KR200208443Y1 - Carbon Dioxide Culture Unit Using PH Determine Ability - Google Patents

Abstract

The present invention relates to a carbon dioxide incubator having a pH measuring function, characterized in that by inserting a pH measuring device into the carbon dioxide incubator to display the PH inside the incubator in real time, more precise control of the carbon dioxide required for biological growth. A PH sensing unit installed inside the incubator to automatically detect the PH concentration in the incubator;

An amplifier circuit unit for amplifying the PH concentration signal sensed by the PH detector;

An analog digital converter for converting an analog electric signal transmitted from the amplifying circuit unit into digital;

A controller which analyzes the signal converted by the analog digital converter, grasps the PH concentration, and outputs a carbon dioxide amount control signal by comparing with the previously input PH concentration value;

It characterized in that it comprises a solenoid valve driving circuit for opening and closing the carbon dioxide solenoid valve in accordance with the signal of the controller.

Description

Carbon Dioxide Culture Unit Using PH Determine Ability

The present invention relates to a dioxide incubator, and in particular, by inserting a pH detector into the carbon dioxide incubator to display the pH inside the incubator in real time, PH measurement function, characterized in that to more precisely control the carbon dioxide required for biological growth It relates to a carbon dioxide incubator having.

1 is a perspective view of a conventional carbon dioxide incubator.

As can be seen in FIG. 1, a general carbon dioxide incubator has a first housing 2. The first housing 2 is provided with a door 10 for opening and closing the culture chamber 6 to be described later, the upper portion of the first housing 2 serves to adjust the temperature of the culture chamber 6 and the concentration of carbon dioxide. The control display panel 4 is laminated.

On the bottom of the first housing 2, four wheels for supporting the control display panel 4 and the first housing 2 and moving them to a predetermined place are provided at four corners, respectively. .

2 is a view showing a state of opening the door 10 of the conventional carbon dioxide incubator. Referring to FIG. 2, when the door 10 installed in the first housing 2 is opened, the culture chamber 6 is visible.

The culture chamber 6 is formed as a hexahedral space on the inner surface of the first housing 2, and various living organisms, ie, microorganisms, animal cells, bacteria, sperm, and eggs, are cultured in the culture chamber 6.

That is, a culture table on which a plurality of shelves 8 are to be placed in the culture chamber 6 may be seated to cultivate experimental and developmental organisms, and an experiment dish may be placed on the shelves 8.

In addition, each shelf 8 is provided with a plurality of vent holes 8a for smoothly flowing the air in the culture chamber 6.

A water jacket (not shown) is provided in the side wall of the culture chamber 6 to keep the culture chamber 6 warm, and a main heater is provided on the outside of the water jacket to heat water in the water jacket.

In addition, a gasket 12 is installed at the inner edge of the door 10 to seal the culture chamber 6 and the door 10, and the gasket 12 has a door for uniform temperature distribution of the culture chamber 6. The door heater is provided so as to transfer heat to the 10.

On the other hand, the carbon dioxide provided in the carbon dioxide incubator is sprayed in a gaseous state in a laboratory dish located inside the incubator to maintain a pH concentration suitable for living organisms.

Since the amount of carbon dioxide provided to the carbon dioxide incubator is inversely proportional to the pH concentration, the higher the amount of carbon dioxide, the lower the pH concentration is close to acid, and the lower the amount of carbon dioxide, the higher the pH concentration is close to the algae.

In addition, since the pH concentration inside the incubator for cultivating the organism should be made close to the PH concentration of the actual organism, it is very important to keep the PH concentration constant in the carbon dioxide incubator.

To this end, conventionally, by observing the carbon dioxide concentration inside the carbon dioxide incubator through an external display device, the PH concentration in the actual incubator is estimated to indirectly check whether the current pH concentration of the carbon dioxide incubator is appropriate.

In order to directly check the pH concentration, it is necessary to detect the liquid state dissolved in the laboratory dish. In order to do this, the incubator door must be opened, and then various conditions including the temperature and humidity provided in the laboratory dish are all wrong. Until now, the only way to check the pH concentration indirectly as the concentration of carbon dioxide.

However, the problem is that the concentration of carbon dioxide displayed on the outside may be different.

This means that if you use the carbon dioxide incubator for a long time, it becomes difficult for the instrument to measure the carbon dioxide to accurately measure the concentration of carbon dioxide. Especially, it is difficult to check the concentration of carbon dioxide immediately after an accident such as a power failure. As the concentration cannot be measured accurately, the experiment becomes difficult to perform correctly.

The present invention is to solve the above problems,

A device for measuring the pH concentration is to be mounted inside the carbon dioxide incubator, and displayed on the outside, so that the pH concentration provided in the actual laboratory dish can be directly checked so that the experimenter using the incubator can be managed more efficiently. There is a characteristic.

