slurry raw materials, smooth discharging of dried finished products, convenient maintenance and overhaul operation and good product quality after drying.

However, the inventor finds that the technical scheme still has at least the following defects that a cylindrical tank is generally adopted in the prior art, the interior of the tank is vacuumized to facilitate water evaporation, so that low-temperature drying is realized, meanwhile, a sealing cover is arranged at the end part of the tank, a glass observation window is arranged on the sealing cover, and then the observation window is fixed on the sealing cover by using a flange, but the prior art lacks automatic cleaning of the observation window, and after long-time use, impurities are adhered to glass to reduce the permeability of the observation window, so that the working condition of the interior of the tank is inconvenient to observe.

Therefore, a low-temperature drying system which does not destroy the effective components of the collagen peptide powder is provided.

Disclosure of Invention

The invention mainly solves the technical problems in the prior art and provides a low-temperature drying system which does not destroy the effective components of collagen peptide powder.

In order to achieve the purpose, the invention adopts the following technical scheme that the low-temperature drying system without damaging the effective components of the collagen peptide powder comprises a drying tank, a supporting leg, a vacuum discharge tank, a sealing cover, a flange and observation glass, wherein the supporting leg is fixedly connected with the drying tank, the vacuum discharge tank is arranged on the side edge of the drying tank and is communicated with the drying tank through a pipeline, the sealing cover is connected with the drying tank through a bolt, the observation glass is connected with the flange and is arranged on the end surface of the sealing cover, a cleaning mechanism is arranged on the surface of the observation glass and comprises a scraping plate, an air hole I, a fixing ring, an inner chute, a partition plate, an air hole II, an ejector rod, a sliding block, a strong magnetic block, an outer chute and a metal block, the fixing ring is fixedly connected with the flange, the side wall of the fixing ring is clamped with the outer chute, and the metal block is connected with the outer chute in a sliding manner, scraper blade and metal block swing joint and scraper blade and observation glass laminating, solid fixed ring is inside to be seted up the inner chute, the partition panel is located the inner chute and partition panel and solid fixed ring fixed connection, and gu fixed ring's lateral wall sets up gas pocket two, ejector pin and sliding block fixed connection, strong magnet and sliding block fixed connection, sliding block and inner chute sliding connection, flange and solid fixed ring set up gas pocket one jointly.

Preferably, the fixing ring is a circular ring, the end face of the fixing ring is fixedly connected with the left side wall of the flange, and the fixing ring is located in the drying tank.

Preferably, the outer sliding groove is formed in the inner circumferential surface of the fixing ring, the outer sliding groove is an annular groove, the outer sliding groove and the center of the fixing ring are located on the same axis, the metal block is an arc-shaped block, and the metal block is matched with the outer sliding groove.

Preferably, the partition panel is arc and partition panel and interior spout adaptation, and the partition panel divides into two parts with interior spout, the gas pocket two is located one side of partition panel and gas pocket two and interior spout intercommunication, and the sliding block is located the opposite side of partition panel.

Preferably, the sliding block is bow-shaped piece and sliding block and interior spout adaptation, the lateral wall fixed connection of ejector pin and sliding block and ejector pin and partition panel laminating, strong magnetism piece is embedded in the sliding block, gas hole one is circular port and gas hole one and interior spout intercommunication, and gas hole one is located between partition panel and the sliding block.

As preferred, clearance mechanism still includes montant, connecting plate, horizontal tube, catch bar and rotary rod, montant and metal block fixed connection, connecting plate and montant fixed connection, horizontal tube and connecting plate fixed connection, catch bar and horizontal tube fixed connection, spring and catch bar fixed connection, rotary rod and catch bar fixed connection, the rotor plate rotates with the rotary rod to be connected, scraper blade and rotor plate fixed connection.

Preferably, the vertical rod is a circular rod and is fixedly connected with the inner circumferential surface of the metal block, the connecting plate is a rectangular plate and is fixedly connected with the end surface of the vertical rod, and the connecting plate and the vertical rod are both located in the cavity of the fixing ring.

