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CN-121975613-A - Collagen peptide enzymolysis device

CN121975613ACN 121975613 ACN121975613 ACN 121975613ACN-121975613-A

Abstract

The invention discloses a collagen peptide enzymolysis device, which relates to the technical field of collagen peptide enzymolysis and comprises an annular base, an outer tank body and an inner tank body, wherein the outer tank body and the inner tank body are arranged above the base, two vertical support columns are symmetrically fixed on two sides of the top surface of the base, a sliding rail is arranged in the middle of the top surface of the base, sliding telescopic support pieces are slidably arranged at two ends of the sliding rail, rotary supports are rotatably arranged on one sides of the tops of the two support columns facing the outer tank body, a second motor for driving the rotary supports to rotate is arranged on one side of the tops of the two support columns, and the outer tank body is coaxially sleeved on the outer side of the inner tank body. The invention can realize uniform heating of the solution in the inner tank body, can avoid the problem of electric quantity waste caused by heating and the problem of low enzymolysis efficiency caused by nonuniform temperature rise in the solution, and can classify and treat various conditions in enzymolysis, thereby improving the practicability of the device.

Inventors

  • Lei Minglu
  • SHI YUHUI

Assignees

  • 喜悦(广东)医药生物科技有限公司

Dates

Publication Date
20260505
Application Date
20240104

Claims (10)

