KR20220148752A - syringe-driven filter device - Google Patents

Abstract

A syringe-driven filter device according to various embodiments of the present invention comprises: a sample unit in which a sample is accommodated; a filter unit performing a filtering process on the sample; a syringe unit having a plurality of syringes for supplying the sample from the sample unit to the filter unit; a sample inlet line supplying the sample from the sample unit to the syringe unit; a sample outlet line supplying the sample discharged from the syringe unit to the filter unit; a sample valve unit making each of the syringes communicate with either the sample inlet line or the sample outlet line; and a control unit controlling the syringe unit so that the sample is continuously supplied to the filter unit. A filter function can be performed while the cohesion of bio-materials in the sample is prevented.

Description

Syringe-driven filter device

The present invention relates to a syringe-driven filter device, and more particularly, a new syringe-driven filter device capable of preventing aggregation of filtration materials due to interaction between biological materials when used for filtration of biological materials is about

In the existing research environment, a Peristaltic Pump has been commonly used to transport biomaterials. In the Peristaltic Pump, the cam continuously compresses and rotates a hose made of a polymer material such as silicone or PE in order to transport biomaterials such as cells, endoplasmic reticulum, and protein.

However, contrary to the intention of the performer, there was a problem in that the aggregation phenomenon occurred due to the interaction between the biomaterials in this process. As a result, the pores of the filter are blocked early in the process of filtering the biomaterial, reducing the filter's efficiency, and even after becoming a filter, the interaction between the materials continues to work due to the denaturation of the surface of the biomaterial, causing aggregation of the filter material. There was a problem.

The present invention has been devised to solve the above problems, and it is an object of the present invention to provide a new syringe-driven filter device capable of preventing aggregation of biomaterials by filtering and transporting biomaterials through reciprocating syringes. .

A syringe-driven filter device according to various embodiments of the present invention includes: a sample unit in which a sample is accommodated; a filter unit for performing a filtering process on the sample; a syringe unit having a plurality of syringes for supplying the sample from the sample unit to the filter unit; a sample inlet line for supplying the sample of the sample unit to the syringe unit; a sample discharge line for supplying the sample discharged from the syringe unit to the filter unit; a sample valve unit communicating each of the syringes with either the sample inlet line or the sample outlet line; and a control unit for controlling the syringe unit so that the sample is continuously supplied to the filter unit.

Preferably, a sample re-supply line for supplying an unfiltered sample from among the samples supplied to the filter unit to the sample unit may be included.

Preferably, it may include a filter completion line for discharging a sample that has been filtered by the filter unit.

Preferably, when the sample is injected into the syringe part, the sample valve part is switched to communicate with the syringe part and the sample inlet line, and when the sample is discharged from the syringe part, the sample valve part is the syringe part the sample It can be switched to communicate with the discharge line.

Preferably, it may include a washing liquid unit connected to the syringe unit and the filter unit for supplying the washing solution.

Preferably, it may include a washing liquid inlet line for supplying the washing liquid from the washing liquid part to the syringe part, and a washing liquid discharge line for supplying the washing liquid discharged from the filter part to the washing liquid part.

Preferably, the sample inlet line and the washing liquid inlet line are arranged to be connected to each other, and may include a first washing liquid valve that is switched to supply any one of the sample or the washing liquid to the syringe unit.

Preferably, the sample re-supply line and the washing solution discharging line are respectively connected to each other may include a second washing solution valve for re-supplying the washing solution discharged from the filter section to the washing solution section.

Preferably, each of the syringes includes a cylinder of a certain capacity and a plunger for injecting or discharging a fluid into or out of the cylinder through a reciprocating motion, and each of the plungers is reciprocated for each of the syringes by the control unit. It may include an actuator for driving the motion.

Preferably, a sensing unit for sensing a position of the plunger may be included, and the control unit may control the reciprocating motion of the plunger to a preset height according to the sensing result of the sensing unit.

Preferably, the syringe unit is disposed in parallel with the first syringe and the first syringe through which the sample is injected or discharged through the first cylinder and the first plunger, and the sample is injected through the second cylinder and the second plunger or a second syringe to be discharged, wherein the control unit may drive the first syringe and the second syringe to be alternately driven.

