KR200258525Y1 - Automatic bead dropper - Google Patents

Abstract

The present invention relates to an automatic bead dropping machine, the pore size is large and uniformly made of chitosan beads of uniform porosity to make the cell culture efficiently.

The present invention is connected to the raw material tank (1) containing the chitosan solution or the water-soluble chitosan solution and the compressor (2) for supplying air through the pipelines (4, 5), respectively, and the solution of the raw material tank (1) to the appropriate size Chloropentane, n-hexane, dichloropentane, chloroform, ethyl acetate so as to form pores of a desired size in the nozzle (3) into which the furnace beads (6) are dripped, and the beads (6) supplied through the nozzle (3) are formed. The primary tank 7 in which organic solvents such as and the like have been sorted and accommodated, and the primary tank 7 can be accommodated below the primary tank 7 and bead 6 of the primary tank 7 can be accommodated. ) Is composed of a secondary tank (8) for sorting while maintaining a proper state so as not to melt.

Description

Automatic Bead Dropper {AUTOMATIC BEAD DROPPER}

The present invention relates to an automatic bead dropper.

As is generally known, for efficient cultivation of cells, the substrate must have the ability to adsorb on the cells, promote the growth of the cells, maintain the functions of the cells, and have properties such as biocompatibility, biodegradability, moldability and porosity. What is necessary is that the cell culture can replace metabolic organs such as liver and body length, cartilage, bone, and the like.

The substrate for culturing the cell is a porous substrate is necessary to adsorb a large number of cells in a predetermined space, the pore size and the three-dimensional structure of the pore is also very important for the growth, angiogenesis, and nutrient diffusion of the cells. Should be considered.

In order to satisfy the characteristics described above, a bead-like matrix is formed, and various kinds of cells are adsorbed on the beads and then transplanted into tissues, which are used for tissue replacement studies. However, the beads have various sizes depending on the polymerized material. On the other hand, the pore size was 0.7-2.6 μm, which is very small, which is not suitable for cell culture. In addition, the existing bead substrate consisting of alginate or gelatin is difficult to produce a pore of the desired size, it is difficult to produce beads having uniform pores on the surface and inside. Therefore, the adsorption of various cells is not only difficult but also has the disadvantage that the cells are not strongly adsorbed and grow during the culture of the cells on the porous substrate.

On the other hand, chitosan made of a natural polymer having stability and various applications is a basic polysaccharide prepared by N-deacetylation by treating chitin with high concentration of alkali. It is a trend that is superior to the polymer and used as a substrate for cell culture.

The chitosan was carried out as a substrate of various forms, but the chitosan beads were used only for adsorption of ions or magnetic materials and purification using the pores because of their very small pore size. .

The object of the present invention is to provide an automatic bead dropping machine to efficiently make cell culture by conveniently preparing chitosan beads having a large pore size and uniform porosity by correcting the above problems.

In order to achieve the above object, the present invention is connected to the raw material tank and the compressor through a pipeline, and a nozzle for dropping the solution of the raw material tank, and the organic solvent is accommodated to form pores in the beads supplied through the nozzle It is composed of a primary tank and a secondary tank which is installed below the primary tank and sorts while cooling the beads of the primary tank in a proper state.

1 is a layout view of an embodiment of the present invention,

2 is a schematic view showing a nozzle of an embodiment of the present invention;

Figure 3 is a side cross-sectional view showing a primary tank of an embodiment of the present invention,

4 is a plan view showing a primary tank of an embodiment of the present invention,

5 is a schematic view showing a secondary tank of an embodiment of the present invention.

<Description of the code used in the main part of the drawing>

1: Raw material tank 2: Compressor

3: nozzle 6: bead

7: primary tank 8: secondary tank

16: bead sorting net

1 to 5, the chitosan solution or water-soluble chitosan solution, etc. are connected to the raw material tank 1 and the compressor (2) for supplying air through the pipeline (4, 5), respectively, In addition, the bead (6) of the solution of the raw material tank (1) to the appropriate size dropping nozzle 3 and chloropentane, so as to form pores of the desired size in the bead (6) supplied through the nozzle (3), and a primary tank (7) in which organic solvents such as n-hexane, dichloropentane, chloroform, and ethyl acetate are selected and accommodated, and installed to accommodate the primary tank (7) under the primary tank (7); In addition, the bead (6) of the primary tank (7) consists of a secondary tank (8) for sorting while maintaining in an appropriate state so that it does not melt.

The nozzle (3) is a drop of the solution in the form of a bead (6) to a suitable size, dropping, forming a plurality of bead forming holes (9) in the center of the nozzle 3, the bead forming hole (9) The air induction hole 10 is formed so that the raw liquid discharged into the bead forming hole 9 becomes the bead 6 while the air supplied from the compressor 2 is discharged to the outside.

In addition, the primary tank 7 is to contain uniform pores on the surface and inside of the loaded beads 6 and to form pores having a thickness of about 5 to 200 μm, and the primary tank 7 is The door 12 is installed at the bottom of the pneumatic cylinder 11 so as to be opened and closed in the vertical direction and selectively discharges the beads 6, and rotated by the motor 13 so as to be located at the side of the door 12. While providing a stirring body (14) for mixing the organic solvent and the beads (6), the inside of the primary tank (7) is to maintain -5 ℃ to -20 ℃.

