KR100493570B1 - Apparatus and Method for extracting and seperating liquid compound automatically - Google Patents

Abstract

The present invention relates to an apparatus for extracting and separating a liquid mixture, and more particularly, to a liquid mixture automatic separation device capable of automatically extracting and separating a liquid mixture through a separating funnel, and supplying a sample solution and an extraction solvent to the separating funnel. And, the sample solution and the extraction solvent are mixed, settling for a certain period of time after mixing to separate into a different solution layer, and a series of processes of separating and collecting the separated solution can be automatically performed by electronic control An object of the present invention is to provide a liquid mixture automatic extraction separation apparatus and method.

Furthermore, an object of the present invention is to provide a liquid mixture automatic extraction separation apparatus and method which can repeat a series of processes for separating and collecting a liquid mixture as many times as desired.

In addition, an object of the present invention is to provide a liquid mixture automatic extraction separation apparatus and method capable of automatically washing the residue of the separatory funnel.

Description

Apparatus and Method for extracting and seperating liquid compound automatically}

The present invention relates to a device for separating a liquid mixture, and more particularly, to a liquid mixture automatic separation device capable of automatically extracting and separating a liquid mixture through a separating funnel.

In general, the separation method of the mixture is a fractional distillation method using a difference in boiling point and a recrystallization method using a difference in solubility, and the separation and separation method using a separating funnel when the liquid does not mix with each other.

Here, in the conventional separation method using a separatory funnel, the sample solution to be extracted and the extraction solvent for extracting the sample solution is added to the separatory funnel, stirred with a stick or shake the separator funnel hard to separate the sample solution and the extraction solvent. After mixing, the mixture is allowed to stand for a certain period of time and separated into different solution layers. The solution used for extraction in the separated solution is discharged and the extraction solvent is added to the solution to be extracted again, and then mixed and settled. By repeating the process of separating the different solution layer to the desired number of times.

However, when the liquid mixture is extracted and separated using a separatory funnel in the related art, since the work was performed manually, there are many health problems due to the use of harmful solvents, and inconvenience that requires a lot of time and manpower. In addition, a lot of deviation occurred in the separation work according to the individual differences of the tester. In addition, conventionally, there was a disadvantage in that the tester had to manually wash the remaining residue separated from the separatory funnel.

The present invention is to solve the above problems, the present invention is to supply a sample solution and the extraction solvent to the separatory funnel, the sample solution and the extraction solvent is mixed, and settled for a certain period of time after mixing different from each other It is an object of the present invention to provide a liquid mixture automatic extraction separation apparatus and method that can be automatically performed by electronically controlling a series of processes for separating and collecting a solution separated into a solution layer.

Furthermore, an object of the present invention is to provide a liquid mixture automatic extraction separation apparatus and method that can repeatedly perform a series of processes for separating and collecting a liquid mixture.

Furthermore, an object of the present invention is to provide a liquid mixture automatic extraction separation apparatus and method capable of automatically washing the residue of the separatory funnel.

According to an embodiment of the present invention for achieving the above object,

In the device for automatically extracting and separating the liquid mixture,

A sample solution supply valve mounted on a connection pipe between the sample supply funnel and the separatory funnel;

An extraction solvent supply valve mounted on a connection pipe between the extraction solvent supply tank and the separatory funnel;

A mixed pressure valve mounted on an air transfer pipe between the air pump and the separatory funnel;

A solution discharge valve mounted on a solution discharge pipe between the collection container and the separating funnel;

The sample funnel and the extraction solvent are supplied to the separatory funnel, the sample solution and the extraction solvent are mixed, and settled for a predetermined time to control the opening and closing of the valves to separate and separate the separated solutions into different solution layers. However, it characterized in that it comprises a control unit for opening and closing the solution discharge valve in accordance with the solution detection signal received from the solution detection sensor.

According to this aspect, the present invention can be automatically performed by electrically controlling a series of processes of extracting / separating / collecting a liquid mixture.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art can easily understand and reproduce the present invention.

Figure 1 is a block diagram of the overall configuration of the liquid mixture automatic extraction separation apparatus according to an embodiment of the present invention. As shown, the automatic liquid mixture extraction and separation apparatus according to the present invention includes an operation unit 10, a memory 20, a display unit 30, a control unit 40, and a liquid mixture processing unit 50.