In the syringe-driven filter method according to various embodiments of the present invention, in the syringe-driven filter method using the syringe-driven filter device according to any one of claims 1 to 10, supplying a sample to each of the first syringe and the second syringe of the syringe unit; supplying a sample from the first syringe to the filter unit; supplying the sample from the sample unit to the first syringe while supplying the sample from the second syringe to the filter unit; It may include the step of re-supplying a sample for which the filter is not completed by the filter unit to the sample unit.

Preferably, supplying a washing solution from the washing solution to the first syringe; supplying the washing liquid from the washing liquid part to the second syringe while supplying the washing liquid from the first syringe to the filter part; and re-supplying the washing liquid from the filter unit to the washing liquid unit.

The syringe-driven filter device of the present invention can perform a filter function while preventing aggregation of the biological material of the sample by using the syringe-driven method.

In addition, there is an effect that the continuous supply of the sample is possible by sequentially or cross-driving a plurality of syringes.

1 is a view of a prior art peristaltic pump;
2 is a view of a syringe-driven filter device according to an embodiment of the present invention.
3 to 5 are diagrams illustrating a filtration process of a sample in a syringe-driven filter device according to an embodiment of the present invention.
6 to 8 are views showing a washing process according to the circulation of the washing liquid in the syringe-driven filter device according to an embodiment of the present invention.

Hereinafter, some embodiments of the present invention will be described with reference to exemplary drawings for convenience of description. In describing the reference numerals for the components in each drawing, the same components are denoted by the same reference numerals as much as possible even if they are shown in different drawings.

The terms or words used in the present specification and claims should not be limited to their ordinary or dictionary meanings, and the principle that the inventor may appropriately define the concept of the term in order to best describe his or her invention It should be interpreted as meaning and concept consistent with the technical idea of the present invention based on the In addition, in describing the components of the embodiment of the present invention, terms such as first, second, A, B, (a), (b), etc. may be used. These terms are only for distinguishing the elements from other elements, and the essence, order, or order of the elements are not limited by the terms. When it is described that a component is 'connected' or 'coupled' to another component, the component may be directly connected or coupled to the other component, but another component is between the component and the other component. It should be understood that elements may be 'connected' or 'coupled'.

Accordingly, the embodiments described in the present specification and the configurations shown in the drawings are only the most preferred embodiments of the present invention and do not represent all the technical spirit of the present invention, so various equivalents that can be substituted for them at the time of the present application It should be understood that there may be water and variations. In addition, detailed descriptions of well-known functions and configurations that may unnecessarily obscure the gist of the present invention will be omitted.

Hereinafter, a syringe-driven filter device according to various embodiments of the present invention will be described in detail with reference to the accompanying drawings.

The syringe-driven filter device according to various embodiments of the present invention includes a sample unit 110 , a syringe unit 120 , a filter unit 130 , a sample inlet line 141 , a sample discharge line 142 , and a sample. It may include a valve unit 145 , a control unit (not shown) and a washing liquid unit 170 . In addition, it may include a sample re-supply line 147, a filtration completion line 148, a washing solution inlet line 171, a washing solution discharge line, first and second washing solution valve units and a sensing unit (not shown). .

First, the sample unit 110 may be provided in the form of a chamber having a predetermined capacity to accommodate a sample to be filtered therein. The sample unit 110 may contain a biological material such as a cell culture solution therein, and in an exemplary embodiment, the sample may be a biological material, but is not limited thereto. The sample unit 110 may be replaced with a chamber containing a sample required by the user.

According to various embodiments of the present disclosure, the sample contained in the sample unit 110 may be continuously supplied to the filter unit 130 through the syringe unit 120 . To this end, the syringe unit 120 may include a plurality of syringes. Hereinafter, for convenience of explanation, the syringe unit 120 may be described as having the first syringe 121 and the second syringe 123 , but the present invention is not limited thereto, and three or more syringes may be provided. have.

Each syringe may include a cylinder of a certain capacity and a plunger for injecting or discharging fluid into or out of the cylinder through reciprocating motion. Here, each syringe is described as being disposed in the vertical direction, and the plunger can be described as reciprocating in the vertical direction, but it is not limited thereto, and it is obvious that reciprocating motion in the horizontal direction is also possible depending on the arrangement direction of the syringe. .