Preferably, the horizontal pipe is a circular pipe with one closed end, the outer end face of the horizontal pipe is fixedly connected with the connecting plate, the push rod is matched with the horizontal pipe and is in sliding connection with the inner wall face of the horizontal pipe, one end of the spring is fixedly connected with the end face of the push rod, the other end of the spring is fixedly connected with the inner wall face of the horizontal pipe, and the circle center of the horizontal pipe and the circle center of the fixing ring are located on the same axis.

Preferably, the rotating plate is a C-shaped plate, the rotating rod is matched with the rotating plate, the circumferential surface of the rotating rod is fixedly connected with the end surface of the pushing rod, and the circumferential surface of the rotating plate is fixedly connected with the middle position of the scraper.

Advantageous effects

The invention provides a low-temperature drying system without damaging the effective components of collagen peptide powder. The method has the following beneficial effects:

1. this do not destroy collagen peptide powder active ingredient's low temperature drying system, through the gaseous discharge of evacuation jar in with the drying cylinder, the atmospheric pressure in the drying cylinder is relative external atmospheric pressure and reduces, external gas gets into the inner chute from gas pocket one and arrives two opposite sides in the gas pocket, because the gas in the inner chute is discharged from gas pocket two, the gas that the external world got into in the inner chute is located between partition panel and the sliding block, external gas promotes the sliding block including sliding in the inner chute, attract the metal block to slide in step and be circular motion in the outer chute through strong magnet, drive the scraper blade through the metal block and observe glass's left side circular motion and with observe the wall scraping that glass is located the drying cylinder, clear up the impurity spot of adhesion on observing the glass wall, improve the permeability of observing glass, be convenient for observe the inside operating mode of drying cylinder.

2. This do not destroy collagen peptide powder active ingredient's low temperature drying system, through utilizing the inside and outside air pressure differential of drying jar, the metal block drives the scraper blade and clears up observing the glass scraping, and dry a batch of collagen peptide in the drying jar at every turn, during the discharge material, the sliding block resets and drives the metal block and resets and make the scraper blade get back to the starting point, and is once dry, and the scraper blade is twice scrapes the clearance observing glass, and is better to observing glass's clearance effect.

3. This do not destroy collagen peptide powder active ingredient's low temperature drying system, it is the circular motion to observe the wall that glass is located the drying cylinder and carry out the scraping clearance to utilize the inside and outside atmospheric pressure difference of drying cylinder to drive the scraper blade, reduces and observes the frequency that glass opened sealed lid because of the clearance, reduces sealed lid and opens the thermal loss of in-process, reduces simultaneously and observes the work load that glass increased because of the clearance.

4. This do not destroy collagen peptide powder active ingredient's low temperature drying system, through when there is not atmospheric pressure difference outside the drying chamber, ejector pin and partition panel contact, leave the clearance between the same sliding block of partition panel, the gas pocket is one and is located between partition panel and the sliding block, when forming atmospheric pressure difference inside and outside the drying chamber, external gas gets into the space between partition panel and the sliding block from gas pocket one, when guaranteeing that gas is discharged in the spout including, external gas gets into and can promote the sliding block to slide in the spout including between partition panel and the sliding block, improve the stability of clearance.

5. This do not destroy collagen peptide powder active ingredient's low temperature drying system slides through the metal block and drives the horizontal pipe and do circular motion around solid fixed ring's the centre of a circle in outer spout, and the horizontal pipe is kept away from to the elasticity promotion catch bar through the spring, and the catch bar promotes the scraper blade and closely laminates with the observation glass wall, improves the clearance effect through the laminating degree that improves scraper blade and observation glass.

6. This do not destroy collagen peptide powder active ingredient's low temperature drying system through setting up rotary rod and rotor plate, on realizing that the scraper blade is circular motion's basis around the centre of a circle of observing glass, improves the degree of freedom of scraper blade, and the cooperation catch bar promotes the scraper blade and hugs closely observing glass, adapts to the incomplete smooth face of observing glass, improves the clearance quality, reduces the clearance dead angle.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below. It should be apparent that the drawings in the following description are merely exemplary, and that other embodiments can be derived from the drawings provided by those of ordinary skill in the art without inventive effort.