The operation unit 10 is for receiving an operation command for extracting and separating the liquid mixture from the user, and the process of separating the liquid mixture and the time for mixing the sample solution and the extraction solvent and the time to set the liquid mixture after mixing. It includes a number of setting keys for setting the number of times to repeat.

The memory 20 stores a program for extracting and separating the liquid mixture, and outputs the requested information to the controller in accordance with a read request signal output from the controller. The memory is preferably a flash memory or a hard disk.

The display unit 30 displays current operation state information and setting values input through the operation unit. The display unit 30 uses a liquid crystal display or a monitor.

The control unit 40 outputs a control signal for controlling the liquid mixture processing unit, and performs a control operation according to the liquid mixture extraction separation program read from the memory when the power is applied. The controller 40 may be implemented as a microprocessor including a ROM, a RAM, an up-down timer, and peripheral devices. The control unit processes the value set by the user to control the liquid mixture processing unit according to the liquid mixture separation program stored in the memory.

The liquid mixture processing unit 50 supplies the sample solution and the extraction solvent to the separatory funnel by the valves operating according to the valve control signal of the control unit 40, mixes the sample solution and the extraction solvent, and then, stands for a predetermined time. And automatically perform a series of processes of extracting / separating / collecting the solutions separated into different solution layers.

Hereinafter, with reference to the drawings showing the configuration of the liquid mixture treatment unit will be described in detail.

2 is a block diagram of a liquid mixture treatment unit according to a preferred embodiment of the present invention.

In this embodiment, the operation of extracting and separating the liquid mixture can be automatically performed, and the operation of extracting and separating the liquid mixture is configured to be repeated as many times as desired by the user. That is, by connecting the first and second liquid mixture treatment units having the same configuration to each other, the liquid mixture extracted from the first liquid mixture is transferred to the second liquid mixture treatment unit, and then extracted by separating an extract solvent and extracting the extracted liquid mixture. It is possible to repeat the operation of extracting and separating the transfer from the second liquid mixture processing unit to the first liquid mixture processing unit as many times as desired by the user.

As shown, the liquid mixture treatment unit according to the present invention, the first and second sample supply funnels 51a and 51b and the first and second extraction solvent supply tanks 52a and 52b and the cleaning solvent supply tank 53 and First and second liquid funnels 54a and 54b, first and second air pumps 55a and 55b, first and second solution detection sensors 56a and 56b, and first and second collection containers 57a and 57b) and a plurality of valves (V1, V2, ...).

The sample supply funnels 51a and 51b supply a sample solution to be extracted, and the extraction solvent supply tanks 52a and 52b supply an extraction solvent for extracting the sample solution. The washing solvent supply tank 53 supplies the washing solvent for washing the solvent transfer tubes 1a and 1b, the separating funnels 54a and 54b, the solution discharge tubes 6a, 6b, 8a and 8b and the solution transfer tube 7. do.

The separating funnels 54a and 54b are used to separate the liquid mixture in which the sample solution and the extraction solvent are mixed for a predetermined time and separate them into different solution layers. The separating funnel (54a, 54b) is a solvent transport pipe connected to the sample solution transport pipe (2a, 2b) and the extraction solvent supply tank (52a, 52b) and the washing solvent supply tank (53) connected to the sample supply funnel (51a, 51b) In order to fix (1a, 1b), the cork which provided many through-holes in the upper part is attached.

The air pumps 55a and 55b inject air for discharging the separated solution by standing for a predetermined time after mixing with air for mixing the sample solution and the extraction solvent supplied to the separating funnels 54a and 54b. . In the present invention, it is possible to automatically mix the sample solution and the extraction solvent by injecting air from the air pump (55a, 55b) to the lower portion of the separating funnel (54a, 54b).

The solution detection sensors 56a and 56b are for detecting the kind of the solution discharged from the separating funnels 54a and 54b. The sensor detection signals of the solution detection sensors 56a and 56b are transmitted to the control unit 40, and the control unit 40 receives valve control signals for collecting the solutions discharged from the separating funnels 54a and 54b for each solution. Will print. Therefore, in the present invention, it is possible to automatically separate and collect the solution separated and discharged from the separatory funnels 54a and 54b.

