KR101514541B1 - A nano mixer pump - Google Patents

Abstract

The nano mixer pump according to the present invention is characterized in that an inlet for introducing a medicine containing pulverized particles is formed at the center and an inflow plate formed with a plurality of inflow holes is welded and fixed to the rear of the inflow port, A mixer blade fixed to the motor shaft and having a plurality of cut-off portions formed in the crushing particle flow space and having an inclined front surface portion formed in close contact with a rear surface of the inlet plate of the suction cover, A boundary regulating plate disposed at the rear of the mixer blade and formed in close contact with the rear surface of the suction cover to form a crushed particle flow space portion and having a solution passing hole through which a solution containing particles finely ground by a mixer blade passes, A vessel which is installed at the rear of the adjustment plate and discharges the finely mixed solution introduced through the boundary adjustment plate to the outside A solution conveying body formed on one side of the stirring blade and rotated by being fixed to the motor shaft is included so that the particles of the drug mixed in the water-soluble drug are returned to the mixer blade The pulverized particles are pulverized to a size near the nano state and have almost the same weight as the water particles. Therefore, the pulverized particles are floated without being precipitated for a long time, It is possible that the effect of the drug is rapidly displayed on the absorbed human body and, if particles such as lumps are present in the medicine, the particles such as lumps can be finely pulverized into nanoparticles and not precipitated.

Description

A nano mixer pump

The present invention relates to a nano-mixer pump, and more particularly, to a nano-mixer pump which is capable of finely pulverizing an aqueous solution of a drug having fine powdery particles to a size of nanoparticles so that pulverized particles are floated for a long period of time without precipitation or entanglement The present invention relates to a nano mixer pump capable of rapidly absorbing the body during drinking and showing a quick drinking effect.

Generally, pumps used to transport medicines have been used only to perform the function of transporting medicines only.

Therefore, only the operation of applying the necessary power for transferring between the transfer tank and the storage tank having a certain distance is performed. Therefore, even when irregular particles such as sediment or lumps are accommodated in the transferred medicine, these precipitates and irregular particles are transferred Therefore, there is a problem in that it is present in the packaged drug and easily transformed and settled. Therefore, when it is taken, it has to be consumed after dissolving the precipitated state again.

In addition, the users who drink these medicines are also sedimented, so that the medicines are consumed for a long time to be taken in the body, which makes it difficult for the body to be accommodated, and sometimes it is difficult to be accommodated in the body. There was a problem that brought disorder.

SUMMARY OF THE INVENTION An object of the present invention is to solve such a problem, and it is an object of the present invention to solve the above problems, and to provide a method of recovering pulverized particles Since the size of the water particles is almost the same as that of the water particles, the water particles have almost the same weight as the water particles. Therefore, the particles are floated without being precipitated for a long time. In addition, when particles such as lumps are present in the drug, particles such as lumps are finely pulverized into nano-sized particles, so that particles such as lumps disappear and the drug solution is not precipitated, Nanomic capable of becoming To provide a pump.

The above object of the present invention is achieved by a method of manufacturing a plasma display panel in which an inflow port for introducing medicines containing pulverized particles is formed at the center and an inflow plate having a plurality of inflow holes is welded and fixed to the rear of the inflow port, A mixer blade fixed to the motor shaft and having a plurality of cut-off portions and disposed in the crushed particle flow space portion, the mixer blade having an inclined front surface portion formed substantially in close contact with a rear surface of the inlet plate of the suction cover, A boundary regulating plate disposed at the rear of the blade and closely contacting the rear surface of the blade to form a crushed particle flow space and having a solution passing hole through which a solution containing particles finely ground by a mixer blade passes, A discharge wing for discharging the finely mixed solution introduced through the boundary regulating plate to the outside, And a solution discharging hole communicating with the outside of the housing space part is formed in the housing space, and a suction hole is formed in the suction hole, A hermetic member having a hermetic seal fixed to the rear of the solution discharge casing and closely contacting the motor shaft to seal the motor shaft, A motor cover having one end fixed to the motor cover and the other end fixed to the motor cover and the mixer blade and the solution feeder fixed to the motor shaft so as to be rotated; The present invention provides a nano-mixer pump according to the present invention.

