KR101806883B1 - Experimental equipment for osmotic pressure - Google Patents

Abstract

The present invention relates to an osmotic pressure experiment device. A drain valve for solution supply and an osmotic pressure check gauge, which are placed at a distance from each other, are installed on the upper surface of a first container and a semipermeable membrane is fixed to the bottom of the container. The first container, storing a solution, is placed in a second container for storing a pure solvent, and then, the second container is filled with the pure solvent as much as a fixed amount, and thus, the solvent flows through the semipermeable membrane in the bottom of the first container to make a pressure difference permeating into the solution of the first container, which is osmotic pressure, and then, the elevation of the solution by the osmotic pressure is shown through the gauge. According to the present invention, as the first and second containers are separated and the first container is stored in the second container for an osmotic pressure experiment, there is no need to assemble the first and second containers with each other. During the osmotic pressure experiment, the second container storing the first container is placed and used on an experimental table, and thus, there is no need for an extra support unit for supporting the osmotic pressure experiment device. Moreover, as the first and second containers are transparent, an experimenter or observer is able to easily check the solvent in the second container and the solution in the first container with the naked eye and to check the solution elevated by the osmotic pressure through the gauge with the naked eye. As the second container stores the first container, the first container is able to be safely and easily stored and carried.

Description

[0001] Experimental equipment for osmotic pressure [

The present invention relates to an experimental apparatus, and more particularly to an osmotic pressure experiment apparatus.

Osmotic pressure means that a semi-permeable membrane is passed through a container, but not through a solute, and a solution of a difference in concentration and a pure solvent are introduced separately on both sides of the container. A certain amount of solvent penetrates into the solution, , And the pressure difference occurring at both sides of the semipermeable membrane at this time.

For example, when sugar water is put into one side of a semipermeable membrane sandwiched between the above-mentioned containers and distilled water is put into the other side as a solvent, a pressure difference that allows a certain amount of distilled water to permeate into the sugar water through the semipermeable membrane, .

In order to acquire the above-mentioned principle of osmotic pressure through experiential exercises, Patent Document 1 is formed in such a manner that the membrane is located in the center of the point where the fresh water storage portion and the salt water storage portion meet, and the osmotic pressure between fresh water and salt water can be measured An osmotic exercise device is posted.

The osmotic exercise device disclosed in Patent Document 1 is not easy to manufacture because the fresh water storage portion and the brine storage portion are always formed to have the same size for accurate osmotic pressure measurement and they must be arranged horizontally with each other across the membrane, Do.

In addition, since the fresh water storage portion and the salt water storage portion are horizontally disposed in a cylindrical shape, there is an inconvenience in that the osmotic exercise device must be stably supported from the ground by fixing a separate support portion to each side of the fresh water storage portion and the salt water storage portion.

In addition, a fresh water cap and a salt water cap are additionally formed separately from the fresh water inlet and the salt water inlet formed at the upper part of the fresh water storage part and the salt water storage part so that the amount of fresh water and salt water contained in the fresh water storage part and the salt water storage part There is an inconvenience to check with the naked eye.

In particular, since the brine level gauge formed through the brine cap is exposed to the upper side of the brine storage part, it is inconvenient to store the osmotic exercise device and the brine level gauge breaks easily during storage or movement.

KR 10-1375762 B1

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems, and it is an object of the present invention to provide an apparatus and a method for measuring osmotic pressure, which are provided with a solution supply drain valve and a gauge for confirming osmotic pressure, The method of claim 1, wherein the first container is placed in a second container containing the pure solvent in a state that the first container is filled with the solution, and then the predetermined amount of the pure solvent is filled in the second container. The osmotic pressure experimental device for passing the osmotic pressure through the semipermeable membrane and allowing the osmotic pressure to penetrate into the solution of the first container,

Another object of the present invention is to provide an osmotic pressure experiment device for accommodating and storing a first container in the second container.

In order to accomplish the object of the present invention, an osmotic pressure testing apparatus according to the present invention is provided with a solution supply drain valve and a gauge for osmotic pressure confirmation, which are disposed on the upper surface of the apparatus, A first container in which a solution supplied through the drain valve in an osmotic pressure test is shown through the gauge by means of an osmotic pressure action; And a second container containing the first container and marked with a scale showing the change in height of the solution in which the net solvent is elevated through the gauge by the osmotic pressure action in the osmotic pressure test, When the predetermined amount of the pure solvent is filled in the second container after the first container is received in the second container in which the pure solvent is contained in the solution containing the solution, the pure solvent is introduced into the semi-permeable membrane The solution exhibiting a pressure difference, that is, an osmotic pressure, which permeates into the solution of the first container through the gauze and causes the osmotic action to rise through the gauges, .

In the osmotic pressure experiment apparatus according to the present invention, the first container is detachably connected to the bottom portion of the first container, and a gap is formed between the bottom portion of the first container and the bottom surface of the second container, And a bottom cover provided with a sag preventing net to prevent the sagging of the semipermeable membrane from being formed in a central hole through which the solvent passes through the semipermeable membrane into the first vessel and through which the net solvent passes .

