JPH01268889A - Device for preventing scale sticking and corrosion of piping or the like - Google Patents

Abstract

PURPOSE:To provide the title device which prevents sticking of trace elements contained in water as scale and the corrosion of a pipeline by providing a device for impressing magnetic fields by permanent magnets and slight current to the pipeline. CONSTITUTION:The above device is provided with a pair of the permanent magnets 16, 16a disposed with magnetic poles oppositely to each other to enclose the circumference of the metallic piping 1 in which liquid of hydrogen flows and a protector 15 housing said permanent magnets 16, 16a and having the function as a magnetic shield. The device has a power supply terminal provided to the protector 15 in order to pass the slight current to the pipeline 1 from an external power supply. The above-mentioned device can be mounted to an arbitrary position of the pipeline of a boiler. The settling of the trace materials in water is prevented and the degradation in the properties of the water is prevented by the magnetism generated by the permanent magnets and the slight current.

Description

Detailed Description of the Invention (Field of Industrial Application) The present invention is applicable to piping, etc. in water supply, hot water supply, air conditioning system piping and radiators, etc., including boilers, hot water storage tanks, heat exchangers, and other water containers. This invention relates to a device for preventing the occurrence of scale adhesion, rust, corrosion, etc.

(Prior art) In boilers, heat exchangers, and other devices that use water or liquids, dissolved substances such as calcium and magnesium dissolved in the water supply form scales that adhere to the inner walls of pipes. and reduce the inner diameter of the pipe line by the scale,
The efficiency of the device is likely to be reduced by reducing the number of liquid channels.

In addition, the dissolved substances contained in the water adhere to the inner walls of pipes, causing electrochemical corrosion, resulting in minute holes in the pipes and accelerated corrosion at pipe joints. Due to these reasons, problems such as water leakage from the pipes occur.

Therefore, in the past, water treatment was carried out before water was supplied to equipment such as boilers, or a metal rod with a strong ionization tendency, such as magnesium, was placed inside the equipment to prevent scale from entering the pipes. In addition to measures being taken to prevent adhesion and corrosion, measures are also taken such as periodically cleaning the pipes to remove scale.

(Problems to be Solved by the Invention) However, when using the conventional means as described above, in addition to requiring a lot of expense for preliminary water treatment, there is also a need for maintenance of the equipment. , each device requires maintenance equipment, and the cost of these is a problem.

Further, even when such a maintenance means is applied, it is not completely effective against scale, corrosion, etc., so it is necessary to take measures such as periodically inspecting and repairing the pipe lines of the apparatus.

However, boilers, heat exchangers, etc. often have complex piping systems, and in the case of large-diameter pipes, it is relatively easy to remove scale from inside the pipes. Even if it were possible to do so, it is difficult to clean the thin tubes inside the boiler, and there are still problems with the cost and labor required to maintain the equipment.

(Purpose of the Invention) The present invention solves the drawbacks of the conventionally used devices as described above, and is intended to solve the problems of the above-mentioned conventional devices. The machine number elements contained in the water may adhere as scale,
The purpose of this invention is to provide a device that can prevent corrosion of pipes.

(Means and effects for solving the problem) The apparatus for preventing scale adhesion and corrosion for piping, etc. of the present invention surrounds a metal pipe through which liquid such as water flows, so that like-pole comrades face each other. a pair of permanent magnets arranged as a pair of permanent magnets, a protector accommodating the permanent magnets and having a function as a magnetic shield, and a protector connected to the metal conduit for flowing a weak current from an external power source to the conduit. It is a device consisting of a power supply terminal connected to a protector.

In addition, in the apparatus for preventing scale adhesion and corrosion of piping, etc. of the present invention, only the portion where the metal conduit passes through the protector is composed of a stream pipe having 7 flanges at both ends thereof, and further, , the protector and the permanent magnet are composed of two parts divided by a plane including the central axis of the metal pipe line, and are configured to be detachably attached to the pipe by a fastening means.

Therefore, the device of the present invention can be installed at any position in the pipeline of a boiler, etc., and uses the magnetism provided by a permanent magnet and a weak current to precipitate trace substances contained in water. In addition to preventing this, it is also possible to prevent deterioration of water properties.

Furthermore, by applying a magnetic field and a weak current as described above, the device of the present invention can prevent scale from settling and adhering to the pipe, and can also direct the weak current generated in the pipe to the pipe. It becomes possible to prevent electric corrosion from occurring in the metal tube by applying the electric current.

(Example) The structure of the scale adhesion and IIX corrosion prevention device for piping, etc. of the present invention will be explained according to the illustrated example.

