KR100618626B1 - Apparatus for eliminating scale on inside wall of pipe - Google Patents

Abstract

The present invention relates to an in-pipe descaling apparatus for removing a scale in a pipe by using an electromagnetic force. The in-pipe descaling device according to the present invention includes a main body detached from and attached to a pipe, and embedded in the main body. It includes a magnetic circuit portion for generating a magnetic force line inside the pipe flowing aqueous solution, wherein the magnetic circuit portion is installed symmetrically to the outer peripheral portion of the pipe and magnetized by a permanent magnet to generate a pair of first magnetic material inside the pipe flowing the aqueous solution And a pair of permanent magnets provided on each of the first magnetic bodies, the pair of permanent magnets installed so that the directions of magnetic poles are opposite to each other, and the second magnetic bodies magnetized by the permanent magnets to form a closed magnetic circuit between the permanent magnets. By maximizing the intensity of the magnetic flux density (magnetic flux density) generated by the magnetic circuit portion inside the pipe by It is to increase the descaling efficiency.

 Piping, Scale, Scale, Removal, Magnetic Circuit, Permanent Magnet, Magnetic Material

Description

Apparatus for eliminating scale on inside wall of pipe}

1 schematically shows a descaling apparatus in a conventional pipe.

FIG. 2 shows magnetic force line distributions generated in the magnetic circuit portion used in FIG. 1.

3 is an external perspective view of a descaling device in a pipe according to an embodiment of the present invention.

FIG. 4 illustrates magnetic force line distribution generated in the magnetic circuit unit used in FIG. 3.

<Brief Description of Drawings>

11: body

   111: upper body 113: lower fixing part

12: magnetic circuit part

   12a: first magnetic material 12b: permanent magnet

   12c: second magnetic material

13: power supply

The present invention relates to a descaling device in a pipe to remove the scale in the pipe by using an electromagnetic force, in particular to maximize the magnetic flux density of the magnetic force lines in the pipe generated by the magnetic circuit portion scale in the pipe It is to provide a technique that can increase the removal efficiency.

In general, water pipes used in various boiler pipes, heat exchanger pipes, cooling pipes, ship pipes, generator pipes and gardening, agriculture, etc. are mostly made of metal. On the other hand, water is supplied to the above-mentioned pipe is a hydrogen ion (H ⁺⁾ and hydroxide ions (OH ^-) is an aqueous solution that contains a. Accordingly, the pipe made of iron metal is formed with a scale on the inner wall by chemical reaction with the aqueous solution flowing therein. When the scale is accumulated on the inner wall of the pipe, not only water in the pipe does not flow smoothly, but also there is a problem of lowering thermal efficiency and energy efficiency of the boiler itself.

Therefore, conventionally, for example, the boiler is stopped and a corrosion inhibitor such as a scale inhibitor is added to clean the inside of the pipe, and then scale is removed from the inner wall of the pipe. However, this descaling method in the pipe takes a lot of time and money, and also had to stop the operation of the equipment.

As proposed to solve this problem, the Republic of Korea Utility Model Registration No. 287069 "Scale peeling device formed in the pipe" (hereinafter referred to as "application"). According to the prior application, it is possible to easily remove the scale (Scale) formed on the inner wall of the pipe while operating the equipment. Hereinafter, the configuration and operation of the prior application will be described with reference to the drawings.

1 schematically shows a descaling apparatus in a conventional pipe. As shown, the conventional scale removal device 100 in the pipe includes a magnet 110 and the power output unit 120 is in contact with the north pole and the south pole in the pipe (P) outer peripheral portion.

The magnet 110 generates a magnetic flux density in the pipe P. At this time, the scale formed on the inner wall of the pipe by an aqueous solution having an ionic component flowing in the pipe P is electrolyzed and peeled off. In addition, the current I generated by the ionization tendency difference between iron ions (Fe ²⁺ ) generated by the electrolysis of the scale formed on the inner wall of the pipe and hydrogen ions (H ⁺ ) contained in the aqueous solution is determined by the inner wall of the pipe. Causes electrolysis of the scale formed in the.

The power output unit 120 outputs a positive voltage and a negative voltage to the outer peripheral portion of the pipe so that a current is generated in the same direction as the flow direction of the aqueous solution in the pipe P. That is, current (I) is generated in the outer peripheral portion of the pipe (P) in the same direction as the aqueous solution in the pipe (P) flows, and electrolysis of the scale (Scale) formed on the inner wall of the pipe is generated by the current (I) generated. Further promote.