The structures, ratios, sizes, and the like shown in the present specification are only used for matching with the contents disclosed in the specification, so as to be understood and read by those skilled in the art, and are not used to limit the conditions that the present invention can be implemented, so that the present invention has no technical significance, and any structural modifications, changes in the ratio relationship, or adjustments of the sizes, without affecting the effects and the achievable by the present invention, should still fall within the range that the technical contents disclosed in the present invention can cover.

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

FIG. 2 is an enlarged view of A of FIG. 1 according to the present invention;

FIG. 3 is an exploded view of the cleaning mechanism and flange of the present invention;

FIG. 4 is a cutaway view of the retaining ring of the present invention;

FIG. 5 is an enlarged view of B of FIG. 3 according to the present invention;

FIG. 6 is a schematic view of the horizontal tube separated from the push rod according to the present invention.

Illustration of the drawings:

10. a drying tank; 11. supporting legs; 12. discharging the vacuum tank; 13. a sealing cover; 14. a flange; 15. observing glass; 20. a squeegee; 21. a first air hole; 22. a fixing ring; 23. an inner chute; 24. a partition panel; 25. a second air hole; 26. a top rod; 27. a slider; 28. a strong magnetic block; 29. an outer chute; 30. a metal block; 31. a vertical rod; 32. a connecting plate; 33. a horizontal tube; 34. a push rod; 35. rotating the rod; 36. a rotating plate; 37. a spring.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Example (b): a low-temperature drying system without damaging effective components of collagen peptide powder is shown in figures 1-6 and comprises a drying tank 10, a supporting leg 11, a vacuum discharge tank 12, a sealing cover 13, a flange 14 and an observation glass 15, wherein the supporting leg 11 is fixedly connected with the drying tank 10, the vacuum discharge tank 12 is arranged on the side edge of the drying tank 10, the vacuum discharge tank 12 is communicated with the drying tank 10 through a pipeline, the sealing cover 13 is connected with the drying tank 10 through a bolt, the observation glass 15 is connected with the flange 14, the flange 14 is arranged on the end face of the sealing cover 13, a cleaning mechanism is arranged on the surface of the observation glass 15, the cleaning mechanism comprises a scraper 20, an air hole I21, a fixing ring 22, an inner chute 23, a partition plate 24, an air hole II 25, an ejector rod 26, a sliding block 27, a strong magnetic block 28, an outer chute 29 and a metal block 30, the fixing ring 22 is fixedly connected with the flange 14, a side wall of the fixing ring 22 is clamped with the outer chute 29, the metal block 30 is connected with the outer chute 29 in a sliding manner, the scraper 20 is movably connected with the metal block 30, the scraper 20 is attached to the observation glass 15, the inner chute 23 is arranged in the fixing ring 22, the partition plate 24 is positioned in the inner chute 23, the partition plate 24 is fixedly connected with the fixing ring 22, the side wall of the fixing ring 22 is provided with the air hole two 25, the ejector rod 26 is fixedly connected with the sliding block 27, the strong magnetic block 28 is fixedly connected with the sliding block 27, the sliding block 27 is connected with the inner chute 23 in a sliding manner, the flange 14 and the fixing ring 22 are both provided with the air hole one 21, the fixing ring 22 is a circular ring, the end surface of the fixing ring 22 is fixedly connected with the left side wall of the flange 14, the fixing ring 22 is positioned in the drying tank 10, the outer chute 29 is arranged on the inner circumferential surface of the fixing ring 22, the outer chute 29 is an annular groove, the centers of the outer chute 29 and the fixing ring 22 are positioned on the same axis, the metal block 30 is an arc-shaped block, and the metal block 30 is matched with the outer chute 29, the partition plate 24 is an arc-shaped plate, the partition plate 24 is matched with the inner chute 23, the partition plate 24 divides the inner chute 23 into two parts, the air hole two 25 is positioned on one side of the partition plate 24, the air hole two 25 is communicated with the inner chute 23, the sliding block 27 is positioned on the other side of the partition plate 24, the sliding block 27 is an arc-shaped block, the sliding block 27 is matched with the inner chute 23, the ejector rod 26 is fixedly connected with the side wall of the sliding block 27, the ejector rod 26 is attached to the partition plate 24, the strong magnetic block 28 is embedded in the sliding block 27, the air hole one 21 is a circular hole, the air hole one 21 is communicated with the inner chute 23, the air hole one 21 is positioned between the partition plate 24 and the sliding block 27, the air in the drying tank 10 is exhausted through the exhaust vacuum tank 12, the air pressure in the drying tank 10 is reduced relative to the external air pressure, the external air enters the inner chute 23 from the air hole one 21 and reaches the opposite side of the air hole two 25, because the air hole 23 is exhausted from the air hole two 25, the outside air that gets into in the spout 23 is located between partition plate 24 and the sliding block 27, and outside air promotes sliding block 27 and slides in interior spout 23, attracts metal block 30 through strong magnetism piece 28 and slides and do circular motion in outer spout 29 in step, drives scraper blade 20 through metal block 30 and scrapes at the left side circular motion of observation glass 15 and with the wall that observation glass 15 is located the drying chamber 10, clears up the impurity spot of adhesion on observation glass 15 wall, improves the permeability of observation glass 15, the operating mode of the inside of drying chamber 10 of being convenient for observe.