  1. 1. The collagen peptide enzymolysis device comprises an annular base (1) and an outer tank body (4) and an inner tank body (8) which are arranged above the base (1), and is characterized in that two vertical support columns (2) are symmetrically fixed on two sides of the top surface of the base (1), a sliding rail is arranged in the middle of the top surface of the base (1), sliding telescopic support pieces (3) are slidably arranged at two ends of the sliding rail, a rotary support (5) is rotatably arranged on one side, facing the outer tank body (4), of the top of the two support columns (2), a second motor (7) for driving the rotary support (5) to rotate is arranged on one side of the top of the two support columns (2), the outer tank body (4) is coaxially sleeved on the outer side of the inner tank body (8), a first motor (6) for driving the inner tank body (8) to rotate is arranged on the top of the outer side of the outer tank body (4), two plug-in support blocks (402) are symmetrically fixed in the middle of the outer side of the outer tank body (4), a spiral second heating ring (9) is sleeved on the outer side of the cylindrical outer tank body (8), two spiral heating rings (10) are respectively inserted into the two spiral heating ring bodies (10) and are respectively sleeved on the two spiral heating ring bodies (10), and a contact conductive component for controlling the intermittent or synchronous work of the first heating ring (10) and the second heating ring (9) is arranged between the plugging support block (402) and the rotary support (5) on the same side.
  2. 2. The collagen peptide enzymolysis device according to claim 1, wherein a supporting top plate (11) for sealing the top opening of the inner tank body (8) is installed at the top opening of the outer tank body (4), a third motor (12) for driving the stirring assembly in the inner tank body (8) to work is installed on the top surface of the supporting top plate (11), and a feeding pipe (13) is installed on the supporting top plates (11) on two sides of the third motor (12) in a penetrating manner.
  3. 3. The collagen peptide enzymolysis device according to claim 1, wherein bearing seats (15) are respectively connected between the outer side of the top end of the inner tank body (8) and the top end of the outer tank body (4) and between the outer side of the bottom of the inner tank body (8) and the bottom end of the outer tank body (4), and a sealing ring (16) is arranged on one side, close to the inner part of the outer tank body (4), of each bearing seat (15).
  4. 4. The collagen peptide enzymolysis device according to claim 1, wherein the output shaft of the first motor (6) extends into a gap between the outer tank body (4) and the inner tank body (8) and is provided with a bevel gear (14), and the outer side of the top of the inner tank body (8) is fixedly sleeved with a bevel ring (801) meshed with the bevel gear (14).
  5. 5. The collagen peptide enzymolysis device according to claim 1, wherein the upper and lower ends of the inner wall of the outer tank body (4) are provided with annular inner grooves (401), the upper and lower ends of the outer side of the inner tank body (8) are fixedly sleeved with supporting rings (802) which are matched with the inner grooves (401), and the second heating ring (9) is arranged between the upper and lower supporting rings (802).
  6. 6. The collagen peptide enzymolysis device according to claim 1, wherein the rotary support (5) is provided with an insertion groove (502) for inserting the insertion support block (402) inwards towards the middle part of one side surface of the outer tank body (4), the rotary support (5) is provided with a rotary shaft (501) which is fixedly arranged at the middle part of one side surface of the outer tank body (4) back to be inserted into the support column (2), the outer side of the rotary shaft (501) is fixedly sleeved with a worm wheel (702) in the support column (2), and the output shaft of the second motor (7) is inserted into the support column (2) and is fixedly provided with a worm (701) meshed with the worm wheel (702).
  7. 7. The collagen peptide enzymolysis device according to claim 6, wherein a bottom groove (503) is formed in the bottom of the inner side of the insertion groove (502), a pressure sensor (506), a first guide pillar (504) and a first spring (505) are installed in the bottom groove (503), the pressure sensor (506) is arranged at the bottom of the bottom groove (503), the first guide pillar (504) is arranged above the pressure sensor (506), the top of the first guide pillar (504) is flush with the bottom of the insertion groove (502), the first spring (505) is sleeved on the outer side of the first guide pillar (504), the bottom of the first spring (505) is in contact with the pressure sensor (506), and the top of the first spring (505) is in contact with the insertion support block (402).
  8. 8. The collagen peptide enzymolysis device according to claim 7, wherein the plug-in support block (402) is provided with a sliding cavity (4021) upwards at the bottom of one end in the plug-in groove (502), the contact conductive component is arranged between the sliding cavity (4021) and the inner wall of the plug-in groove (502), the contact conductive component comprises a first electric contact rod (507), a second electric contact rod (508) and an electric contact disc (4022), the electric contact disc (4022) is vertically arranged in the sliding cavity (4021), a supporting shaft (4023) is coaxially arranged in the middle of the electric contact disc (4022), one end of the supporting shaft (4023) is slidably connected to the inner wall of the plug-in groove (502), an insulating layer (4025) is arranged at the side surface of the electric contact disc (4022) close to the outer ring edge, the insulating layer (4025) is fan-shaped and is positioned at the top of the electric contact disc (4022), the first electric contact rod (507) and the second electric contact rod (508) are symmetrically provided with two first electric contact rods (507) and the second electric contact rods (508) which are symmetrically arranged at the two sides of the electric contact disc (4022), the two electric contact rods (508) are arranged at the two sides of the electric contact disc (4022) and are respectively, the two electric contact discs (508) are arranged at the two sides of the electric contact disc (5) and the electric contact disc (5), a rack (4024) meshed with the teeth is fixed on the inner wall of the sliding cavity (4021) of the inserting support block (402).
  9. 9. The collagen peptide enzymolysis device according to claim 8, wherein the first electric contact rods (507) are arranged close to the rack (4024), wherein two first electric contact rods (507) form a first closed path with the first heating ring (10) and the power supply after being contacted by the electric contact disc (4022) electric conduction area, two second electric contact rods (508) form a second closed path with the second heating ring (9) after being contacted by the electric contact disc (4022) electric conduction area, the first closed path and the second closed path are arranged in series, and the first electric contact rods (507) and the second electric contact rods (508) form a third closed path with the power supply, the first heating ring (10) and the second heating ring (9) after being contacted by the electric contact disc (4022) electric conduction area.
  10. 10. The collagen peptide enzymolysis device according to claim 9, wherein a T-shaped groove (509) is formed in a side wall of the insertion groove (502) corresponding to the notch, a T-shaped slider (511) is slidably mounted in the T-shaped groove (509), one end of the supporting shaft (4023) is fixed on the T-shaped slider (511), a second spring (510) is arranged at the bottom of the T-shaped groove (509) and is closely attached to the T-shaped slider (511), and a second guide post is arranged in the second spring (510).