The pneumatic cylinder 11 and the door 12 are connected by a rod 11 'and a connector 15, and as the rod 11' of the pneumatic cylinder 11 is operated in the vertical direction, the connector ( 15 is interlocked so that the bead 6 and the organic solvent are discharged selectively to the secondary tank 8 by rotating the door 12 in the vertical direction.

In addition, the secondary tank 8 is to detachably install the bead screening net 16 for screening the beads 6 of the appropriate size in the center portion, the bead screening net 16 is a secondary organic solvent It is directed to the bottom of the tank (8) and the beads (6) of about 200-500 ㎛ is caught, and the inside of the secondary tank (8) is to maintain -20 ℃ ~-25 ℃ .

Reference numeral 17 denotes a flow control valve for adjusting the supply amount of chitosan raw material, and 18 denotes an air control valve for controlling the amount of air supplied to the nozzle 3.

The present invention as described above is to make the cell culture efficiently by making the pore size and uniformly uniform chitosan bead conveniently, the chitosan raw material of the raw material tank (1) through the pipeline (4) 3) and the air of the compressor (2) to the nozzle (3) through the pipeline (5). The chitosan raw material and air are supplied to the nozzle 3 and at the same time the chitosan raw material is discharged through the bead forming hole 9, and when the chitosan raw material is discharged through the bead forming hole 9, the air induction hole 10 is provided. By the pressure of the air supplied through the chitosan raw material is bead (6) is dropped into the primary tank (7).

The beads 6 dropped into the primary tank 7 have pores formed by the organic solvent of the primary tank 7 and the temperature (−5 ° C. to −20 ° C.), and the beads 6 are organic. By operating the motor 13 when falling into the solvent to rotate the stirring body 14, when the stirring body 14 is rotated, the organic solvent and the beads 6 are stirred to form a uniform pore of the desired size will be.

After forming uniform pores on the surface and the inside of the bead (6) to discharge to the secondary tank (8), in order to discharge the bead (6) having the pores formed in the secondary tank (8) It is to operate the door (11) to open and close the door (12). When the pneumatic cylinder 11 is operated, the door 12 rotates downward by the interlocking action of the rod 11 'and the connector 15. When the door 12 rotates downward, 1, 2 The primary tanks 7 and 8 are connected, and when the primary and secondary tanks 7 and 8 are connected, the organic solvent and the beads 6 are discharged to the secondary tank 8.

The organic solvent discharged to the secondary tank (8) passes through the bead sorting net (16) and is received at the bottom of the secondary tank (8), and the beads (6) discharged in the same manner as the organic solvent are beads It takes over the sorting network 16. When the bead 6 hangs on the bead sorting net 16, the temperature inside the secondary tank 8 is maintained at −20 ° C. to −25 ° C. so that the shape of the bead 6 remains unchanged. .

In order to freeze and dry the beads (6) present in the bead sorting net (16) to move to another location, the bead sorting net (16) is separated from the secondary tank (8) and moved to a position to freeze To dry. The freeze-dried chitosan beads are immersed in the culture medium and then adsorbed to the hepatocytes. When the adsorbed hepatocytes are cultured and observed, the cells maintain the pore shape to the inside of the pores as well as the pore surface of the porous chitosan beads. You can see that it is growing.

As described above, the present invention receives the chitosan raw material from the raw material tank and at the same time receives air from the compressor to bead the chitosan raw material and drop it into the primary tank, and drop the appropriate temperature and organic solvent into the bead dropped into the primary tank. The pores are formed, and the pores are formed and then discharged into the secondary tank so as to be caught in the bead sorting net, thereby making uniform and porous beads easily.

In addition, by forming a bead forming hole in the center of the nozzle, and by forming an air induction hole outside the bead forming hole, bead formation of chitosan raw materials is performed appropriately, and a stirring body is provided inside the primary tank and a lower side of the stirring body is provided. By installing the door in the pores, the pores of the beads are easily formed and discharged.

In addition, by forming uniform pores on the surface and inside of the beads, cell adsorption, biocompatibility, biodegradability, and the like in cell growth, angiogenesis, and nutrient diffusion compared to the animal and plant cell culture substrates used for conventional cell transplantation. Since it has excellent characteristics, it can be usefully used as a substrate for animal and plant cell culture.

Claims (4)

It is connected to the raw material tank (1) and the compressor (2) through the pipeline (4, 5), and the nozzle (3) for dropping the solution of the raw material tank (1), and the beads supplied through the nozzle ( 6) the primary tank (7) containing the organic solvent so that the pores are formed, and is installed below the primary tank (7), and the bead (6) of the primary tank (7) is cooled while appropriately screened Automatic bead dropper, characterized in that consisting of a secondary tank (8). The method of claim 1, The nozzle 3 is characterized by forming a bead forming hole (9) in the center, the air induction hole (10) to discharge the air supplied from the compressor (2) outside the bead forming hole (9) Automatic bead dropper. The method of claim 1, The primary tank 7 is installed in the bottom portion and opened and closed by the pneumatic cylinder 11 and selectively discharges the bead (6), and installed inside the primary tank (7) motor ( 13) Automatic bead dropper, characterized in that consisting of the stirring body 14 to mix the organic solvent and the beads (6) while being rotated by. The method of claim 1, Said secondary tank (8) is an automatic bead dropper, characterized in that the detachable installation of the bead sorting net (16) in the center portion.