KR100673064B1 - Connector for pipet filler - Google Patents

Abstract

A connector for a pipette filler is disclosed. A connector used for a pipette filler for sucking a predetermined liquid in a state in which a gas creates an external pressure, the pipette receiving portion into which one end of the pipette is inserted, and one end of which is coupled to the pipette receiving portion, and the valve is movable inside. And the other end includes a connector coupled to the filler, the valve being movable such that the other end of the connector is closed, the connector for the pipette filler comprising a material whose density is larger than the gas and smaller than the liquid, By preventing the solution from reaching the filler, failure of the filler can be prevented.

Pipettes, Fillers, End Connections

Description

Connector for pipet filler

1 is a cross-sectional view showing a connector for a pipette filler according to an embodiment of the present invention.

Figure 2 is an exploded perspective view showing a pipette filler connector according to an embodiment of the present invention.

Figure 3 is a cross-sectional view of the pipette filler connector when inhaling gas through the pipette filler according to an embodiment of the present invention.

Figure 4 is a cross-sectional view of the pipette filler connector when inhaling the liquid through the pipette filler according to an embodiment of the present invention.

Figure 5 is an exploded perspective view showing a pipette filler connector according to another embodiment of the present invention.

<Explanation of symbols for main parts of the drawings>

10 pipette 20 filler

100: connector 110: pipette receiving portion

120: valve 130: connector

The present invention relates to a connector, and more particularly to a connector for a pipette filler.

Pipette fillers, which are used to collect liquid samples in chemistry laboratories such as schools and laboratories, often cause accidents in which the solution enters the filler due to user's carelessness. This causes the filler to fail or the solution that enters the filler flows out when taking another sample and contaminates the sample.

These filler failures are quite frequent, and in many laboratories in general educational institutions, it is often difficult to find available fillers, and the replacement frequency is also frequent. This leads to a cost increase in the disposal and purchase of the filler, and the problem becomes more serious when the experiment cannot be performed when necessary.

The present invention provides a pipette filler connector and pipette filler using the same, which can prevent the failure of the filler in advance by blocking the inhaled solution from reaching the filler in a mechanism for collecting a liquid such as a pipette filler.

According to an aspect of the present invention, in the connector used for the pipette filler for sucking a predetermined liquid in a state in which the gas creates an external pressure, the pipette receiving portion is inserted into one end of the pipette, and one end is coupled to the pipette receiving portion And, inside the valve, the valve is moveable, the other end of which includes a connecting tube coupled to the filler, the valve being movable so that the other end of the connecting tube is closed, the density of which is greater than gas and less than liquid. A connector for a pipette filler is provided.

Further, in a pipette filler for sucking a predetermined liquid in a state in which a gas creates an external pressure, the pipette, a pipette accommodation portion into which one end of the pipette is inserted, and one end thereof are coupled to the pipette accommodation portion, and a valve moves inside. The pipette filler is accommodated so that the other end includes a connecting tube coupled to the filler, the valve being movable so that the other end of the connecting tube is closed, and a pipette filler is provided whose density is greater than gas and less than liquid.

A protrusion is formed on the outer circumference of the valve, and a guide groove corresponding to the protrusion is formed inside the connecting pipe, and the length of the guide groove is formed so that the valve is in close contact with the upper portion of the connecting pipe when the protrusion is located at one end of the guide groove. Can be.

It is preferable that the pipette accommodating portion is tubular having a larger cross-sectional area of the portion engaged with the connecting pipe than the portion into which the pipette is inserted.

Hereinafter, preferred embodiments of the pipette filler connector according to the present invention will be described in detail with reference to the accompanying drawings, and in the following description with reference to the accompanying drawings, the same or corresponding components are the same reference numerals regardless of the reference numerals. And duplicate description thereof will be omitted.