FIG. 2 shows magnetic force line distributions generated in the magnetic circuit unit used in FIG. 1. As shown, the magnetic circuit unit 130 according to the first application is installed symmetrically to the outer periphery of the pipe and is a pair of first magnetic body 131 is magnetized by the permanent magnet 132 to generate a magnetic force line inside the pipe flowing aqueous solution And a permanent magnet 132 forming a magnetic circuit between the first magnetic bodies 131.

By the way, as shown in the magnetic circuit unit 130 according to the prior application, while the intensity of the magnetic flux density (1, 2, 3, ...) of the magnetic force lines leaking from the permanent magnet 132 is relatively large, It can be seen that the intensity of the magnetic flux density (11, 12, ...) of the magnetic force lines generated inside the actual pipe is relatively small.

Accordingly, the inventors of the present application have a high intensity of magnetic flux density in a portion where a magnetic circuit part is not required according to a prior application, and a relatively low intensity of magnetic flux density in a pipe in which a scale is formed. It has been conceived that the descaling efficiency of the descaling device in the pipe may be reduced.

Therefore, the present invention has been proposed in the background as described above, and an object of the present invention is to maximize the intensity of magnetic flux density of magnetic lines in a pipe generated by a magnetic circuit unit in a scale removing device in a pipe, thereby removing scale in the pipe. It is to provide the technology to increase the.

In the pipe descaling apparatus according to an aspect of the present invention for achieving the above object, the main body is detached / attached to the pipe, and the magnetic circuit portion that is built in the main body and generates a magnetic force line inside the pipe flowing the aqueous solution Include. Furthermore, in a preferred embodiment of the present invention, the magnetic circuit portion is installed in a symmetrical mutually circumferential portion of the pipe and a pair of first magnetic body and the first magnetic body to be magnetized by the permanent magnet to generate a magnetic force line inside the pipe flowing aqueous solution; It includes a pair of permanent magnets provided on each, and installed so that the directions of the magnetic poles are opposite to each other, and a second magnetic body that is magnetized by the permanent magnets to form a closed magnetic circuit between the permanent magnets.

According to this aspect, the descaling device in the pipe according to the present invention can increase the descaling efficiency in the pipe by realizing the strength of the magnetic flux density of the magnetic force lines generated inside the pipe by the magnetic circuit unit to the maximum. It is.

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.

3 is an external perspective view of an apparatus for removing a scale in a pipe according to an embodiment of the present invention, and FIG. 4 illustrates a distribution of magnetic force lines generated in the magnetic circuit unit used in FIG. 3.

3 and 4, the descaling device in the pipe according to the present embodiment is the main body 11 to be detached / attached to the pipe (1), the inside of the pipe inside the main body 11 and the aqueous solution flows It includes a magnetic circuit portion 12 for generating a magnetic force line to remove the scale in the pipe.

In one embodiment, the main body 11 is the upper main body 111 is formed with a magnetic pipe portion 12 for removing the scale in the pipe and the first pipe fitting groove (111a) is formed in which the pipe is fitted, and The upper main body 111 may be detachable / attachable, and may include a lower fixing part 113 on which a second pipe fitting groove 113a corresponding to the first pipe fitting groove 111a is formed.

In a preferred embodiment of the present invention, the magnetic circuit portion 12 is installed symmetrically to each other in the outer peripheral portion of the pipe and the magnetized by the permanent magnet 12b to generate a magnetic force line inside the pipe through which the aqueous solution flows (a pair of first magnetic bodies ( 12a) and a pair of permanent magnets 12b provided on each of the first magnetic bodies 12a and installed to have opposite directions of magnetic poles, and magnetized by the permanent magnets 12b to be permanent magnets 12b. And a second magnetic body 12c installed to form a closed magnetic circuit therebetween.

In one embodiment, the first magnetic body 12a and the second magnetic body 12c are preferably made of a material having a high permeability.

In one embodiment, the permanent magnet 12b may be implemented as any one of an alnico magnet, a ferrite magnet and a rare earth magnet.

Table 1 shows the results of measuring the intensity of magnetic flux density in the measurement environment when various permanent magnets are used in the magnetic circuit.