The nano mixer pump according to the present invention is characterized in that an inlet for introducing a medicine containing pulverized particles is formed at the center and an inflow plate formed with a plurality of inflow holes is welded and fixed to the rear of the inflow port, A mixer blade fixed to the motor shaft and having a plurality of cut-off portions formed in the crushing particle flow space and having an inclined front surface portion formed in close contact with a rear surface of the inlet plate of the suction cover, A boundary regulating plate disposed at the rear of the mixer blade and formed in close contact with the rear surface of the suction cover to form a crushed particle flow space portion and having a solution passing hole through which a solution containing particles finely ground by a mixer blade passes, A vessel which is installed at the rear of the adjustment plate and discharges the finely mixed solution introduced through the boundary adjustment plate to the outside A solution conveying body formed on one side of the stirring blade and rotated by being fixed to the motor shaft is included so that the particles of the drug mixed in the water-soluble drug are returned to the mixer blade The pulverized particles are pulverized to a size near the nano state and have almost the same weight as the water particles. Therefore, the pulverized particles are floated without being precipitated for a long time, The effect of the drug is rapidly displayed on the absorbed human body, and in the case where particles such as lumps are present in the medicine, particles such as lumps can be finely pulverized into nanoparticles and can not be precipitated. have.

1 is a perspective view of a nano-mixer pump according to a first embodiment of the present invention;
2 is an exploded perspective view of the nano-mixer pump according to the first embodiment of the present invention.
3 is a longitudinal cross-sectional view of the nano-mixer pump according to the first embodiment of the present invention

1 to 3, the nano-mixer pump A according to the first embodiment of the present invention includes an inlet 11 through which medicines containing pulverized particles are introduced, A suction cover 1 welded and fixed to an inflow plate 12 formed with a plurality of inflow holes 121 at the rear and a bent crushed particle flow space 13 formed at the rear of the inflow plate 12, A plurality of cutting branch portions 21 having an inclined front surface portion 211 formed to be in close contact with the rear surface of the inlet plate 12 of the cover 1 are formed and disposed in the crushed particle flow space portion 13, A mixer blade 2 fixed to the mixer blade 2 and disposed on the rear side of the mixer blade 2 so as to be in close contact with a rear surface of the suction cover 1 to form a crushed particle flow space 13, (3) in which a solution passage hole (31) through which a solution containing fine particles is passed is formed, A discharge wing 41 for discharging the finely mixed solution introduced through the boundary adjusting plate 3 to the outside is provided at one side of the plate 3 and a solution which is fixed to the motor shaft and rotated is transferred to the transfer body 4 , A solution storage hole (52) in which a solution storage space (51) in which the solution is stored inside is formed inside and a solution discharge hole (52) communicating with the outside in the storage space part (51) A solution discharge casing 5 which is assembled to one side surface of the solution discharge casing 1 to fix the boundary adjustment plate 3 and is fixed to the rear side of the solution discharge casing 5 in close contact with the motor shaft, And a motor cover 7 connected to the motor and connected at one end to the solution discharge casing 5 and at the other end to a motor cover 7 connected to the motor. The hermetic member 6, One side of which is fixed to the motor cover (7), and on the motor shaft (81), a mixer blade (2) The solution includes a motor 8 to which the transfer body 4 is fixed to rotate.

The intake cover 1 is provided with a connection flange 11a extending laterally to the edge of the inlet 11 through which the medicine is introduced into the tank in which the chemical aqueous solution is stored. A primary storage space 14 is formed in which the aqueous solution of drug introduced into the primary storage space 14 is first introduced and collected between the primary storage space 14 and the primary storage space 14 to form an inflow plate 12, The mixture is finely ground to the size of the nanoparticles while being in contact with the cut branching portion 21 of the mixer blade 2 in the middle of flowing into the crushed particle flow space portion 13 through the plurality of inflow holes 121 of the plate 12 And is sent to the crushed particle flow space part 13. The rear surface of the inflow plate 12 in contact with the mixer blade 2 is formed with a concave inclined surface 122 to contact the inclined front surface 211 of the mixer blade 2 to finely grind the particles of the chemical aqueous solution . A curved extension 15 is formed at the rear of the inflow plate 12 to form a crushed particle flow space 13 in cooperation with the boundary adjustment plate 3, 13) are mixed and mixed by the mixer blade 2 while being circulated while being secondarily stored and circulated, and the solution passing holes 31 of the boundary adjusting plate 3 .