1 is a cross-sectional view showing a pipette filler connector according to a preferred embodiment of the present invention, Figure 2 is an exploded perspective view showing a pipette filler connector according to a preferred embodiment of the present invention. 1 and 2, the pipette 10, the filler 20, the pipette accommodating part 110, the valve 120, the protrusion 122, the connecting pipe 130, and the guide groove 132 are illustrated. have.

The pipette filler connector of the present invention acts as a valve to block the solution from entering the filler 20 of the pipette filler used in a chemical laboratory, and the like material by using the density difference between the gas and liquid By forming the furnace valve 120, only when the liquid is sucked in, the valve 120 closes the connector due to the buoyancy due to the density difference so that the solution does not flow into the filler 20.

That is, the pipette 10 and the filler 20 through the connector of the present invention is coupled to the site, the pipette 10 is inserted into the pipette receiving portion 110 and the filler pipe (130) connected to the filler 20 The valve 120 is positioned in a space formed between the upper end of the pipette accommodating part 110 and the upper end of the pipette accommodating part 110, in the space formed by the connecting pipe 130. ) Is formed to be movable in the vertical direction between the upper end of the pipette receiving portion 110 and the upper end of the connection pipe (130).

The valve 120 has a greater density than the air in the surrounding space where the pipette filler is used and has a smaller density than the liquid to be sucked into the pipette filler so that the valve 120 is connected to the connection pipe 130 by buoyancy. In close contact with the upper end of the connector (130).

On the other hand, in order for the solution sucked in the pipette 10 to be discharged by pressurizing the filler 20, the air injected into the connector of the present invention by the pressure of the filler 20 should flow out through the pipette 10, and When the valve 120 is in close contact with the top of the pipette accommodation portion 110 should not close the pipette accommodation portion (110).

To this end, it is preferable that the upper end of the pipette accommodating part 110 is not processed flat, and a plurality of protrusions 122 or a plurality of grooves are formed. However, the present invention is not necessarily limited to forming the unevenness at the upper end of the pipette accommodating part 110 in order to prevent the valve 120 from closing the pipette accommodating part 110, and the unevenness at the lower end of the valve 120. Forming or drilling a plurality of air flow passages in the upper portion of the pipette receiving portion 110 or the lower portion of the valve 120 can be formed in a variety of configurations within the scope apparent to those skilled in the art.

When the liquid is sucked in using the pipette filler connector of the present invention, the valve 120 is in close contact with the upper end of the connection pipe 130 to close the connection pipe 130 and the shape of the upper part of the valve 120 and the connection pipe ( It is preferable that the shapes of the upper portion 130 correspond to each other. To this end, as shown in FIGS. 1 and 2, the upper end of the valve 120 is formed as an inclined surface, and the upper end of the connection pipe 130 inside which the upper end of the valve 120 comes into contact with the inclined surface of the valve 120 is also inclined. It can be formed as.

However, the present invention is not limited to forming the inclined surface as described above in order to close the passage of the connecting pipe 130 when the valve 120 moves upward due to buoyancy due to the liquid, the valve 120 Treatment of the upper part of the upper part of the connection pipe 130 with a flat surface, or to form a stepped step in the upper portion of the valve 120 and to match the step of the valve 120 in the upper portion of the inside of the connection pipe 130 Of course, it can be formed in various configurations within a range apparent to those skilled in the art, such as forming a stepped shape.

The connecting tube 130 is formed in a tubular shape as a whole, one end is coupled to the pipette accommodation portion 110, the other end is coupled to the filler 20. Since the upper part of the connection pipe 130 should be formed in a structure in which the valve 120 is in close contact with each other to close the passage, the portion where the connection pipe 130 and the filler 20 are coupled is a space accommodating the valve 120. It is preferable to form smaller cross-sectional area. The portion connected to the filler 20 in the upper portion of the connecting pipe 130 may be formed as an inclined surface as shown in Figs. 1 and 2, but is not necessarily limited to this, as described above, stepped or stepped with a large cylinder Of course, the same shape as a small cylinder coupled to the is possible.