Through utilizing the inside and outside atmospheric pressure difference of drying chamber 10, metal block 30 drives scraper blade 20 and clears up observation glass 15 scraping, and dry a batch collagen peptide in drying chamber 10 at every turn, during the discharge material, sliding block 27 resets and drives metal block 30 and resets and make scraper blade 20 get back to the starting point, and is once dry, and scraper blade 20 scrapes the clearance twice to observation glass 15, and is better to observation glass 15's clearance effect.

The scraper 20 is driven to do circular motion by utilizing the air pressure difference inside and outside the drying tank 10 to scrape and clean the wall surface of the observation glass 15 in the drying tank 10, so that the frequency of opening the sealing cover 13 by cleaning the observation glass 15 is reduced, the heat loss in the opening process of the sealing cover 13 is reduced, and the workload of increasing the observation glass 15 by cleaning is reduced.

Through when there is not atmospheric pressure difference inside and outside the drying chamber 10, ejector pin 26 and partition panel 24 contact, leave the clearance between the same sliding block 27 of partition panel 24, air hole 21 is located between partition panel 24 and the sliding block 27, when forming atmospheric pressure difference inside and outside the drying chamber 10, external gas gets into the space between partition panel 24 and the sliding block 27 from air hole 21, when guaranteeing that gas is discharged in spout 23 including, external gas gets into and can promote sliding block 27 and slide in spout 23 including between partition panel 24 and the sliding block 27, improve the stability of clearance.

The cleaning mechanism further comprises a vertical rod 31, a connecting plate 32, a horizontal pipe 33, a pushing rod 34 and a rotating rod 35, the vertical rod 31 is fixedly connected with the metal block 30, the connecting plate 32 is fixedly connected with the vertical rod 31, the horizontal pipe 33 is fixedly connected with the connecting plate 32, the pushing rod 34 is fixedly connected with the horizontal pipe 33, a spring 37 is fixedly connected with the pushing rod 34, the rotating rod 35 is fixedly connected with the pushing rod 34, a rotating plate 36 is rotatably connected with the rotating rod 35, a scraper 20 is fixedly connected with the rotating plate 36, the vertical rod 31 is a circular rod, the vertical rod 31 is fixedly connected with the inner circumferential surface of the metal block 30, the connecting plate 32 is a rectangular plate, the connecting plate 32 is fixedly connected with the end surface of the vertical rod 31, the connecting plate 32 and the vertical rod 31 are both positioned in a cavity of the fixing ring 22, the horizontal pipe 33 is a circular pipe with a closed end, the outer end surface of the horizontal pipe 33 is fixedly connected with the connecting plate 32, the pushing rod 34 is matched with the horizontal pipe 33, and the inner wall surface of the pushing rod 34 is slidably connected with the horizontal pipe 33, one end of a spring 37 is fixedly connected with the end face of the pushing rod 34, the other end of the spring 37 is fixedly connected with the inner wall face of the horizontal tube 33, the circle center of the horizontal tube 33 and the circle center of the fixing ring 22 are located on the same axis, the rotating plate 36 is a C-shaped plate, the rotating rod 35 is matched with the rotating plate 36, the circumferential face of the rotating rod 35 is fixedly connected with the end face of the pushing rod 34, the outer circumferential face of the rotating plate 36 is fixedly connected with the middle position of the scraper 20, the horizontal tube 33 is driven to do circular motion around the circle center of the fixing ring 22 by sliding of the metal block 30 in the outer sliding groove 29, the pushing rod 34 is pushed to be far away from the horizontal tube 33 through the elastic force of the spring 37, the pushing rod 34 pushes the scraper 20 to be tightly attached to the wall face of the observation glass 15, and the cleaning effect is improved by improving the attaching degree of the scraper 20 and the observation glass 15.