The mixer blade 2 has an inclined front surface portion 211 formed on an inclined surface in contact with the inclined surface 122 of the inflow plate 12 and formed on a plurality of each of the cut branching portions 21, And it becomes possible to finely grind. In the present embodiment, the mixer blade 2 is rotated at 3600 rpm to finely pulverize the particles of the drug aqueous solution into nano-sized particles. In this embodiment, eight split branching portions 21 are formed, And is screwed with a threaded portion 811 formed on one end of the motor shaft 81 of the motor 8 and rotated at the same speed as that of the motor shaft 81. [

The boundary adjusting plate 3 is inserted into the engaging shoulder 15a of the curved extending portion 15 so as to form the crushed particle flow space portion 13 so that the chemical aqueous solution is circulated and sufficiently mixed by the mixer blade 2 , And the aqueous chemical solution finely pulverized through a sufficient mixer is discharged to the storage space portion 51 of the solution discharge casing 5 through the solution passage hole 31.

The solution transfer body 4 is fixed to the motor shaft 81 by a key groove 42a formed in the central shaft hole 42 and is rotated at the same speed as the motor shaft 81 and has a plurality of discharge blades 41 To the other storage tank () through the solution discharge hole (52).

One side 5a of the solution discharge casing 5 is assembled to one side of the suction cover 1 to fix the boundary adjustment plate 3 and the other side 5b of the solution discharge casing 5 is connected to a motor A shaft hole 53 is formed in the middle of the other side surface 5b so that the motor shaft 81 is hermetically sealed and the shaft hole 53 and the motor shaft 81 are fixed to each other. An airtight member 54 including a bearing for supporting the motor shaft 81 is inserted. A connection flange 52a connected to another pipe is formed at the edge of the solution discharge hole 52.

A through hole 61 is formed at the center of the hermetic member 6 so as to be fixed to the shaft hole 53 of the solution discharge casing 5 and waterproofing is provided between the through hole 61 and the motor shaft 81 The airtight seal 62 is disposed to perform complete waterproofing.

The motor cover 7 has one side connected to the solution discharge casing 5 and the other side fixed to be connected to the motor 8 to firmly fix the solution discharge casing 5, And the hermetic member 6 is accommodated.

One side of the motor 8 is fixed to the motor cover 7 and the mixer blade 2 and the solution transfer body 4 are fixed to the motor shaft 81 so that the motor shaft 81 and the mixer blade 2) and the solution transfer body 4 are rotated at the same speed. The solution discharge casing 5 through which the motor shaft 81 passes and the hermetic member 6 are sealed by the hermetic seal 54 and the hermetic seal 62 so as to be watertight due to the hermetic contact with the motor shaft 81 It is a structure that can be completely waterproofed.

The operation of the nano-mixer pump A of the present invention having the above-described structure will be described below. The aqueous solution of the drug is supposed to be a widely used gastrointestinal drug 'Gelsos'.

The chemical aqueous solution is introduced into the inlet cover 12 through the inlet 11 of the intake cover 12 and passes through the plurality of inlet holes 121 of the inlet plate 12 in the first tank The mixer blades 2 installed on the rear side are rotated to finely crush the respective particles passing through the inflow hole 121 to reduce the size of the particles. The mixer blade 2 rotating at a high speed while being circulated mixes several times with the mixer blade 2 to be polished to the level of nanoparticles. The crushed particle flow space portion 13 stores a larger amount of the chemical solution than the solution passage hole 31 of the boundary adjusting plate 3, so that the crushed particle flow space portion 13 has a nanoparticle size by being pulverized over several times while staying for a predetermined time.