In the osmotic pressure experiment device according to the present invention, the second container serves to receive, store or transport the first container.

The osmotic pressure testing device according to the present invention is characterized in that the first container and the second container are separated and the first container is accommodated in the second container and used for the osmotic pressure test, There is no inconvenience.

The osmotic pressure testing device according to the present invention does not require a separate supporting means for supporting the osmotic pressure testing device since the second container for receiving the first container is placed on the experiment table during the osmotic pressure test.

In the osmotic pressure testing apparatus according to the present invention, since the first container and the second container are transparent, both the experimenter and the observer can easily visually confirm the solution filled in the first container and the solvent filled in the second container during the osmotic pressure test , The solution ascending through the gauge by osmotic action can be easily visually confirmed.

The osmotic pressure testing device according to the present invention plays a role of storing and transporting the first container, so that the first container can be safely and easily stored and transported.

1 is an exploded perspective view of an osmotic pressure experiment device according to the present invention.
FIG. 2 is a view showing the use state of an osmotic pressure testing apparatus according to the present invention. FIG.
3 is a bottom perspective view of the bottom cover;
4 is an enlarged view showing a flow path formed by the protrusion of the bottom cover;

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

Referring to FIG. 1, an osmotic pressure testing apparatus 100 according to the present invention includes a first container 110, a semipermeable membrane 120, a second container 130, and a bottom cover 140.

The first container 110 is provided with a solution supply drain valve 111 and a gauge 112 for confirming the osmotic pressure development, which are disposed on the upper surface of the first container 110, and are transparent.

The semipermeable membrane 120 is fixed to the bottom of the first container 110.

The semipermeable membrane 120 is preferably made of cellophane which can be readily obtained by a student or a teacher at the time of an osmotic pressure test in a school, and any material may be used as long as it does not allow the solute to pass through but not the solute.

The first container 110 is filled with a solution (for example, sugar water) supplied through the drain valve 111 installed in a solution supply pipe (not shown) communicating with a funnel (not marked) Shows a solution rising through the gauge 112 by hyperosmotic action.

The drain valve 111 preferably uses a check valve in which the fluid flows only in one direction. In the osmotic pressure test, even if the drain valve 111 is unlocked and is in an open state, Thereby preventing the gas from being discharged through the valve 111.

It is desirable that the gauge 112 be made in a spiral shape to increase the visibility of the spirally rising solution during the osmotic pressure test.

For reference, in order to increase the visibility of the solution rising through the gauge 112 by osmotic action, a sugar solution mixed with a dye-mixed solution, for example, a dye of green, red, blue, .

The second container 130 receives the first container 110 and is transparent.

The second container 130 may be any shape as long as it accommodates the first container 110 and has an open top (for example, a cylinder, a rectangular tube, a polygonal tube, or the like).

For reference, FIG. 1 illustrates a second container 130 having a cylindrical shape and having an upper portion opened and a lid (not shown) removed.

The second container 130 has a scale 131 showing a change in height of a solution containing a net solvent (for example, distilled water) during an osmotic pressure test and rising through the gauge 112 by osmotic action.

The scale 131 is preferably a pressure unit (hPa) graduation showing changes in osmotic pressure, and may be a height unit (cm) scale showing a change in height only.

The bottom cover 140 is detachably attached to a bottom portion of the first container 110 and a gap is formed between a bottom portion of the first container 110 and a bottom surface of the second container 130 And a net solvent filled in the second container 130 forms a flow path through the semipermeable membrane 120 into the first container 110.

In the bottom cover 140, a sag prevention net 142 for preventing sagging of the semipermeable membrane 120 is installed in a central hole 141 through which the pure solvent passes.

The sagging prevention net 142 is preferably formed in a mesh shape and any shape or any material (for example, a line, a metal, a plastic, or the like) may be used as long as the net solvent can pass therethrough .

For reference, FIG. 1 illustrates a sag prevention net 142 made of a wire mesh treated with rust.

The bottom cover 140 may be coupled to the bottom of the first container 110 by a variety of coupling methods such as an interference fit type and a screw coupling type. Preferably, the bottom cover 140 is sealed using a waterproof tape when the bottom cover 140 is coupled.

For reference, FIG. 2 illustrates a bottom cover 140 sealingly coupled to the bottom of the first container 110 in a forced fit manner.

2, a gap is formed between the bottom of the first container 110 and the bottom surface of the second container 130 by the sag prevention net 142 projected from the bottom of the bottom cover 140 (See arrows) through which the pure solvent filled in the second container 130 passes through the semipermeable membrane 120 into the first container 110. The bottom cover 140 is formed of a synthetic resin.