In an exemplary embodiment, the first syringe 121 includes a first cylinder 121a and a first plunger 121b, and the second syringe includes a second cylinder 123a and a second plunger 123b. can be configured. As the first plunger 121b of the first syringe 121 descends, a sample or a washing solution may be injected into the first cylinder 121a, and as the first plunger 121b rises, the first cylinder 121a ) inside the sample or washing liquid may be discharged and supplied to the filter unit 130 . In addition, as the second plunger 123b of the second syringe 123 descends, a sample or washing liquid may be injected into the second cylinder 123a, and as the second plunger 123b rises, the second cylinder ( 123a) inside the sample or washing liquid may be discharged and supplied to the filter unit 130 .

According to a preferred embodiment of the present invention, the first plunger 121b and the second syringe ( The second plunger 123b of 123 may cross each other to perform a reciprocating motion. Through this, the sample or the washing liquid may be continuously supplied to the filter unit 130 from the first cylinder 121a and the second cylinder 123a.

The filter unit 130 may be provided to filter the sample. The filter unit 130 may be suitably provided to filter the sample to be filtered. In addition, the filter unit 130 may be provided with a material that does not react to a washing solution, which will be described later, and in an exemplary embodiment, the filter unit 130 may be provided so as not to react with a basic solution. Therefore, the filter unit 130 may be provided to be reused even after a washing process.

The filter unit 130 may continuously receive a sample from the syringe unit 120 . Alternatively, the filter unit 130 may be continuously supplied with the washing solution from the syringe unit 120 . Some of the samples supplied to the filter unit 130 are filtered by performing a filtering process by the filter unit 130 , and the remaining filters may not be completed. may be supplied to the sample unit 110 again through The sample that has been filtered by the filter unit 130 may be discharged to the filter sample unit 180 through the filter completion line.

On the other hand, when the washing liquid is supplied from the syringe unit 120 to the filter unit 130 after washing the syringe unit 120, the washing solution for washing the sample remaining in the filter unit 130 is transferred to the washing solution discharge line ( 173) may be discharged to the washing liquid unit 170 again. At this time, since the filter unit 130 itself does not react with the washing liquid as described above, the filter unit 130 can be reused.

The sample inlet line 141 may be disposed between the sample unit 110 and the syringe unit 120 to transfer the sample from the sample unit 110 to the syringe unit 120 . In the sample inlet line 141 , the sample unit 110 side may be described as the upstream syringe unit 120 side as the downstream side. A first washing liquid valve unit 175 may be installed at one side upstream of the sample inlet line 141 . The sample inlet line 141 may be connected to the washing liquid inlet line 171 through the first washing liquid valve part 175 . As the first washing solution valve unit 175 is switched, the sample inlet line 141 may communicate with the sample unit 110 , or the sample inlet line is washed according to the switching of the first washing solution valve unit 175 . It may communicate with the washing liquid 170 through the liquid inlet line 171 .

On the downstream side of the sample inlet line 141 , it may be formed to communicate with the syringe unit 120 through the sample valve unit 145 . In an exemplary embodiment, on one side downstream of the first washing liquid valve part 175 , the sample inlet line 141 communicates with the first syringe 121 , the first sample inlet line 141a and the second syringe 123 . ) may be branched into the second sample inlet line 141b communicating with the . One downstream side of the first sample inlet line 141a may communicate with the first syringe 121 through a first sample valve 145a, and a second sample valve is disposed on one downstream side of the second sample inlet line 141b. It may communicate with the second syringe 123 through (145b).

The sample discharge line 142 may be disposed between the syringe unit 120 and the filter unit 130 to transfer the sample or washing liquid discharged from the syringe unit 120 to the filter unit 130 . In an exemplary embodiment, the sample discharge line 142 includes the first sample discharge line 142a and the second syringe 123 and the filter unit 130 disposed between the first syringe 121 and the filter unit 130 . ) may include a second sample discharge line disposed between. The first sample discharge line 142a may communicate with the first syringe 121 through the first sample valve 145a, and the second sample discharge line 142b is discharged through the second sample valve 145b. 2 may be in communication with the syringe 123 . In an exemplary embodiment, the first sample discharge line 142a and the second sample discharge line 142b may be joined from either side before being connected to the filter unit 130 to be connected to the filter unit 130 .

The sample valve unit 145 may be installed such that the sample inlet line 141 and the sample discharge line 142 selectively communicate with the syringe unit 120 . In an embodiment, the sample valve unit 145 may be installed on one side downstream of the sample inlet line 141 . The sample valve unit 145 includes a first sample valve 145a and a second sample inlet that are switched so that the first sample inlet line 141a and the first sample outlet line 142a are selectively communicated with the first cylinder 121a The line 141b and the second sample discharge line 142b may include a second sample valve 145b that is switched to selectively communicate with the second cylinder 123a.