In the present invention, the solution detecting sensors 56a and 56b may use a method using a light transmittance of the solution and a spectrophotometer for detecting the solution by measuring the spectrum from the solution or a resistance sensor for detecting the electrical resistance of the solution. . The spectrophotometer is already known, and a detailed description of the configuration of the spectrophotometer will be omitted.

A plurality of valves (V1, V2, ...) is opened and closed in accordance with the valve control signal applied from the control unit 40. In the present invention, the sample solution and the extraction solvent are supplied to the separatory funnel by the operation of the valve, the sample solution and the extraction solvent are mixed, and settled for a predetermined time to separate and separate the solutions separated into different solution layers. A series of processes are done. The valve used in the present invention is driven according to the solenoid drive method.

The valve used in the present invention is a sample solution supply valve (V22, V23) mounted to the discharge port of the sample supply funnel (51a, 51b), the extraction solvent supply valve (V12) mounted to the discharge port of the extraction solvent supply tank (52a, 52b) , V14), the solvent supplied from the cleaning solvent supply valve (V13) mounted on the discharge port of the cleaning solvent supply tank 53, the extraction solvent supply tanks (52a, 52b) and the cleaning solvent supply tank 53, separating funnel ( Air to transfer the air supplied from the solvent transfer valves (V1, V6) and the air pumps (55a, 55b) mounted on the solvent transfer pipe (1a, 1b) to 54a, 54b) to the top of the separator funnel (54a, 54b) Feed pressure valves (V3, V8) mounted on the feed pipes (3a, 3b) and mixed pressure valves (V4, V9) and liquid funnels mounted on the air feed pipes (4a, 4b) transferred to the lower portion of the funnel (55a, 55b). (54a, 54b) is fixed to the upper portion is mounted on the air discharge pipe (5a, 5b) for discharging the air generated when mixing the sample solution and the extraction solvent to the outside Backflow prevention valves (V20, V21) installed in the air discharge valves (V2, V7) and the air transfer pipes (3a, 3b) to prevent the solution from flowing back from the separating funnel (54a, 54b) to the air pumps (55a, 55b). ), Solution discharge valves (V5, V10) mounted on solution discharge pipes (6a, 6b) for discharging the separated solution from the separating funnel (54a, 54b) to the collection container (57a), the first and second separation funnel (54a) Solution transfer valve (V11) mounted on the solution transfer pipe (7) for transferring the separated solution by connecting the (54b), solution discharge valve (V15) mounted on the solution discharge pipe (8a, 8b) mounted to the solution transfer pipe , V16).

Hereinafter, the effect of the automatic liquid mixture separation device according to the present invention.

Figure 3 is a flow chart of the process of automatic liquid phase separation apparatus according to an embodiment of the present invention.

First, the user sets the supply time of the sample solution, the extraction solvent and the washing solvent supplied to the separatory funnel through the operation unit and inputs it to the control unit. In addition, the user sets the time for mixing the sample solution and the extraction solvent, the time to settle the liquid mixture after mixing and the number of times to repeat the process of separating the liquid mixture and input to the control unit. Here, the time for setting the liquid mixture is preferably set to a minimum time or more to separate the liquid mixture.

In this specification, for the sake of clarity, it is assumed that the solution separated from the separatory funnel is divided into two upper and lower layers, wherein the solution located in the upper part of the separatory funnel is the first solution, and the solution located in the lower layer of the separatory funnel is the second solution.

Hereinafter, a process of separating and collecting the first solution located in the upper layer of the separating funnel according to the valve control signal of the control unit 40 will be described.

