KR200489369Y1 - Pipette - Google Patents

Abstract

In the present invention, the cap portion is provided at the upper portion of the cap portion and the cap portion is penetrated from the injection portion of the tip portion to the cap portion through the inflow portion. When the tip portion is immersed in the liquid and the opening of the cap portion is opened, And the pipette is configured such that the liquid in the pipette is discharged from the inflow pipe portion when the cap portion is closed and the through hole of the cap portion is closed.
According to the present invention, there is provided a pipet having a housing part formed by a combination of a tip part and a body part, an inflow tube part mounted in the housing part and having an inflow tube through-hole, and a cap part mounted on the inflow tube part, Wherein an upper portion of the inflow pipe and a lower portion of the inflow pipe are formed with a step between the upper portion of the inflow pipe and the outer side of the lower portion of the inflow pipe and the inner diameters of the inflow pipe upper portion and the inflow pipe lower portion are the same, And a passage extending from the tip through-hole located in the tip portion to the cap through-hole through the inflow tube portion through-hole is formed.
In the state where the cap portion of the pipette of the present invention is open, the tip portion is immersed in the solution of the solution storage tank, and the solution is introduced into the inflow portion by capillary phenomenon. Then, the cap portion is closed and the pipette is taken out from the solution storage tank , The solution in the pipette moves without falling.

Description

Pipette {Pipette}

In the present invention, the cap portion is provided at the upper portion of the cap portion and the cap portion is penetrated from the injection portion of the tip portion to the cap portion through the inflow portion. When the tip portion is immersed in the liquid and the opening of the cap portion is opened, And the pipette is configured such that the liquid in the pipette is discharged from the inflow pipe portion when the cap portion is closed and the through hole of the cap portion is closed.

A pipette is a small tube used for measuring a small amount of liquid in a laboratory or the like, and is configured to display a capacity on the body part. Pipets are primarily used to transport liquid samples with precisely metered volumes, and are the primary tool for those conducting biologically relevant experiments.

In the conventional pipette, when the liquid is sucked into the pipette, the piston assembly moves downward in the pipette main body and moves upward to suck liquid into the tip inflow pipe. When the liquid in the pipette is dispensed, To dispense the liquid. The piston moves further downward in dispensing than when inhaling, and this overtravel allows the entire liquid sample to be reliably drained.

In the case of microwave pets, the capacity taken by the pipette once is controlled by the turning knob of the head of the pipette, and the tip is disposable. When using a micropipette, be careful not to turn it out of the scale of the pipette, to the point where it is pressed correctly, the pressure is to blow the residual capacity and slowly press the button Be careful not to turn the pipette upside down while holding the solution, be particularly careful about handling the organic solvent, and be sure to do it before the eyes when pipetting.

Conventional pipettes have a problem in handling blood and the like because they are used only by changing the tips, and they are too expensive and complicated to be disposable.

Therefore, a pipette that is simple in structure, cheap in price, disposable and easy to use is desired.

A problem to be solved by the present invention is to provide a cap having a through hole at an upper portion of the cap portion and penetrating from the tip portion to the through hole of the cap portion through the inflow tube portion so that the tip portion is immersed in the liquid and the through hole of the cap portion is opened, And the liquid in the pipette is discharged from the inflow pipe portion. [0028] According to the present invention,

In order to solve the above-described problems, the present invention is directed to a pipetting device having a housing portion formed by combining a tip portion and a body portion, an inflow tube portion having an inflow tube portion through which the inflow tube portion is mounted in the housing portion, Wherein the inflow tube portion comprises an upper portion of the inflow pipe and a lower portion of the inflow pipe and forms a step between the upper portion of the inflow pipe and the outer side of the lower portion of the inflow pipe, Wherein the cap has a cap through-hole at the center of the upper portion, and a passage extending from the tip through-hole located in the tip portion to the cap through-hole through the inflow pipe through-hole is formed.