The switching direction of the sample valve unit 145 may be controlled by the control unit. When a sample or a washing liquid is injected into the first syringe 121 , the first sample valve 145a may be switched so that the first sample inlet line 141a and the first syringe 121 communicate with each other. When the sample or the washing liquid is discharged from the filter unit 130 from the first syringe 121 , the first sample valve 145a is switched so that the first sample discharge line 142a and the first syringe 121 communicate with each other. can be When a sample or a washing liquid is injected into the second syringe 123 , the second sample valve 145b may be switched so that the second sample inlet line 141b and the second syringe 123 communicate with each other. When the sample or washing liquid is discharged from the filter unit 130 from the second syringe 123 , the second sample valve 145b is switched so that the second sample discharge line 142b and the second syringe 123 communicate with each other. can be In the present invention, in the process in which the sample or washing liquid is continuously supplied to the filter unit 130 from the first syringe 121 and the second syringe 123 , the first sample valve 145a and the second sample valve 145b ) can be switched to an intersection. For example, while the first sample valve 145a is switched toward the first sample inlet line 141a, the second sample valve 145b may be controlled to be switched toward the second sample outlet line 142b.

The sample re-supply line 147 is disposed to connect between the filter unit 130 and the sample unit 110 , and serves to re-supply the unfiltered sample from the filter unit 130 to the sample unit 110 again. can be performed. In one embodiment, the sample re-supply line 147 may be connected to the washing liquid discharge line through the second washing liquid valve unit 177 .

The filtration completion line 148 is disposed to connect between the filter unit 130 and the filter sample unit 180 , and may serve to discharge the filtered sample from the filter unit 130 . The sample discharged through the filtration completion line 148 is collected in the filter sample unit 180 , and the user can secure the filtered sample by collecting the filter sample unit 180 . In an exemplary embodiment, the filtration completion line 148 may be detachably coupled to the filter sample unit 180 .

The washing liquid inlet line 171 is disposed to connect between the washing liquid unit 170 and one side of the sample inlet line 141 to transfer the washing liquid from the washing liquid unit 170 to the syringe unit 120 while performing the washing process. can play a role. In an exemplary embodiment, one end of the washing liquid inlet line 171 may be connected to the washing liquid unit 170 and the other end may be connected to the first washing liquid valve unit 175 . When the washing process is performed by the user's selection, the first washing liquid valve unit 175 is switched so that the washing liquid inlet line 171 and the sample inlet line 141 are in communication with each other, so that the washing liquid from the washing liquid unit 170 is The washing liquid inlet line 171 , the first washing liquid valve unit 175 , and the sample inlet line 141 may be supplied to the syringe unit 120 .

The washing liquid discharge line 173 is disposed to connect between the filter unit 130 and the washing liquid unit 170 , and the washing liquid obtained by washing the sample remaining in the filter unit 130 is discharged back to the washing liquid unit 170 . can play a role. In an exemplary embodiment, one end of the washing liquid discharge line 173 may be connected to the washing liquid unit 170 and the other end may be connected to the second washing liquid valve unit 177 . When the washing process is performed by the user's selection, the second washing liquid valve part 177 is switched so that the filter part 130 and the washing liquid discharge line 173 communicate with each other, so that the remaining inside the filter part 130 is The washing liquid obtained by washing the sample may be discharged to the washing liquid unit 170 through the washing liquid discharge line 173 .

The first washing liquid valve part 175 may be switched so that the syringe part 120 and the sample part 110 or the syringe part 120 and the washing liquid part 170 selectively communicate. When the filter process is performed by the operator's selection, the first washing liquid valve unit 175 may be switched so that the sample unit 110 and the sample inlet line 141 communicate with each other. When the washing process is performed by the operator's selection, the first washing liquid valve unit 175 is switched so that the washing liquid inlet line 171 connected to the washing liquid 170 and the sample inlet line 141 communicate with each other. can

The second washing liquid valve unit 177 may be switched so that the sample or washing liquid discharged from the filter unit 130 is selectively supplied to the sample unit 110 or the washing liquid unit 170 . When the filter process is performed by the operator's selection, the second washing liquid valve unit 177 may be switched so that the filter unit 130 and the sample unit 110 communicate with each other. In addition, when the washing process is performed by the operator's selection, the third washing liquid valve unit may be switched so that the filter unit 130 and the washing liquid unit 170 communicate with each other.