The valve 120 is coupled to be movable in the longitudinal direction of the connector 130 in the connector 130, in order to prevent the valve 120 from being separated to any position inside the connector 130 It is preferable that a plurality of protrusions 122 are formed along the outer circumferential portion of the 120, and a guide groove 132 corresponding to the protrusion 122 formed in the valve 120 is formed in the connection pipe 130.

Of course, the guide groove 132 is formed in the valve 120 and the guide rail corresponding thereto is formed in the connection pipe 130. The guide groove 132 of the protrusion 122 and the connection pipe 130 of the valve 120 and the guide groove 132 of the valve 120 and the guide rail of the connection pipe 130 have a valve 120. When the upper surface of the valve 120 is moved to the uppermost position of the connection pipe 130 in close contact with the upper portion of the valve 120 may be formed so as to close the connection pipe (130).

In order to effectively close the connecting pipe 130 when the valve 120 is in close contact with the upper part of the connecting pipe 130, a strong material such as polyethylene or Teflon is used on the upper surface of the valve 120 to prevent permeation of liquid. It is preferable to add a packing which can be used, and it is also preferable that not only the packing but the entire valve 120 be formed of the above-described material, and the upper surface is formed in the same shape as that of the packing. However, in this case, the density of the valve 120 must be formed to be larger than the gas to apply the external pressure to the pipette filler and smaller than the liquid to be sucked into the pipette filler as described above.

The pipette filler connector according to the present invention is used in a chemistry lab and so will often contain a substance such as a strong acid, it is preferable that the entire connector is formed of a strong material such as polyethylene, Teflon or the like as described above.

The connecting tube 130 may be composed of a plurality of members. Since the connector according to the present invention has a structure for accommodating the valve 120 in a space formed therein, the structure capable of separating the valve 120 accommodated in the internal space for repair, replacement, etc. in a manufacturing process as well as during a malfunction. It is preferable to use, and for this purpose, it is preferable that the connecting pipe 130 is composed of two or more members to be assembled. Of course, since the inside of the connection pipe 130 is a space in which the solution is sucked, it is apparent to those skilled in the art that the waterproofing caulking, the waterproof jaw, and the like should be formed so that the solution does not leak to the site where two or more members are coupled.

In the case of Figure 2, the connecting tube 130 is composed of two members, the upper member is coupled to the fillet, the lower member is coupled to the pipette accommodation portion 110, the protrusion 122 is formed on the outer periphery of the valve 120 And a guide groove 132 corresponding to the protrusion 122 of the inner wall valve 120 of the lower member of the connecting pipe 130. Although not shown, the coupling structure between the upper member and the lower member of the connecting pipe 130 should be formed in a structure that does not leak the solution as described above.

2, the pipette accommodating part 110 may be formed in a tubular shape inserted into the connection pipe 130. However, the present invention is not necessarily limited thereto, and the pipette 10 may be inserted therein. Pipette in a variety of structures within the scope obvious to those skilled in the art, such as simply punching a hole in the lower portion of the connecting pipe 130, or formed into a tubular shape coupled to the connecting pipe 130 without being inserted into the connecting pipe 130. Of course, the receiving unit 110 may be formed.

3 is a cross-sectional view of the pipette filler connector when inhaling gas through the pipette filler according to an embodiment of the present invention, Figure 4 is a pipette filler according to the preferred embodiment of the present invention It is sectional drawing of the pipette filler connector. 3 and 4, the pipette accommodating part 110, the valve 120, and the connecting pipe 130 are illustrated.

The pipette filler connector of the present invention is to close or open the valve by using the density difference between the gas and the liquid. Since the valve of the present invention is made of a material having a greater density than a gas which forms an external pressure in the pipette filler and a density smaller than a liquid to be sucked using the pipette filler, when the gas is sucked through the pipette, as shown in FIG. 3. The valve is not pushed up to the top of the connector by force such as gravity.