A lower ring, a second spring support tube, and a second spring, wherein the lower ring is mounted on the lower end of the lower portion of the inflow pipe, a second spring support tube is mounted on the lower ring, And the second spring is mounted on the support tube.

The second spring is located between the bottom outer wall of the upper portion of the inflow pipe and the upper surface of the second spring supporting tube, which is a wall formed by the step between the upper portion of the inflow pipe and the lower portion of the inflow pipe.

A first spring support ring, a first spring, and an upper ring mounted on an upper portion of the inflow pipe, wherein the upper ring is fixedly attached to a circular through hole at the upper end of the body portion, And a first spring is mounted between the upper ring and the first spring support ring.

The upper ring has an upper ring hole for receiving the upper portion of the inlet pipe and a groove is formed on the outer circumference of the upper ring so that the groove is fitted to the edge of the circular hole at the upper end of the body.

The inner diameter of the cap portion through-hole is the same as the inner diameter of the inflow pipe through-hole, and the outer diameter of the upper portion of the inflow pipe is larger than the outer diameter of the lower portion of the inflow pipe.

The lower ring rests on the inner bottom of the tip portion.

A lower portion of the body portion and an upper portion of the tip portion are coupled with threads, or a jaw is provided on one of the lower and tip portions of the body portion.

The inflow pipe portion may be made of a transparent or semi-transparent plastic material or a glass material.

In the state that the cap portion of the pipette is opened, the tip portion is immersed in the solution in the solution storage tank. When the solution enters the inlet tube portion by capillary phenomenon, the cap portion is closed and the pipette is removed from the solution storage tank. The solution in the pets is moved without falling.

According to the pipette of the present invention, the cap portion is provided at the upper portion of the cap portion, and the tip portion is penetrated from the inflow tube portion of the tip portion to the cap portion through-hole so that the tip portion is immersed in the liquid, Enters the pipette, closes the through hole of the cap part, and presses the cap part, the inside of the pipette is discharged from the inflow tube part.

The inventive pipette is simple in structure, low cost, disposable, and easy to use.

1 is a side view of a pipet according to an embodiment of the present invention;
Fig. 2 is an explanatory view for explaining the configuration of the pipette of Fig. 1; Fig.
3 is a cross-sectional view of the inflow tube portion of Fig.
4 is an exploded perspective view of the pipette of FIG.

Hereinafter, the pipette of the present invention will be described in detail with reference to the attached drawings.

FIG. 1 is a side view of a pipet according to one embodiment of the present invention, and FIG. 2 is an explanatory view for explaining the configuration of a pipet of FIG.

The pipette 10 includes a cap portion 100, an upper ring 130, a first spring 150, a first spring support ring 170, a second spring 190, an inflow tube portion 200, A tube 270, a lower ring 290, a body part 300, and a tip part 400.

The cap portion 100 is mounted on the upper end of the inflow tube portion 200 and has a cap through-hole 110 at the upper center. The inner diameter of the cap through-hole 110 may be the same as the inner diameter of the inflow pipe 200. The through hole of the cap portion through hole 110 and the through hole of the inlet tube 200 and the tip portion 400 are connected to each other through the cap through hole 110 to the tip portion 400.

The inflow tube 200 is a tube into which the body 300 and the tip 400 are coupled and is installed inside the housing and has an inflow hole 210 therein. The inflow tube 200 includes an inflow tube upper part 230 and an inflow tube lower part 250 so that the outer diameter of the inflow tube upper part 230 is larger than the outer diameter of the inflow tube bottom part 250, 230 and the lower portion of the inflow pipe 250 are the same. A first spring support ring 170, a first spring 150 and an upper ring 130 are mounted on an upper portion of the inflow pipe upper portion 230. The inflow pipe lower portion 250 includes a lower ring 290, A support tube 270 and a second spring 190 are mounted and the body portion 300 and the tip portion 400 are coupled to each other and positioned inside the housing portion.