The washing liquid unit 170 may be provided in the form of a chamber in which a space containing the washing liquid is formed. When the washing process is performed by the operator's selection, the washing liquid from the washing liquid unit 170 passes through the washing liquid inlet line 171, the first washing liquid valve unit 175 and the sample inlet line 141 to the syringe unit ( 120) can be supplied. The washing liquid continuously transferred from the syringe unit 120 to the filter unit 130 may be discharged to the washing liquid unit 170 again through the washing liquid discharge line after washing the inside of the filter unit 130 .

The control unit may control the filter device of the present invention to perform a filtering process and a washing process according to a user's selection. When the filtering process is performed, the control unit may control each plunger of the first syringe 121 and the second syringe 123 to cross-reciprocate. An actuator (not shown) for driving the reciprocating motion of each of the plungers with respect to each of the syringes may be controlled by the control unit.

At this time, the control unit may switch the sample valve unit 145 to correspond to the rising motion or the falling motion of the plunger, respectively. In addition, the control unit may switch the first washing solution valve unit 175 so that the sample unit 110 and the sample inlet line 141 communicate with each other, and the filter unit 130 and the sample unit 110 communicate with the second washing unit 110 . The liquid valve unit 177 may be switched.

When the washing process is performed, the control unit may switch the first washing liquid valve unit 175 so that the washing liquid inlet line 171 and the sample inlet line 141 communicate. Also, the control unit may switch the second washing liquid valve unit 177 so that the filter unit 130 and the washing liquid unit 170 communicate with each other.

Meanwhile, the present invention may further include a sensing unit (not shown) capable of detecting the position of the plunger during the reciprocating motion of the plunger. In this case, the control unit may control the reciprocating motion of the plunger to a preset height according to the sensing result of the sensing unit. In addition, by controlling the plunger to move upward only by a preset height without ascending to the end through the sensing unit, the control unit can prevent bubbles from being generated at the end of the cylinder when the sample or washing liquid is discharged.

Meanwhile, in the present invention, when a filter process is selected by the user, the sample is supplied from the sample unit 110 to the first syringe 121 and the second syringe 123 of the syringe unit 120 , respectively. step, supplying the sample from the first syringe 121 to the filter unit 130, the sample unit 110 while supplying the sample from the second syringe 123 to the filter unit 130 A syringe-driven filter comprising the step of supplying a sample from the first syringe 121 to the filter unit 130 and re-supplying the sample for which the filter is not completed in the filter unit 130 to the sample unit 110 . A filtering process of the method may be performed.

Then, when a washing process is selected by the user, supplying the washing liquid from the washing liquid unit 170 to the first syringe 121 , from the first syringe 121 to the filter unit 130 . Supplying the washing liquid from the washing liquid unit 170 to the second syringe 123 while supplying the washing liquid and re-supplying the washing liquid from the filter unit 130 to the washing liquid unit 170 Including the washing process of the syringe-driven filter method can be performed.

As described above, the syringe-driven filter device according to various embodiments of the present invention can perform a filter function while preventing aggregation of the biological material of the sample by using the syringe-driven method.

In addition, there is an effect that the continuous supply of the sample is possible by sequentially or cross-driving a plurality of syringes.

In the above, even though it has been described that all components constituting the embodiment of the present invention operate by being combined or combined into one, the present invention is not necessarily limited to this embodiment. That is, within the scope of the object of the present invention, all the components may operate by selectively combining one or more. In addition, terms such as 'include', 'comprise' or 'have' described above mean that the corresponding component may be inherent unless otherwise stated, so other components are excluded. Rather, it should be construed as being able to include other components further. All terms, including technical and scientific terms, have the same meaning as commonly understood by one of ordinary skill in the art to which the present invention belongs, unless otherwise defined. Terms commonly used, such as those defined in the dictionary, should be interpreted as being consistent with the contextual meaning of the related art, and are not interpreted in an ideal or excessively formal meaning unless explicitly defined in the present invention.