Alnico magnet Ferrite magnet Rare earth magnets Magnetic flux density 2200 900 2600

Here, the unit of the magnetic flux density is Gaussian [G], and the measurement position is a portion where the magnetic force lines of the first magnetic body 12a come out.

As can be seen from Table 1, in the pipe descaling apparatus according to the present invention, when the rare earth magnet is used in the magnetic circuit portion, the intensity of magnetic flux density of the magnetic force lines in the pipe is large. In the pipe descaling apparatus according to the present invention, it is preferable to use a rare earth magnet in the magnetic circuit portion.

In addition, the descaling device in the pipe of the present invention may further include a power supply unit 13 for outputting a positive voltage and a negative voltage on the outer peripheral portion of the pipe so that current is generated in the same direction as the flow direction of the aqueous solution in the pipe.

The power supply unit 13 outputs a positive voltage and a negative voltage to the outer wall of the pipe so that a current is generated in the same direction as the flow direction of the aqueous solution in the pipe. That is, the current I is generated on the outer wall of the pipe in the same direction as the aqueous solution in the pipe flows to further promote the electrolysis of the scale formed on the inner wall of the pipe by the generated current I. The positive voltage supplied from the power supply 13 to the pipe outer wall is a DC voltage of 4 to 5 volts, the negative voltage is a ground voltage of 0 volts, and a current of several mA between the positive and negative voltages of the pipe outer wall. Is implemented to flow. Accordingly, since a direct current of a fine current is applied to the outer wall, an electric shock accident may not occur.

On the other hand, the water supplied to the pipe is typically an aqueous solution containing a compound such as calcium carbonate (CaCo ₂ ), magnesium carbonate (MgCo ₃ ) and silicon dioxide (SiO ₂ ), such water has an alkalinity of PH9 to PH11 . When alkaline water flows in the pipe equipped with the descaler in the pipe according to the present invention, it is converted into neutral water. Accordingly, when the scale removal apparatus in the pipe according to the present invention is used for water piping such as horticulture and agriculture, it is possible to increase the crop growth rate.

As described in detail above, the descaling device in a pipe according to the present invention is implemented so that the intensity of the magnetic flux density (magnetic flux density) of the magnetic lines generated inside the pipe by the magnetic circuit portion to be as large as possible, thereby improving the descaling efficiency in the pipe There is a useful effect that can be increased.

In addition, the descaling device in the pipe according to the present invention increases the descaling efficiency in the pipe when used in various boiler pipes, heat exchanger pipes and cooling pipes, ship pipes, generator pipes, etc., reducing overall fuel consumption and energy efficiency There is a useful effect that can be increased.

In addition, the descaling device in the pipe according to the present invention has a useful effect of increasing the crop growth rate by changing the alkaline water to neutral water when used in water piping, such as horticulture, agriculture.

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. Therefore, it should be interpreted by the claims described to include many such variations.

Claims (4)

In the descaling device in the pipe comprising a main body detached / attached to the pipe, and a magnetic circuit portion embedded in the main body and generating a magnetic force line inside the pipe flowing the aqueous solution to remove the scale formed on the inner wall of the pipe, wherein the magnetic circuit portion : A pair of first magnetic bodies installed symmetrically with each other on the outer periphery of the pipe and magnetized by a pair of permanent magnets to generate magnetic lines in the pipe through which the aqueous solution flows; A pair of permanent magnets provided in each of the first magnetic bodies, and installed to have opposite directions of magnetic poles; A second magnetic body magnetized by the pair of permanent magnets and installed to form a closed magnetic circuit between the permanent magnets; Descaling device in the pipe, characterized in that it comprises a. The method of claim 1 wherein the body is: An upper body to which a magnetic circuit part for removing scale in the pipe is mounted and a first pipe fitting groove into which the pipe is fitted is formed; A lower fixing part which is detachable from the upper main body and has a second pipe fitting groove corresponding to the first pipe fitting groove; Descaling device in the pipe, characterized in that it comprises a.  The in-pipe descaling device according to claim 1 or 2, wherein the permanent magnet is implemented as a rare earth magnet. 4. The descaling device in a pipe according to claim 3, wherein A power supply unit for outputting a positive voltage and a negative voltage to the outer periphery of the pipe to generate current in the same direction as the flow direction of the aqueous solution in the pipe; Descaling device in the pipe further comprising a.

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