The upper ring 130 is fixedly mounted on the upper end of the body 300, that is, the upper hole of the body 300, and the upper portion of the upper ring 130 is positioned with the upper portion of the inlet pipe 230. The upper ring 130 may have a through hole on the inner side and a groove on the outer circumferential surface to fit the edge of the circular hole on the upper portion of the body 300.

The first spring support ring 170 is fixedly mounted to the inlet pipe top 230 and is located below the top ring 130.

The first spring 150 is located between the upper ring 130 and the first spring support ring 170. The first spring 150 is excessively moved toward the inflow tube 200 when the inflow tube 200 is lowered excessively due to the depression of the cap 100 or when the cap 100 is released. It is a spring to prevent it from falling to the upper part.

A lower spring 290 is mounted on the lower portion of the inflow pipe 250 and a second spring 190 is mounted on the lower spring 290 And comes into contact with the inner bottom of the tip portion 400.

The second spring 190 is mounted on the lower portion 250 of the inflow pipe and includes a wall formed by a step between the inflow pipe upper portion 230 and the inflow pipe lower portion 250, And is positioned between the upper surfaces of the second spring supporting tubes 270. The second spring 190 adjusts the degree to which the inflow tube 200 descends.

The tip portion 400 is provided with a tip through hole 410 on the inner side so that the lower portion of the body portion 300 and the upper portion of the tip portion 400 are coupled. It is also possible that a thread is provided on the lower part of the body part 300 and the upper part of the tip part 400 and that the lower part of the body part 300 and the tip part 400 have a step, And may be combined.

The tip portion 400 is made of a plastic material. In some cases, the inside of the tip portion 400 may be made hydrophilic and treated with heparin (blood coagulation prevention) treatment to facilitate sucking of the blood sample.

In the present invention, the upper ring 130, the first spring support ring 170, and the lower ring 290 may be made of a rubber material, a silicon material, a plastic material, or the like.

3 is a cross-sectional view of the inflow tube portion of Fig.

The inflow tube 200 includes an inflow tube upper part 230 and an inflow tube lower part 250 so that the outer diameter of the inflow tube upper part 230 is larger than the outer diameter of the inflow tube bottom part 250, 210 have the same inner diameter, the inner diameter of the upper portion of the inflow pipe 230 and the lower portion of the inflow pipe 250 are the same. The inflow pipe 200 may be made of a transparent or translucent plastic material, or a glass material may be used.

The through holes 110, 210, and 410 are means for applying a negative pressure to the liquid surface, causing the liquid to move up or down along the inflow tube 200 according to the negative pressure applied to the liquid surface by the principle of capillary action and siphon.

When the tip portion 400 is immersed in the solution with the cap portion through-hole 110 opened, a predetermined amount of solution is introduced into the inflow tube portion 200 by the capillary phenomenon. In this state, The solution in the pipette is taken out from the solution storage tank without falling down and the papette is pushed out of the solution storage tank while the cap through hole 110 of the pipette is kept closed with fingers, When the pet is positioned at a predetermined position and the cap portion hole 110 is opened, the solution in the inflow tube portion 200 falls down. By doing so, the solution in the pipette 10 can be transferred to the desired position without dropping down the solution in the pipette 10 with a simple structure.

The tip portion 400 is immersed in the solution while the cap portion through hole 110 is opened and the solution is introduced into the inflow tube portion 200 by the capillary phenomenon and the siphon principle and the cap portion opening 110 is closed, The amount of the solution in the inflow tube portion 200 can be adjusted to a predetermined amount by pressing the cap portion 100 while the cap portion 100 is opened or the cap portion through-hole 110 is closed.

In addition, the solution in the inflow tube 200 can be transferred without draining out the solution by blocking the cap through-hole 110, and the solution in the inflow tube 200 flows out by opening the cap through-hole 110 .

4 is an exploded perspective view of the pipette of FIG.

The pipette 10 connects the tip portion 400 and the body portion 300 to form a housing portion and mounts the lower ring 290 in the housing portion, that is, inside the tip portion 400.