Through setting up rotary rod 35 and rotor plate 36, on the basis that realization scraper blade 20 does circular motion around the centre of a circle of observing glass 15, improve scraper blade 20's degree of freedom, cooperation catch bar 34 promotes scraper blade 20 and hugs closely observing glass 15, adapts to the incomplete smooth face of observing glass 15, improves the clearance quality, reduces the clearance dead angle.

The working principle of the invention is as follows: the evacuation tank 12 evacuates the gas in the drying tank 10, the pressure in the drying tank 10 is reduced relative to the outside pressure, the outside gas enters the inner chute 23 from the first air hole 21 and reaches the opposite side of the second air hole 25, because the air in the inner chute 23 is exhausted from the air hole 25, the air outside the inner chute 23 is located between the partition plate 24 and the sliding block 27, the sliding block 27 is pushed by the outside air to slide in the inner chute 23, the metal block 30 is attracted by the strong magnet 28 to synchronously slide in the outer sliding groove 29 and make circular motion, the scraper 20 is driven by the metal block 30 to move circularly on the left side of the observation glass 15 and scrape on the wall surface of the observation glass 15 in the drying tank 10, the metal block 30 slides in the outer chute 29 to drive the horizontal pipe 33 to move circularly around the center of the fixed ring 22, the pushing rod 34 is pushed away from the horizontal pipe 33 by the elastic force of the spring 37, and the pushing rod 34 pushes the scraper 20 to be closely attached to the wall surface of the observation glass 15.

The foregoing shows and describes the general principles and broad features of the present invention and advantages thereof. 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 (9)

1. The utility model provides a do not destroy collagen peptide powder active ingredient's low temperature drying system, includes drying chamber (10), supporting leg (11), row's vacuum chamber (12), sealed lid (13), flange (14) and observes glass (15), supporting leg (11) and drying chamber (10) fixed connection, row's vacuum chamber (12) set up the side in drying chamber (10), arrange vacuum chamber (12) and drying chamber (10) and pass through the pipeline intercommunication, sealed lid (13) pass through bolted connection with drying chamber (10), observe glass (15) and flange (14) be connected and flange (14) install the terminal surface at sealed lid (13), its characterized in that: the surface of observation glass (15) sets up clearance mechanism, clearance mechanism includes scraper blade (20), gas pocket (21), solid fixed ring (22), interior spout (23), partition panel (24), gas pocket two (25), ejector pin (26), sliding block (27), strong magnetic block (28), outer spout (29) and metal block (30), gu fixed ring (22) and flange (14) fixed connection, gu fixed ring's (22) lateral wall card is said and outer spout (29), metal block (30) and outer spout (29) sliding connection, scraper blade (20) and metal block (30) swing joint and scraper blade (20) and observation glass (15) laminating, gu fixed ring (22) is inside to be seted up interior spout (23), partition panel (24) are located interior spout (23) and partition panel (24) and solid fixed ring (22) fixed connection, gu fixed ring (22)'s lateral wall sets up gas pocket two (25), ejector pin (26) and sliding block (27) fixed connection, strong magnet (28) and sliding block (27) fixed connection, sliding block (27) and interior spout (23) sliding connection, air hole one (21) are seted up jointly to flange (14) and solid fixed ring (22).

