JP2009168694A - Chlorine meter - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To achieve a chlorine meter for eliminating a slip ring, and improving a capability for cleaning an indication electrode. <P>SOLUTION: The chlorine meter for measuring a chlorine concentration within a to-be-measured fluid is provideed with: a measurement tank into which the to-be-measured fluid flows; the indication electrode provided on the wall of the measurement tank; a plurality of polishing spheres for electrode, provided in the measurement tank, and polishing the indication electrode; a stirring body provided in the measurement tank, and stirring the polishing spheres; and a stirring body drive/control means provided outside the measurement tank, and driving and controlling the stirring body. <P>COPYRIGHT: (C)2009,JPO&INPIT

Description

The present invention relates to a chlorine meter.
More specifically, the present invention relates to a chlorine meter that does not require a slip ring and has improved indicator electrode cleaning power.

  Prior art documents related to the chlorine meter include the following.

JP 04-040604 A JP 2004-053549 A

FIG. 5 is an explanatory diagram showing the structure of the main part of a conventional example that has been generally used in the past, and measures residual chlorine in water using a polarographic method.
FIG. 6 is an explanatory diagram of a main part configuration of FIG.

  In the figure, when the indicator electrode 1 and the comparison electrode 2 are placed in the sample water 5 and a DC voltage is applied between these electrodes, an electrolytic reduction reaction of the electrolyte (chlorine) occurs on the surface of the indicator electrode 1. A current flows between the comparison electrodes 2.

When a voltage is applied between the electrodes, a certain diffusion layer having concentration polarization is formed in the vicinity of the indicator electrode 1. In this state, the electrolytic reduction current is proportional to the diffusion rate. The diffusion rate is proportional to the residual chlorine concentration in the sample water 5.
Therefore, residual chlorine in the sample water 5 can be measured by measuring the current (diffusion current Id) at this time.

In such chlorine concentration measurement, it is important to keep the thickness of the diffusion layer constant in order to stably obtain the proportionality between the chlorine concentration and the diffusion current. Therefore, the indicator electrode 1 is always rotated at a constant speed by the motor 3 in order to keep the thickness of the diffusion layer constant.
Since the indicator electrode 1 is always rotating, the electric transmission mechanism 4 that can extract the current from the rotating body is required to detect the diffusion current Id.

FIG. 6 is a view showing an example of a conventional electric transmission mechanism 4.
A circular slip ring 4 a is electrically connected to the indicator electrode 1 and rotates together with the indicator electrode 1.
Near the slip ring 4a, a brush 4b that contacts the outer peripheral surface of the slip ring 4a and a support portion 4c that supports the brush 4b are installed in a non-rotating state.

  By bringing the brush 4b into contact with the slip ring 4a, it is electrically connected, and current can be transmitted between the rotating slip ring 4a and the stationary brush 4b.

Such an apparatus has the following problems.
Since a chlorine ion current is extracted from the rotating electrode, a mechanism such as a slip ring is necessary, and it is difficult to adjust the position of the slip ring 4a and the brush 4b.
In addition, expensive lifetime components such as motors need to be replaced.

In addition, there is a fixed electrode system such as a water flow system, but there is a drawback that the electrode cannot be sufficiently cleaned because the power to polish the electrode is weak.
Although there is a structure in which the measuring tank itself is rotated by a fixed electrode type, there is a problem that the shape becomes large and it is difficult for the measuring liquid to flow into the electrode at the center of the measuring tank due to centrifugal force.

The object of the present invention is to solve the above-mentioned problems.
Since the electrode portion is fixed, a current take-out mechanism from a rotating body such as a slip ring is not required for taking out current, and an object is to provide a chlorine meter that can reduce assembly accuracy and cost and can be miniaturized.
It is an object of the present invention to provide a chlorine meter capable of more reliably and quickly cleaning the indicator electrode since the electrode polishing ball can be actively stirred by the stirring body.

In order to achieve such a problem, in the present invention, in the chlorine meter of claim 1,
In a chlorine meter for measuring a chlorine concentration in a measurement fluid, a measurement tank into which the measurement fluid is introduced, an indicator electrode provided on a tank wall of the measurement tank, and a plurality of polishing electrodes provided in the measurement tank to polish the indicator electrode Electrode polishing balls, a stirring body provided in the measurement tank for stirring the electrode polishing balls, and a stirring body drive control means for driving and controlling the stirring body provided outside the measurement tank. To do.

In the chlorine meter according to claim 2 of the present invention, in the chlorine meter according to claim 1,
The stirring main body has a magnetic material, and the stirring main body drive control means has an electromagnet.

In the chlorine meter according to claim 3 of the present invention, in the chlorine meter according to claim 1,
The agitating body has a magnetic body, and the agitating body drive control means has a driving magnetic body for driving the magnetic body and a driving rotating means for rotating the driving magnetic body.

In the chlorine meter according to claim 4 of the present invention, in the chlorine meter according to claim 3,
A motor, gas, or liquid is used as the drive rotation means.

In the chlorine meter according to claim 5 of the present invention, in the chlorine meter according to claim 1,
A connecting means for directly connecting the stirring body and the stirring body drive control means is provided.