When the drug aqueous solution pulverized into nanoparticle size flows into the storage space portion 51 after passing through the solution passage hole 31 of the interface adjusting plate 3 for a predetermined period of time, The chemical solution is discharged through the solution discharge hole 52 to the other storage container to transfer the chemical solution. The chemical solution discharged from the discharge vane 41 is discharged through the solution discharge hole 52, Since the aqueous solution of the drug solution mixed through the nano mixer pump A according to the present invention is made into a mixer with the same size as the nanoparticles, even if it is stored in the bag for drinking, Because it has weight, it does not sink and remains as floating state as it is, and when it is taken by a person, it exists in the nano size finely. Therefore, That is absorbed will not be able to be quickly exerted effect.

The nano-mixer pump according to the present invention can be said to be industrially applicable because it is possible to repeatedly manufacture the same product in the general pump manufacturing industry.

1. Suction cover 2. Mixer blade 3. Border control panel
4. Solution delivery 5. Solution delivery casing 6. Airtight member
7. Motor cover 8. Motor

Claims (3)

In the nano mixer pump (A)
In the nano mixer pump A, an inlet 11 through which medicines containing pulverized particles are introduced is formed at the center and an inlet plate 12 formed with a plurality of inlet holes 121 at the rear of the inlet is welded A suction cover (1) formed with a curved particle flow space (13) at the rear of the inflow plate (12)
A plurality of cut branching portions 21 having an inclined front surface portion 211 formed to be in close contact with the rear surface of the inlet plate 12 of the suction cover 1 are formed and disposed in the crushed particle flow space portion 13, A mixer blade 2 fixed to the shaft,
A mixer blade 2 disposed on the rear side of the mixer blade 2 and closely contacting the rear surface of the suction cover 1 to form a crushed particle flow space 13, (3) in which a solution passage hole (31)
A discharge vane 41 which is provided at the rear of the boundary adjusting plate 3 and discharges the finely mixed solution introduced through the boundary adjusting plate 3 to the outside is formed at one side, (4)
A solution discharge hole 52 is formed inside the storage space part 51 in which the solution is stored inside the transfer member 4 and communicated to the outside in the storage space part 51, A solution discharge casing 5 assembled to one side of the boundary adjusting plate 3 to fix the boundary adjusting plate 3,
A hermetic member 6 fixedly attached to the rear side of the solution discharge casing 5 and provided at the center thereof with a hermetic seal which closely contacts the motor shaft to perform waterproofing of the motor shaft,
A motor cover 7 inserted into the hermetic member 6 and connected to the solution discharge casing 5 at one end and connected to the motor at the other end,
And a motor 8 fixed to one side of the motor cover 7 and having a mixer blade 2 and a solution transfer body 4 fixed on the motor shaft 81,
The method according to claim 1,
The intake cover 1 is provided with a connection flange 11a extending laterally to an edge of the inlet 11 and a rear portion of the inlet 11 is provided with a chemical aqueous solution A primary storage space 14 in which primary storage space 14 is introduced and collected is formed,
The rear surface of the inlet plate 12 contacting the mixer blade 2 is formed with a concave inclined surface 122 so that the particles of the chemical aqueous solution are finely ground while being in contact with the inclined front surface portion 211 of the mixer blade 2, Wherein a curved extension portion (15) extending in a curved shape is formed in the rear of the inflow plate (12) to form a crushed particle flow space (13) in cooperation with the boundary adjustment plate (3)
The method according to claim 1,
One side surface 5a of the solution discharge casing 5 is assembled to one side surface of the suction cover 1 to fix the boundary adjusting plate 3,
The other side surface 5b of the solution discharge casing 5 is fixed to one side of the motor cover 7,
A shaft hole 53 is formed in the middle of the other side surface 5b to penetrate the motor shaft 81 in an airtight state and a bearing supporting the motor shaft 81 is interposed between the shaft hole 53 and the motor shaft 81. [ A sealing material 54 is inserted,
And a connection flange (52a) connected to another pipe is formed at an edge of the solution discharge hole (52). The nano mixer pump

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