The first spring 150 is mounted on the inflow pipe lower part 250 and the second spring support pipe 270 is mounted thereunder and the first spring support ring 170 is mounted on the inflow pipe upper part 230, The second spring 190 is mounted on the first spring 150 and the inflow tube 200 having the first spring 150 and the second spring 190 mounted therein is mounted in the housing.

The upper ring 130 is inserted into the upper portion of the inflow tube portion 230 mounted in the housing portion and then fitted into the groove of the outer circumferential surface of the upper ring 130 by the edge of the circular hole at the upper portion of the body portion 300, .

The cap portion 100 is mounted on the end of the inflow tube portion 230 on which the upper ring 130 is fixed and mounted.

The pipette of the present invention is simple in structure and can be used as an economical disposable, simple and convenient to use, inexpensive, and can be made smaller.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is evident that many alternatives, modifications, and variations will be apparent to those skilled in the art in light of the above teachings. Modification is possible. Accordingly, it is to be understood that the present invention is intended to be limited only by the appended claims, and all equivalents or equivalent variations thereof fall within the scope of the present invention.

10: Pipette 100: Capper
110: cap part aperture 130: upper ring
150: first spring 170: first spring support ring
190: second spring 200: inflow pipe
210: inlet pipe hole 230: inlet pipe top
235: bottom wall outer wall 250: inflow pipe bottom
270: second spring support tube 290: lower ring
300: Body part 400: Tip part
410:

Claims (11)

1. A pipette having a housing part having a tip and a body coupled to each other, an inflow tube part mounted in the housing part and having an inflow tube through-hole, and a cap part mounted on the inflow tube part,
The inflow tube portion is composed of an upper portion of the inflow pipe and a lower portion of the inflow pipe and forms a step between the upper portion of the inflow pipe and the outer side of the lower portion of the inflow pipe,
A lower ring is mounted on the lower end of the lower portion of the inflow pipe, a second spring support pipe is mounted on the lower ring, and a second spring support pipe And a second spring is mounted thereon,
The second spring is located between the bottom outer wall of the upper portion of the inflow pipe and the upper surface of the second spring support tube, which is a wall formed by the step between the upper portion of the inflow pipe and the lower portion of the inflow pipe,
A first spring support ring, a first spring, and an upper ring are mounted on an upper portion of the inflow pipe, and the upper ring is fixedly mounted on a circular hole at the upper end of the body portion,
A first spring support ring is fixedly mounted on the upper portion of the inflow pipe below the upper ring and spaced apart from the upper ring and a first spring is mounted between the upper ring and the first spring support ring,
Wherein the cap portion has a cap through-hole at an upper center portion thereof,
A passage extending from the tip through-hole located in the tip portion to the cap through-hole through the inflow pipe through-hole,
And the inner diameter of the cap portion through hole is the same as the inner diameter of the inlet pipe portion through-hole. delete The method according to claim 1,
Wherein the upper ring is provided with an upper ring hole for receiving the upper portion of the inlet pipe and a groove is formed on the outer circumference of the upper ring so that the groove is fitted to the edge of the circular hole at the upper end of the body. delete delete The method according to claim 1,
And the outer diameter of the upper portion of the inflow pipe is larger than the outer diameter of the lower portion of the inflow pipe. The method according to claim 1,
And the bottom ring rests on the inner bottom of the tip portion. The method according to claim 1,
And a threaded portion is coupled to the lower portion of the body portion and the upper portion of the tip portion. The method according to claim 1,
And a jaw is provided at one of a lower portion and a tip portion of the body portion, and the other one is coupled with a groove. The method according to claim 1,
Wherein the inflow pipe portion is made of a transparent or translucent plastic material or a glass material. The method according to claim 1,
In the state that the cap portion of the pipette is opened, the tip portion is immersed in the solution of the solution storage tank, and the solution enters the inflow tube portion by capillary phenomenon,
The capillary aperture is closed and the pipette is removed from the solution reservoir and the position is moved so that the solution in the pipette moves without falling.

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