In the chlorine meter according to claim 6 of the present invention, in the chlorine meter according to any one of claims 1 to 5,
The indicator electrode is detachably provided in the measurement tank.

In the chlorine meter according to claim 7 of the present invention, in the chlorine meter according to any one of claims 1 to 6,
The electrode polishing sphere is made of ceramic or glass.

According to claim 1 of the present invention, there are the following effects.
Since the indicator electrode can be fixed to the measuring tank, an expensive and adjustment mechanism such as a slip ring can be eliminated for taking out the current, so that a chlorine meter that can be reduced in cost and reduced in size can be obtained.
Since the electrode polishing sphere can be actively stirred by the stirring main body, a chlorine meter capable of more reliably and quickly cleaning the indicator electrode is obtained.

According to claim 2 of the present invention, there are the following effects.
Since an electromagnet is used for the stirring main body drive control means, a rotating part such as a motor is eliminated, and a chlorine meter capable of extending the life and reducing the size can be obtained.
By using an electromagnet, a chlorine meter that can freely control the stirring speed can be obtained. For example, when the electrode surface is heavily soiled, it is stirred quickly, and when the electrode sensitivity changes, the rotational speed is adjusted to correct.

According to claim 3 of the present invention, there are the following effects.
In the structure in which the stirrer using the magnetic material and the stirrer main body drive control means are not in contact with each other, the connecting body of the stirrer and the stirrer main body drive control means can be eliminated, so that a chlorine meter that can be reduced in size and cost can be obtained .

According to claim 4 of the present invention, there are the following effects.
A chlorine meter that can further reduce costs can be obtained by attaching and rotating a magnetic material to the tip of a water turbine or wind turbine using liquid or gas in the stirring main body drive control means. In that case, a chlorine meter that is power-saving and environmentally friendly can be obtained.

According to claim 5 of the present invention, there are the following effects.
Since the connecting means for directly connecting the stirring main body and the stirring main body drive control means is provided, a chlorine meter that can secure a stronger cleaning means for the indicator electrode is obtained.

According to claim 6 of the present invention, there are the following effects.
If the indicator electrode is unitized, for example, is threaded and attached to the measuring tank, even if the indicator electrode is worn, chlorine can be easily replaced and maintained easily A total is obtained.

According to claim 7 of the present invention, there are the following effects.
Since the electrode polishing balls are made of ceramics or glass, a chlorine meter having good corrosion resistance against chlorine can be obtained.

Hereinafter, the present invention will be described in detail with reference to the drawings.
FIG. 1A is an explanatory diagram of the main part configuration of one embodiment of the present invention, FIG. 1B is a sectional view taken along the line AA of FIG. 1A, and FIG.
In the figure, configurations with the same symbols as in FIG. 5 represent the same functions.
Only the differences from FIG. 5 will be described below.

In FIG. 1, the measurement fluid flows into the measurement tank 11. In this case, the measuring tank 11 has a cylindrical shape.
The indicator electrode 12 is provided on the tank wall of the measurement tank 11.
In this case, the indicator electrode 12 is detachably provided in the measurement tank 11. Specifically, the indicator electrode 12 is screwed to the measurement tank 11.

The counter electrode 13 is provided in the measurement tank 11.
The position of the counter electrode 13 is not limited to the measurement tank 11 as long as it is wetted and fixed in the measurement tank 11.
The plurality of electrode polishing balls 14 are provided in the measurement tank 11 and polish the indicator electrode 12.
In this case, the electrode polishing ball 14 is made of ceramics or glass.

The stirring body 15 is provided in the measurement tank 11 and stirs the electrode polishing ball 14.
The stirring main body drive control means 16 is provided outside the measuring tank 11 and controls the driving of the stirring main body 15.
In this case, the stirring body 15 has a magnetic body 151, and the stirring body drive control means 16 has an electromagnet 161.
The magnetic body 151 is coated with a coating body 152.

The stirring body may include a magnetic body, and the stirring body drive control means may include a drive magnetic body that drives the magnetic body and a drive rotation means that rotates the drive magnetic body.
In that case, a motor, a gas, or a liquid is used for the drive rotation means.

In the above configuration, by applying a voltage between the indicator electrode 12 and the counter electrode 13, a chlorine ion current corresponding to the chlorine concentration of the measurement fluid in the measurement tank 11 flows.
This applied voltage must be changed according to the chloride ion current.
Further, in order to keep the surface of the indicator electrode 12 in the initial state, it is polished with the electrode polishing ball 14.

By rotating the stirring body 15 by the magnetic force of the stirring body drive control means 16, a large number of surrounding electrode polishing balls 14 are rotated along the measurement tank 11. Thereby, the surface of the electrode 12 can be polished.
In addition, the same effect is acquired by rotating the magnetic material of the stirring main body drive control means 16 using a motor, gas, and a liquid.

As a result,
Since the indicator electrode 12 can be fixed to the measuring tank 11, an expensive mechanism such as the slip ring 4a for taking out the current can be eliminated, so that a chlorine meter that can be reduced in cost and reduced in size can be obtained.
Since the electrode polishing ball 14 can be actively stirred by the stirring body 15, a chlorine meter capable of more reliably and quickly cleaning the indicator electrode 12 can be obtained.