When the control unit 40 receives the operation start signal, the sample solution supply valve V22 and the surplus air discharge valve V2 mounted at the discharge port of the first sample supply funnel 51a are opened to open the sample solution to the first separator funnel 54a. It supplies to (S201). At this time, the supply amount of the sample solution may be changed according to the set time of opening the sample solution supply valve (V22). The control unit 40 closes the sample solution supply valve V22 after the set time and opens the extraction solvent supply valve V12 and the solvent transfer valve V1 mounted at the discharge port of the first extraction solvent supply tank 52a to extract the extraction solvent. Is supplied to the first funnel (54a) (S202). At this time, the supply amount of the extraction solvent may also be changed according to the set time for opening the extraction solvent supply valve (V12). Thereafter, the control unit 40 closes the extraction solvent supply valve V12 and the solvent transfer valve V1 after the set time, drives the air pump, and simultaneously opens the mixed pressurization valve V4 to open the first liquid funnel 54a. Supplying to the sample solution and the extraction solvent is mixed for a set time (S203). Thereafter, the control unit 40 closes the mixed pressure valve V4 and sets the liquid mixture for a predetermined time so that the liquid mixture is separated into the first and second solution layers (S204).

The first and second solutions separated in this way are discharged from the first separatory funnel 54a. The first solution to be separated is transferred to the second separatory funnel 54b, and the second solution is transferred to the first collection container ( Discharged to 57a). The above operation will be described below.

The control unit 40 opens the transfer pressure valve V3 and the solution discharge valve V5 to discharge the second solution located under the first separatory funnel 54a (S205). At this time, the control unit receives the solution detection signal in real time from the first solution detection sensor 56a (S206) and checks whether the detection signals are the same (S207). If the check result is the same, the second solution is discharged to the first collection container 57a (S208). As a result of confirmation, when a different detection signal is input, the solution discharge valve V5 is closed and the solution transfer valve V11 and the excess air discharge valve V7 are opened to transfer the first solution located in the upper layer to the second separator funnel 54b ( S209).

In this way, the first solution discharged from the first funnel 54a to the second funnel 54b is again separated from the second funnel 54b. The above operation will be described below.

The control unit 40 opens the extraction solvent supply valve (V12), the solvent transfer valve (V6) and the excess air discharge valve (V7) attached to the outlet of the second extraction solvent supply tank (52c) to extract the extraction solvent into the second funnel It supplies to 54b (S210). After that, the control unit 40 closes the extraction solvent supply valve V12 and the solvent transfer valve V6, drives the air pump 55b, opens the mixed pressure valve V9, and supplies air to the second separatory funnel 54b. By mixing the first solution and the extraction solvent for a predetermined time (S211). Thereafter, the control unit 40 allows the liquid mixture to be separated into the first and second solution layers by standing the liquid mixture for a predetermined time (S212).

The first and second solutions separated in this way are discharged from the second separatory funnel 54b. The first solution is discharged to the second collection container 57b and the second solution is discharged to the first collection container 57a. In this case, when the first solution is to be separated again, the first solution may be transferred to the first separatory funnel 54a to repeat the separation process. Hereinafter, an operation of discharging the first solution and the second solution to the first collection container 57a and the second collection container 57b will be described.

The controller 40 opens the transfer pressure valve V8 and the solution discharge valve V10 to discharge the second solution located under the second separatory funnel 54b (S213). At this time, the controller receives the solution detection signal in real time from the second solution detection sensor 56b (S214) and checks whether the solution detection signal is the same (S215). If the check result is the same, the second solution is discharged to the first collection container 57a (S216). As a result of confirmation, when a different detection signal is input, the solution discharge valve V10 is closed and the solution discharge valve V16 is opened to discharge the first solution located on the upper portion of the second separator funnel 54b to the second collection container 57b. (S217).

As described above, the automatic liquid mixture separating apparatus according to the present invention may automatically perform the operation of separating the liquid mixture, and the operation of separating the liquid mixture may be repeated as many times as desired by the user.

Figure 4 is a flow chart of the process of washing the separatory funnel after the process of separating the sample solution according to an embodiment of the present invention.

In the present invention, even if the cleaning solvent is supplied to any of the first funnel 54a and the second funnel 54b, it is possible to automatically wash the two funnels 54a, 54b. Hereinafter, this embodiment describes the washing process when the washing solvent is supplied to the first funnel 54a.