3 to 4, the protrusion height of the bottom cover 140 is equal to or greater than the protrusion height of the slack prevention protrusion 142 protruding from the bottom of the bottom cover 140, A plurality of protruding portions 143 spaced apart at predetermined intervals may be formed at the bottom portion.

3 is a bottom perspective view of the bottom cover 140 formed with four protrusions 143 spaced apart from each other at a predetermined distance. FIG. 4 is a plan view of the bottom cover 140 formed by protrusions 143 of the bottom cover 143 shown in FIG. Fig.

A clearance is formed between the bottom of the first container 110 and the bottom of the second container 130 by forming the protrusion 143 so that the pure solvent filled in the second container 130 is separated from the bottom of the semi- (See arrows in FIG. 4) through the first container 110 through the first and second containers 120 and 120.

The osmotic pressure testing apparatus 100 constructed as above is used as follows.

Before or after the osmotic pressure test, the experimenter can receive and store the first container 110 in the second container 130 safely and easily.

In the osmotic pressure test, the experimenter uses the first container 110 and the second container 130 separated from each other and takes out the first container 110 stored in the second container 130 and uses it for the osmotic pressure test, There is no inconvenience that the container 110 and the second container 130 need to be assembled with each other.

After the first container 110 received in the second container 130 is removed, the experimenter inserts the semipermeable membrane 120 in close contact with the inner bottom surface of the bottom cover 140, The semipermeable membrane 120 is fixed to the bottom of the first container 110 by sealing the bottom cover 140 to the bottom of the first container 110.

Then, as shown in Fig. 1, the experimenter puts a sugar solution mixed with a solution, for example, a green pigment, through the drain valve 111 installed in a solution supply pipe (not shown) communicating with a funnel The solution is filled in the first container 110, and then the drain valve 111 is closed.

At this time, both the experimenter and the observer can easily visually confirm the solution filled in the transparent first container 110.

After the solution is filled in the first container 110 as described above, the experimenter then places the second container 130 on the experiment table and connects the first container 110 filled with the solution to the second container 110. [ (130).

As described above, since the second container 130 accommodating the first container 110 is placed on the experimental table, the present invention does not require a separate supporting means for supporting the osmotic pressure testing apparatus 100 according to the present invention .

The experimenter then fills the second container 130 with a predetermined amount of a net solvent, e.g., distilled water.

At this time, both the experimenter and the observer can easily confirm the net solvent filled in the transparent second container 130 with the naked eye.

2, the bottom surface of the first container 110 and the bottom surface of the second container 130 are separated by the sag prevention net 142 protruding from the bottom of the bottom cover 140, And a flow passage (see arrow) through which the pure solvent filled in the second container 130 passes through the semipermeable membrane 120 into the first container 110 is formed.

Then, as time passes, the pure solvent filled in the second container 130 passes through the semipermeable membrane 120 located at the bottom of the first container 110 and flows into the solution of the first container 110 There is a pressure difference, that is, osmotic pressure, which causes permeation.

In this way, when osmotic pressure is generated, the first container 110 shows sugar water mixed with a solution, for example, a green pigment, which rises through the gauge 112 by osmotic action, and the second container 130 The change in height of the solution is shown through the scale 131.

At this time, both the experimenter and the observer can easily visually confirm the solution rising through the gauge 112 of the transparent first container 110 by the osmotic action, and the height change of the solution rising through the gauge 112 Can be confirmed through the scale 131 of the transparent second container 130 (see the arrow indicating the ascending solution height in FIG. 2).

The osmotic pressure test apparatus according to the present invention described above is not limited to the above-described embodiments, and any person skilled in the art may change the present invention without departing from the gist of the present invention. I have the technical spirit to the extent that I can.

100: osmotic pressure testing device 110: first container
111: drain valve 112: gauge
120: Semipermeable membrane 130: Second container
131: scale 140: bottom cover
141: center hole 142: anti-sagging network
143:

Claims (3)

A drain valve for supplying a solution and a gauge for confirming the osmotic pressure phenomenon are disposed on the upper surface, a semi-permeable membrane is fixed on the lower part, a solution supplied through the drain valve is contained in the osmotic pressure test, A first container which is transparent and shows a solution rising through it; And
A transparent second container containing the first container and marked with a scale showing the change in height of the solution in which the net solvent rises through the gauge by means of osmotic pressure action during the osmotic pressure test;
≪ / RTI >
When the first solvent is contained in the first container and the first solvent is contained in the second container, the pure solvent is filled in the second container by a predetermined amount, The osmotic action of the osmotic action is shown through the gauze and the height change of the rising solution is measured by the osmotic pressure action Through the show,
Wherein a clearance is formed between a bottom of the first container and a bottom surface of the second container so that a net solvent filled in the second container is introduced into the first container through the semi- And a bottom cover provided with a sag preventing net to prevent sagging of the semipermeable membrane on a central hole through which the net solvent passes. The osmotic pressure testing device according to claim 1, wherein the second container serves to receive and store or convey the first container. delete

Images