Since the electromagnet 161 is used for the agitation main body drive control means 16, there is no rotating part such as a motor, and a chlorine meter capable of extending the life and reducing the size can be obtained.
By using the electromagnet 161, a chlorine meter capable of freely controlling the stirring speed can be obtained. For example, when the electrode surface is heavily soiled, it is stirred quickly, and when the electrode sensitivity changes, the rotational speed is adjusted to correct.

  In the structure in which the stirrer 15 using the magnetic material and the stirrer main body drive control means 16 are not in contact with each other, the connecting body of the stirrer 15 and the stirrer main body drive control means 16 can be eliminated. A total is obtained.

A chlorine meter that can further reduce the cost can be obtained by attaching and rotating a magnetic material to the tip of the turbine or wind turbine using liquid or gas in the stirring main body drive control means 16.
In this case, a chlorine meter that is energy-saving and environmentally friendly can be obtained.

  When the indicator electrode 12 is unitized and, for example, is threaded and attached to the measuring tank 11, even when the indicator electrode 12 is worn, the electrode can be easily replaced, and maintenance can be performed. An easy-to-use chlorine meter is obtained.

  Since the electrode polishing ball 14 is made of ceramics or glass, a chlorine meter having good corrosion resistance against chlorine can be obtained.

FIG. 3 is an explanatory view of the main part configuration of another embodiment of the present invention.
In FIG. 3, the counter electrode 21 is provided on the tank wall of the measurement tank 11.
In this case, the counter electrode 21 is detachably provided in the measurement tank 11. Specifically, the counter electrode 21 is screwed to the measurement tank 11.

FIG. 4 is an explanatory view of the main part configuration of another embodiment of the present invention.
In FIG. 4, the connecting means 31 directly connects the stirring main body 32 and the stirring main body drive control means 33.
In this case, the connecting means 31 is a round bar-shaped connecting rod.

  As a result, since the connecting means 21 for directly connecting the agitating body 22 and the agitating body drive control means 23 is provided, a chlorine meter capable of securing a more powerful indicator electrode cleaning means can be obtained.

In FIG. 1 embodiment, the stirring main body drive control means 16 is located below the measurement tank 11, but may be at an optimum position on the measurement tank 11 or on any side surface.
Moreover, when two or more electrodes are required for the measurement and the electrode surface becomes dirty, it can be used for an instrument that affects the measurement.

It can be used not only for the two-electrode method but also for the electrode polishing structure that measures the ionic current, such as a three-electrode method.
Further, by replacing the electrodes, conductivity measurement and PH measurement can be performed. Due to its small size, a three-electrode type residual salt meter, conductivity meter, PH meter, etc. can be arranged in one device to produce a small water quality monitor.

The above description merely shows a specific preferred embodiment for the purpose of explanation and illustration of the present invention.
Therefore, the present invention is not limited to the above-described embodiments, and includes many changes and modifications without departing from the essence thereof.

It is principal part structure explanatory drawing of one Example of this invention. It is principal part structure explanatory drawing of FIG. It is principal part structure explanatory drawing of the other Example of this invention. It is principal part structure explanatory drawing of the other Example of this invention. It is structure explanatory drawing of the prior art example generally used conventionally. It is principal part structure explanatory drawing of FIG.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Indicator pole 2 Comparison pole 3 Motor 4 Electrical transmission mechanism 4a Slip ring 4b Brush 4c Support part 5 Sample water 11 Measuring tank 12 Indicator electrode 13 Counter electrode 14 Electrode polishing ball 15 Stirring body 151 Magnetic body 152 Coating body 16 Stirring body drive control means 161 Electromagnet 21 Counter electrode 31 Connecting means 32 Stirring body 33 Stirring body drive control means

Claims (7)

In the chlorine meter that measures the chlorine concentration in the measurement fluid,
A measurement tank into which a measurement fluid is introduced; and
An indicator electrode provided on the wall of the measuring tank;
A plurality of electrode polishing balls provided in the measurement tank and polishing the indicator electrode;
A stirring body provided in the measuring tank and stirring the electrode polishing ball;
A chlorine meter, comprising: a stirring body drive control means provided outside the measurement tank and drivingly controlling the stirring body. The chlorine meter according to claim 1, wherein the stirring body has a magnetic body, and the stirring body drive control means has an electromagnet. The stirring body includes a magnetic body, and the stirring body drive control unit includes a driving magnetic body that drives the magnetic body and a driving rotation unit that rotates the driving magnetic body. Chlorine meter. The chlorine meter according to claim 3, wherein a motor, a gas, or a liquid is used as the drive rotation unit. The chlorine meter according to claim 1, further comprising connecting means for directly connecting the stirring body and the stirring body drive control means. The chlorine meter according to claim 1, wherein the indicator electrode is detachably provided in the measurement tank. The chlorine meter according to any one of claims 1 to 6, wherein the electrode polishing ball is made of ceramic or glass.

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