The control unit 40 opens the washing solvent supply valve V13 and the solvent transfer valve V1, supplies the washing solvent to the first separatory funnel 54a by the set amount (S310), and then opens the mixed pressurizing valve V4. Injecting air into the separator funnel (54a) to wash the residue of the first separator funnel (54a) (S311). Thereafter, the control unit 40 closes the mixed pressure valve V4, opens the transfer pressure valve V3 and the solution transfer valve V11, and transfers the washing solution to the second separatory funnel 54b (S312).

The control unit 40 closes the solution transfer valve V11, opens the mixed pressure valve V9, and injects air into the second funnel 54b to wash the residue of the second funnel 54b. S313). Thereafter, the control unit 40 closes the mixed pressure valve V9, opens the transfer pressure valve V9, and simultaneously opens the solution transfer valve V11 and the solution discharge valve V5 to collect the washing solution in the first collection container 57a. Discharge to step (S314). In the present embodiment, when the first separator funnel 54a and the second separator funnel 54b are washed as described above and need to be cleaned more, the second solvent funnel 54b is supplied with a cleaning solvent. It is possible to wash the separatory funnel 54b and to wash the first separatory funnel 54a. Hereinafter, the washing process as described above will be described.

The control unit 40 opens the washing solvent supply valve V13 and the solvent transfer valve V6, supplies the washing solvent to the second separatory funnel 54b by the set amount (S310), and then opens the mixed pressurizing valve V4 to open the mixing pressure valve V4. Injecting air into one separator funnel (54a) to wash the residue of the second separator funnel (54b) (S311). Thereafter, the control unit 40 closes the mixed pressure valve V4, opens the transfer pressure valve V3 and the solution transfer valve V11, and transfers the washing solution to the first separator funnel 54a (S312).

The control unit 40 closes the solution transfer valve V11, opens the mixed pressure valve V4, and injects air into the first separator funnel 54a to wash the residue of the first separator funnel 54a ( S313). Thereafter, the control unit 40 closes the mixed pressurizing valve V4, opens the transfer pressurizing valve V3, and simultaneously opens the solution transfer valve V11 and the solution discharge valve V10 to draw the washing solution into the first collection container 57a. Discharge to step (S314).

In the embodiment of the present invention, the washing solution is discharged to the first collection container 57a through the solution discharge pipes 6a and 6b respectively connected to the first and second separatory funnels 54a and 54b, but the solution transfer pipe ( It is also possible to open the solution discharge valve (V15, V16) attached to 7) to discharge the washing solution to the second collection container (57b).

In addition, the present invention after supplying the washing solvent to the first separator funnel (54a) to wash the first separator funnel (54a), the transfer pressure valve (V3), the solution transfer valve (V11) and the solution discharge valve (V10) To discharge the washing solution, supply the washing solvent to the second separatory funnel 54b, wash the first separatory funnel 54b, and then transfer feed pressure valve V8, solution transfer valve V11, and solution discharge valve. It is also possible to drain the cleaning solution by opening (V5).

In this manner, the present invention is capable of automatically washing the remaining residue after extraction and separation in the separatory funnel.

According to the present invention as described above, there is a useful advantage that can automatically perform the operation of extracting and separating the liquid mixture can reduce the manpower and time.

In addition, according to the present invention, there is a useful effect that the user can repeat the operation of extracting and separating the liquid mixture the desired number of times.

In addition, according to the present invention, the sample solution supply amount, the extraction solvent supply amount and the time for mixing the sample solution and the extraction solvent, the time to settle the liquid mixture after mixing and the repetition of separating the liquid mixture according to the characteristics of the sample solution to be extracted It has a useful effect that the user can freely set the number of times.

In addition, according to the present invention, it has the advantage that it can automatically wash the remaining residue separated from the separatory funnel.

Although the present invention has been described with reference to the accompanying drawings, it will be apparent to those skilled in the art that many various obvious modifications are possible without departing from the scope of the invention from this description. For example, in the embodiment of the present invention, the process of extracting and separating the liquid mixture with two liquid mixture treatment units 50 has been described. However, the liquid mixture may be separated by simply providing one liquid mixture treatment unit. Therefore, it should be interpreted by the claims described to include many such variations.

1 is a schematic overall block diagram of a liquid mixture automatic extraction separation apparatus according to an embodiment of the present invention.

2 is a block diagram of a liquid mixture treatment unit according to a preferred embodiment of the present invention.