However, when a liquid having a greater density than the valve is sucked through the pipette, the valve is pushed up to the upper end of the connection pipe by the force of the liquid suction and the buoyancy caused by the liquid to close the connection pipe as shown in FIG. 4. That is, even if gas is sucked in, the connector is not closed, and the liquid is to close the connector.

3 and 4 are for explaining the operation of the pipette filler connector of the present invention, the shape is not necessarily to be formed as shown in FIGS.

Figure 5 is an exploded perspective view showing a pipette filler connector according to another embodiment of the present invention. Referring to FIG. 5, the pipette accommodation part 110a, the valve 120a, the protrusion 122a, the connection pipe 130a, and the guide groove 132a are illustrated.

When the liquid is sucked using the pipette filler of the present invention, the sucked solution flows into the connection pipe and is stored. When the filler is pressurized to inject air into the connection tube, the solution stored in the connection tube is discharged through the pipette by the pressure of the air.

In this case, when the pipette accommodation portion is formed into the connector tube as shown in FIG. 1 and FIG. 2, the pipette through the pipette accommodation portion in the case of a solution stored in the connection tube, especially a solution standing at a lower position than the top of the pipette accommodation portion. Phenomenon that does not flow into the will occur.

This is a factor that lowers the usability of the pipette filler of the present invention, each time to change the type of the solution to be inhaled, such as inconvenience to disassemble and wash the connector. Of course, as described above, if the pipette accommodating portion is simply formed in a tubular shape that does not puncture a hole in the lower surface of the connecting pipe or is not inserted into the connecting pipe, this problem can be prevented.

However, more preferably, as shown in FIG. 5, the pipette accommodating part 110a is formed so as to extend the cross-sectional area of the portion coupled with the connecting pipe 130a to be larger than the part combined with the pipette and the pipette accommodating part 110a is connected to the connecting pipe ( 130a) It is good to have a structure that is not inserted into the interior. As a result, the solution stored in the connection pipe 130a may be completely discharged to the pipette according to the pressure of the filler.

In particular, since the inclined surface is formed at the portion of the pipette accommodating part 110a, the inclined surface is expanded, and the solution buried in the inner space of the connection pipe 130a after pressing the filler may also flow out into the pipette by gravity.

When the pipette accommodating part 110a is formed to have an inclined surface as described above, when the pipette filler is not used for a long time, some solution remains inside the connection pipe 130a, thereby preventing the possibility of mixing with other solutions. have.

In FIG. 5, a guide groove 132a corresponding to the protrusion 122a formed on the outer circumference of the valve 120a is formed in the upper member of the connecting pipe 130a. In addition, by extending the protrusion 122a formed in the valve 120a to the lower surface of the valve 120a, the valve 120a is prevented from sealing the upper portion of the pipette accommodation portion 110a so that the valve 120a moves. It is formed so that the gas can be sucked without.

The present invention is not limited to the above embodiments, and many variations are possible by those skilled in the art within the spirit of the present invention.

According to the present invention having the above-described configuration, in a mechanism for collecting liquid such as a pipette filler, it is possible to prevent the inhaled solution from reaching the filler to prevent failure of the filler.

Claims (6)

In the connector used for the pipette filler for suctioning a predetermined liquid in a state in which the gas creates an external pressure, A pipette accommodation portion into which one end of the pipette is inserted; One end is coupled to the pipette accommodating portion, the valve is accommodated in the movable inside, and the other end includes a connection pipe coupled to the filler, The valve is movable such that the other end of the connecting tube is closed, the density of which is larger than the gas and smaller than the liquid, A protrusion is formed on an outer circumference of the valve, and a guide groove corresponding to the protrusion is formed inside the connection pipe; The length of the guide groove, the pipette filler connector is formed so that the valve is in close contact with the upper portion of the connecting pipe when the projection is located at one end of the guide groove. delete delete delete delete delete

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