The above description is merely illustrative of the technical spirit of the present invention, and various modifications and variations will be possible without departing from the essential characteristics of the present invention by those skilled in the art to which the present invention pertains. Therefore, the embodiments disclosed in the present invention are not intended to limit the technical spirit of the present invention, but to explain, and the scope of the technical spirit of the present invention is not limited by these embodiments. The protection scope of the present invention should be construed by the following claims, and all technical ideas within the equivalent range should be construed as being included in the scope of the present invention.

110: sample part
120: syringe part
121: first syringe
121a: first cylinder
121b: first plunger
123: second syringe
123a: second cylinder
123b: second plunger
130: filter unit
170: washing liquid part
141: sample inlet line
141a: first sample inlet line
141b: second sample inlet line
142: sample discharge line
142a: first sample discharge line
142b: second sample discharge line
145: sample valve unit
145a: first sample valve
145b: second sample valve
147: sample resupply line
148: filtration complete line
171: washing liquid inlet line
173: washing liquid discharge line
175: first washing liquid valve part
177: second washing liquid valve part
180: filter sample unit

Claims (13)

a sample unit in which the sample is accommodated;
a filter unit for performing a filtering process on the sample;
a syringe unit having a plurality of syringes for supplying the sample from the sample unit to the filter unit;
a sample inlet line for supplying the sample of the sample unit to the syringe unit;
a sample discharge line for supplying the sample discharged from the syringe unit to the filter unit;
a sample valve unit communicating each of the syringes with either the sample inlet line or the sample outlet line; and
Syringe-driven filter device including a control unit for controlling the syringe unit so that the sample is continuously supplied to the filter unit.
According to claim 1,
A syringe-driven filter device including a sample re-supply line for supplying an unfiltered sample from among the samples supplied to the filter unit to the sample unit.
According to claim 1,
A syringe-driven filter device including a filter completion line for discharging a sample whose filter has been completed by the filter unit.
According to claim 1,
When a sample is injected into the syringe unit, the sample valve unit is switched to communicate with the syringe unit and the sample inlet line. When the sample is discharged from the syringe unit, the sample valve unit communicates with the syringe unit and the sample outlet line. A syringe-driven filter device that is switched as much as possible.
According to claim 1,
Syringe-driven filter device including a washing liquid part connected to the syringe part and the filter part for supplying the washing liquid.
5. The method of claim 4,
A syringe-driven filter device comprising a washing liquid inlet line for supplying a washing liquid from the washing liquid unit to the syringe unit, and a washing liquid discharge line for supplying the washing liquid discharged from the filter unit to the washing liquid unit.
6. The method of claim 5,
A syringe-driven filter device comprising a first washing solution valve configured to be connected to the sample inlet line and the washing solution inlet line and switched to supply any one of the sample or the washing solution to the syringe.
6. The method of claim 5,
A syringe-driven filter device including a second washing solution valve unit disposed to be respectively connected to the sample re-supply line and the washing solution discharge line and re-supplying the washing solution discharged from the filter unit to the washing solution unit.
According to claim 1,
Each of the syringes includes a cylinder of a certain capacity and a plunger for injecting or discharging a fluid into or out of the cylinder through a reciprocating motion,
A syringe-driven filter device including an actuator for driving the reciprocating motion of each of the plungers with respect to each of the syringes by the control unit.
9. The method of claim 8,
And a sensing unit for detecting the position of the plunger,
The control unit is a syringe-driven filter device for controlling the reciprocating motion of the plunger to a preset height according to the detection result of the sensing unit.
10. The method of claim 9,
The syringe unit is disposed in parallel with the first syringe and the first syringe through which the sample is injected or discharged through the first cylinder and the first plunger and the sample is injected or discharged through the second cylinder and the second plunger 2 including a syringe,
The control unit is a syringe-driven filter device for driving the first syringe and the second syringe crosswise.
In the syringe-driven filter method using the syringe-driven filter device according to claim 1 to 10,
supplying a sample from the sample unit to each of the first syringe and the second syringe of the syringe unit;
supplying a sample from the first syringe to the filter unit;
supplying the sample from the sample unit to the first syringe while supplying the sample from the second syringe to the filter unit;
A syringe-driven filter method comprising the step of re-supplying a sample for which the filter is not completed in the filter unit to the sample unit.
12. The method of claim 11,
supplying a washing solution from the washing solution to the first syringe;
supplying the washing liquid from the washing liquid part to the second syringe while supplying the washing liquid from the first syringe to the filter part; and
A syringe-driven filter method comprising the step of re-supplying the washing liquid from the filter unit to the washing liquid unit.

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