2. The low-temperature drying system for collagen peptide powder according to claim 1, wherein the drying system comprises: the fixed ring (22) is a circular ring, the end face of the fixed ring (22) is fixedly connected with the left side wall of the flange (14), and the fixed ring (22) is located in the drying tank (10).

3. The low-temperature drying system for collagen peptide powder without destroying effective components of claim 2, wherein: the outer sliding groove (29) is arranged on the inner circumferential surface of the fixing ring (22), the outer sliding groove (29) is an annular groove, the circle centers of the outer sliding groove (29) and the fixing ring (22) are located on the same axis, the metal block (30) is an arch-shaped block, and the metal block (30) is matched with the outer sliding groove (29).

4. The low-temperature drying system for collagen peptide powder according to claim 3, wherein the drying system comprises: partition panel (24) are arc and partition panel (24) and interior spout (23) adaptation, and partition panel (24) will divide into two parts in spout (23), air pocket two (25) are located one side of partition panel (24) and air pocket two (25) and interior spout (23) intercommunication, and sliding block (27) are located the opposite side of partition panel (24).

5. The low-temperature drying system for collagen peptide powder according to claim 4, wherein the drying system comprises: sliding block (27) are bow-shaped piece and sliding block (27) and interior spout (23) adaptation, lateral wall fixed connection and ejector pin (26) and partition panel (24) laminating of ejector pin (26) and sliding block (27), strong magnetic shoe (28) are embedded in sliding block (27), air pocket (21) are circular port and air pocket (21) and interior spout (23) intercommunication, and air pocket (21) are located between partition panel (24) and sliding block (27).

6. The low-temperature drying system for collagen peptide powder according to claim 5, wherein the drying system comprises: clearance mechanism still includes montant (31), connecting plate (32), horizontal pipe (33), catch bar (34) and rotary rod (35), montant (31) and metal block (30) fixed connection, connecting plate (32) and montant (31) fixed connection, horizontal pipe (33) and connecting plate (32) fixed connection, catch bar (34) and horizontal pipe (33) fixed connection, spring (37) and catch bar (34) fixed connection, rotary rod (35) and catch bar (34) fixed connection, rotor plate (36) rotate with rotary rod (35) and are connected, scraper blade (20) and rotor plate (36) fixed connection.

7. The low-temperature drying system for collagen peptide powder according to claim 6, wherein the drying system comprises: montant (31) are circular rod and montant (31) and the interior circumference fixed connection of metal block (30), connecting plate (32) are the terminal surface fixed connection of rectangular plate and connecting plate (32) and montant (31), and connecting plate (32) and montant (31) all are located the intracavity of solid fixed ring (22).

8. The low-temperature drying system for collagen peptide powder according to claim 7, wherein the drying system comprises: the horizontal pipe (33) is a round pipe with one closed end, the outer end face of the horizontal pipe (33) is fixedly connected with the connecting plate (32), the push rod (34) is matched with the horizontal pipe (33) and the push rod (34) is in sliding connection with the inner wall face of the horizontal pipe (33), one end of the spring (37) is fixedly connected with the end face of the push rod (34) and the other end of the spring (37) is fixedly connected with the inner wall face of the horizontal pipe (33), and the circle center of the horizontal pipe (33) and the circle center of the fixing ring (22) are located on the same axis.

9. The low-temperature drying system for collagen peptide powder according to claim 8, wherein the drying system comprises: the rotating plate (36) is a C-shaped plate, the rotating rod (35) is matched with the rotating plate (36), the circumferential surface of the rotating rod (35) is fixedly connected with the end surface of the pushing rod (34), and the circumferential surface of the rotating plate (36) is fixedly connected with the middle position of the scraper (20).

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