As a means for achieving the above object,

The present invention installs a PH measuring device inside the incubator, and displays the PH result value inside the incubator measured by the PH measuring device to the outside to know the more accurate PH value, it is possible to adjust the supply amount of carbon dioxide based on this It is characterized by a control box.

1 is a perspective view of a typical carbon dioxide incubator.

2 is a state in which the door of the carbon dioxide incubator of FIG. 1 is opened.

3 is a block diagram of the present invention.

Figure 4 is a state equipped with a PH measuring instrument of the carbon dioxide incubator of the present invention.

5 is a perspective view of a carbon dioxide incubator of the present invention.

Explanation of symbols on the main parts of the drawings

110: PH concentration detection unit 120: amplification circuit unit

130: A / D conversion unit 140: control unit

150: carbon dioxide solenoid valve 160: display unit

170: key input means

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

3 is a block diagram of the present invention.

Figure 4 is a state equipped with a PH measuring instrument of the carbon dioxide incubator of the present invention.

5 is a perspective view of a carbon dioxide incubator of the present invention, as shown,

A PH sensing unit 110 installed inside the incubator to automatically detect the PH concentration in the incubator;

An amplifying circuit unit 120 for amplifying the PH concentration signal sensed by the PH sensing unit 110;

An analog digital converter (130) for converting an analog electric signal transmitted from the amplifying circuit unit (120) into digital;

A controller 140 for analyzing the signal converted by the analog digital converter 130 to determine a PH concentration and outputting a carbon dioxide amount control signal by comparing with a previously input PH concentration value;

A solenoid valve driving circuit unit 150 for opening and closing the carbon dioxide solenoid valve according to the signal of the controller 140;

And a display device 160 for displaying the carbon dioxide concentration and the PH concentration according to the signal of the controller 140.

And, the carbon dioxide incubator is made by adding a manual key input means 170 that can set the pH concentration.

The present invention configured as described above, as shown in Figure 4, installs a PH concentration detecting unit 110 for detecting the PH concentration at a point inside the incubator 100.

The PH concentration detecting unit 110 is installed on one side inside the incubator 100 to detect the PH concentration in the incubator in real time, and the control unit through the amplification circuit unit 120 and the analog digital converter (130) ( 140).

Then, the controller 140 grasps the current PH concentration value and outputs it through the display device 160 so that the current PH concentration value can be known from the outside, and also compared with the PH concentration specified by the user. If the concentration value is lower than the reference PH concentration, the carbon dioxide solenoid valve is opened to supply more carbon dioxide. If the current pH concentration is lower than the reference PH concentration, the carbon dioxide solenoid valve is opened to reduce the supply of carbon dioxide.

That is, by using the present invention it is possible to automatically check the amount of carbon dioxide provided in the incubator because it can check the actual PH concentration value through the PH concentration meter installed inside the incubator.

If the measured pH concentration is lower than the reference PH concentration, the carbon dioxide solenoid valve is further opened to supply more carbon dioxide. If the current pH concentration is lower than the reference PH concentration, the carbon dioxide solenoid valve is reduced to reduce the supply amount of carbon dioxide. The reason for the less open is that the concentration of PH and carbon dioxide are inversely proportional to each other. The amount of carbon dioxide supplied is controlled so as to be a reference PH concentration compared to the pH concentration sensed.

Therefore, the present invention for controlling the supply amount of carbon dioxide by accurately measuring the pH concentration as described above, compared with the conventional carbon dioxide incubator only measures the amount of carbon dioxide to estimate the PH concentration of the incubator, which may cause the accuracy to drop. can see.

In other words, the conventional carbon dioxide incubator does not know the exact PH concentration, and only the amount of carbon dioxide is measured based on the calculated PH concentration based on this cannot be said to be an accurate value, especially when used for a long time can change the carbon dioxide measurement value, The pH concentration value calculated on the basis of this is different from the PH concentration value actually provided.

However, if the present invention can be used to immediately know the pH concentration, by controlling the amount of carbon dioxide supply based on this, it becomes possible to more effectively control the carbon dioxide supply.

Therefore, by using the present invention by providing a more precise PH concentration control, it provides an effect that can be expected more accurate results in the experiment by the culture.

Claims (1)

A PH sensing unit installed inside the carbon dioxide incubator to automatically detect the PH concentration in the incubator; An amplifier circuit unit for amplifying the PH concentration signal sensed by the PH detector; An analog digital converter for converting an analog electric signal transmitted from the amplifying circuit unit into digital; Analyze the signal converted by the analog digital converter to determine the PH concentration and compare with the pre-input PH concentration value to increase the supply of carbon dioxide if the pH concentration is below the reference, and if the PH concentration value is above the reference, supply of carbon dioxide A control unit for outputting a reduction carbon dioxide control signal; A solenoid valve driving circuit unit controlling an opening / closing amount of the carbon dioxide solenoid valve according to a signal of the controller; Carbon dioxide incubator having a PH measurement function comprising a display device for displaying the carbon dioxide concentration and PH concentration in accordance with the signal of the control unit.