Description

Collagen peptide enzymolysis device Technical Field The invention relates to the technical field of collagen peptide enzymolysis, in particular to a collagen peptide enzymolysis device. Background Collagen peptide enzymolysis refers to the process of decomposing collagen into collagen peptides by enzymolysis, and a collagen peptide enzymolysis device is an apparatus or tool for decomposing collagen into collagen peptides, and generally, in the reaction, enzymolysis enzymes or other specific enzymes are used to accelerate the decomposition process of collagen, so that smaller peptide fragments are generated. In the process of processing collagen, a collagen sample, enzymolysis enzyme and corresponding buffer solution are prepared, the collagen sample is mixed with the enzymolysis enzyme and the buffer solution, then enzymolysis reaction is carried out under set conditions, the temperature in the reaction is critical to the enzymolysis efficiency, but the heating structure is generally arranged outside an enzymolysis tank in the current enzymolysis device, the whole tank body is heated by the heating structure, when the reaction solution is less, the whole tank body is still heated by the heating structure at the moment, and the area which is not filled with the solution is still heated, so that the loss of heating capacity and the heating non-uniformity are caused. Disclosure of Invention The invention aims to solve the problems that when the reaction solution is less in the prior art, the heating structure still heats the whole tank body, so that the area without the solution is still heated, the heating capacity is lost, and the heating is uneven. In order to achieve the above purpose, the present invention adopts the following technical scheme: The utility model provides a collagen peptide enzymolysis device, includes annular base and sets up the outer jar body and the inner tank body in the base top, the top surface bilateral symmetry of base is fixed with two vertical support columns, installs the slide rail in the middle of the top surface of base to slidable mounting has the flexible support piece of slip at the both ends of slide rail, two the top of support column is all rotated towards one side of the outer jar body and is installed rotatory support, and the second motor of drive rotatory support pivoted is installed to one side of the top of two support columns, the coaxial cover of outer jar body is in the outside of the inner tank body, and the first motor of the rotatory of the outer jar body is installed at the outside top of the outer jar body, and the outside middle part symmetry of the outer jar body is fixed with two grafting supporting pieces, the cylindricality middle part outside of the inner tank body is cup jointed and is installed the second heating ring of heliciform, and is installed the first heating ring of heliciform outside cup joint in the toper bottom of the inner tank body, two peg graft the supporting pieces and insert the inboard of two rotatory support respectively, and install the conductive component that controls first heating ring and the intermittent or synchronous work of second heating ring between the grafting supporting pieces and the rotatory support. Preferably, the top opening of the outer tank body is provided with a supporting top plate for sealing the top opening of the inner tank body, the top surface of the supporting top plate is provided with a third motor for driving the stirring assembly in the inner tank body to work, and the supporting top plates at two sides of the third motor are provided with feeding pipes in a penetrating way. Preferably, bearing seats are respectively connected between the outer side of the top end of the inner tank body and the top end of the outer tank body and between the outer side of the bottom of the inner tank body and the bottom end of the outer tank body, and a sealing ring is arranged on one side, close to the inner part of the outer tank body, of each bearing seat. Preferably, the output shaft of the first motor extends into a crack between the outer tank body and the inner tank body, a bevel gear is arranged in the crack, and a bevel gear ring meshed with the bevel gear is fixedly sleeved on the outer side of the top of the inner tank body. Preferably, annular inner grooves are formed in the upper end and the lower end of the inner wall of the outer tank body, supporting rings which are matched with the inner grooves are fixedly sleeved at the upper end and the lower end of the outer side of the inner tank body, and the second heating ring is arranged between the upper supporting ring and the lower supporting ring. Preferably, the rotary support is inwards provided with a plugging groove for plugging the supporting block to be inserted towards the middle part of one side surface of the outer tank body, a rotating shaft which is inserted into the supporting column is fixedly arranged at the middle part of one side su