Figure 3a, Figure 3b is a flow chart of the process of automatic liquid phase extraction and separation apparatus according to an embodiment of the present invention.

Figure 4 is a flow chart of the process of washing the funnel according to an embodiment of the present invention.

Claims (8)

In the method for automatically extracting and separating the liquid mixture, A first step of opening and closing the first sample solution supply valve for supplying the sample solution to the first separatory funnel; A second step of opening and closing the first extraction solvent supply valve for supplying the extraction solvent to the first separatory funnel; A third step of opening and closing the first mixed pressurizing valve for injecting air into the first separatory funnel; A fourth step of opening the first solution discharge valve mounted to the first solution discharge pipe to separate and collect the solution separated from the first separatory funnel; A fifth step of checking whether there is a change in the solution detection signal received from the solution detection sensor and closing the first solution discharge valve when detecting the change; Liquid mixture automatic extraction separation method comprising a. The method according to claim 1, A sixth step of opening and closing the solution transfer valve to transfer the solution discharged from the first separatory funnel to the second separatory funnel; A seventh step of opening and closing the second extraction solvent supply valve for supplying the extraction solvent to the second separatory funnel; An eighth step of opening and closing the second mixed pressure valve for injecting air into the second separatory funnel; A ninth step of opening the second solution discharge valve mounted to the solution discharge pipe of the second separatory funnel; A tenth step of checking whether there is a change in the solution detection signal received from the solution detection sensor and closing the second solution discharge valve when detecting the change; Liquid mixture automatic extraction separation method characterized in that it further comprises. The method according to claim 2, An eleventh step of opening and closing the first cleaning solvent supply valve for supplying the cleaning solvent to the first separatory funnel; A twelfth step of opening and closing the first mixed pressurizing valve for cleaning by injecting air into the first separatory funnel; A thirteenth step of opening and closing the solution transfer valve to transfer the washing solution to the second separatory funnel; A fourteenth step of controlling opening and closing of the second mixed pressure valve for cleaning by injecting air into the second separatory funnel; A fifteenth step of opening and closing the second solution discharge valve for discharging the washing solution into the first collection container; Liquid mixture automatic extraction separation method characterized in that it further comprises. In the device for automatically extracting and separating the liquid mixture, 1st, 2nd sample supply funnel, 1st, 2nd extraction solvent supply tank, 1st solvent supply tank, 1st, 2nd liquid funnel, 1st, 2nd air pump, 1st, 2nd solution detection sensor, 1st A sample solution supply valve mounted on the connection pipe between the sample supply funnel and the separatory funnel; an extraction solvent supply valve mounted on the connection pipe between the extraction solvent supply tank and the separatory funnel; A liquid mixture processing unit which is a mixed pressure valve mounted on an air transfer pipe between an air pump and a separatory funnel and a solution discharge valve mounted on a solution discharge tube between a collection vessel and a separatory funnel; A sample solution and an extraction solvent are supplied to the separatory funnel, and the sample solution and the extraction solvent are mixed using air, and the mixing and setting of the valves are performed to separate and collect the separated solution by standing for a predetermined time after mixing. Control unit for controlling, opening and closing the solution discharge valve in accordance with the solution detection signal received from the solution detection sensor; Liquid mixture automatic extraction separation device comprising a The method according to claim 4, Forming a solution transfer pipe connecting the first liquid funnel solution discharge pipe and the second liquid funnel solution discharge pipe, the liquid mixture automatic extraction separation separation further comprising a solution transfer valve and a solution discharge valve mounted to the solution transfer pipe Device. The method according to claim 4 or 5, Liquid extraction mixture separation device further comprises a washing solvent supply valve mounted to the connection between the washing solvent supply tank and the separatory funnel. The method according to claim 4 or 5, wherein the solution sensor is: Liquid mixture automatic extraction separation device, characterized in that the resistance sensor for detecting the electrical resistance of the solution discharged from the separatory funnel. The method according to claim 4 or 5, wherein the solution sensor is: The liquid mixture automatic extraction separation device, characterized in that the spectrophotometer for detecting the solution by measuring the transmission of the spectrum or light from the solution discharged from the separating funnel.