In a first embodiment of the invention shown in FIGS. 1 to 3, the corrosion protection unit of the invention is partially flange-type device 1.
1 and is used as a pipe joint. Further, the partially flange type device 11 shown in this embodiment can be used as a pipe joint when a new pipe line is laid.

The above-mentioned partial 7-lunge type device 11 of the present invention includes a pipe 1
Flanges 13 are provided on both sides of the pipe 2, and screw holes 14 are provided on the flanges provided at the pipe end of the conduit.
It is now connected via...

In the integral flange type device 11, as shown in FIG. 3, a pair of permanent magnets 16.16a are placed on the outside of the pipe 12 constituting a part of the fluid passage, facing each other with the pipe in between. These permanent magnets are arranged with the Nff1 or S pole facing the vibrator side.

Further, a protector 15 coaxial with the pipe is provided so as to cover the magnet housing part of the pipe 12, and the end of the pipe 12 is covered with a flange to form a space in the permanent magnet housing part in a sealed state. At the same time, a power terminal 17 is provided at a predetermined portion of the protector 15.

Then, by the protector 15, the permanent magnet 16.1
The pipe 12 serves as a magnetic shield for the pipe 6a.
The magnetic flux formed in the protector 15 is prevented from leaking to the outside, and the permanent magnet acts only on the fluid flowing between the permanent magnets 12.

As will be described later, this power terminal 17 is connected to an external power source such as a DC power source, and is configured to be able to supply a weak current to the conduit through the power source terminal 17. At the same time, by supplying a weak current to the pipe, it is possible to prevent scale from adhering to the fluid flowing inside the pipe.

In the case of the second embodiment of the corrosion-resistant unit of the present invention shown in FIGS. 4 to 6, the apparatus shown in FIG. In contrast, the externally mounted device 20 is attached to the conduit from the outside, and as in the case of the integral flange type device 11, the magnetic field from the permanent magnet and the weak current are applied to the conduit through the power terminal 17. It is constructed so that it can perform a flushing action.

Furthermore, the externally mounted device 20 shown in this embodiment is conveniently used when it is attached to an existing pipe line from the outside.

In this embodiment, a permanent magnet 16.16a is provided on the outside of the inner pipe 21 provided to cover the existing pipe line, facing in the M radial direction of the cough inner pipe. The magnets are arranged with the same polarity facing each other.

Further, the externally mounted device i20 of the present invention is divided into two parts by substantially semi-cylindrical members 20a and 20b, and each semi-cylindrical member has a permanent magnet inside. The end portions of the inner and outer tube members are connected by the plate member 21a, and the inside is sealed. Furthermore, by providing a flange member 22 protruding from both sides of the external VI attachment type device 200 and screwing through the hole provided in the flange member 22, the external attachment type device 20 can be attached to an existing pipe line. It is designed to be worn.

When the corrosion-resistant unit of the present invention having the above-mentioned configuration is installed in a pipe, the action of maintaining water quality using the permanent magnet and weak current in the corrosion-resistant unit will be explained.

In the explanatory diagram shown in FIG. 7, a corrosion-resistant unit 10 is provided for the pipe line 1, and the permanent magnets 16, 16a disposed opposite to each other on both sides of the corrosion-resistant unit 10 have their N poles on the inside, It is arranged with the south pole facing outward.

The magnetic flux H formed by the permanent magnet is then
A closed circuit is formed between the protector 15 and the connecting members thereof, and a part of the magnetic flux acts on the fluid flowing inside the pipe.

Furthermore, in the embodiments of the present invention, a magnet having relatively strong magnetic force is used as the permanent magnet, and
For example, it is better to use a ferromagnetic magnet of about 3000 Gauss. Furthermore, when the diameter of the pipe is large, a combination of two of the above-mentioned magnets is used so that the influence of the magnets can be exerted favorably on the fluid flowing inside the pipe. However, when using two magnets, it is necessary to line them up in the length direction of the pipe,
Alternatively, either method can be used, such as using them in a stacked state.

On the other hand, the conduit 1 is connected to an external power source via a power supply terminal 17, and a weak current 1 is constantly flowing in the axial direction of the conduit. This current I activates the interface on the inner wall of the pipe, and at the same time, the cations present in the fluid in the pipe ionically bond with the metal on the inner wall of the pipe and lose their charge. The effect is to form an interfacial film that protects the surface.

On the other hand, the anions remaining in the fluid move in the direction opposite to the direction of the current I due to the action of the electric field applied by the external power source 6, but at this time, they are influenced by the magnetic field H and move in the direction shown in the figure. By drawing a spiral trajectory so that
Ion dispersion in the fluid is promoted, and effects such as scale formation are suppressed, and these effects prevent metal corrosion and the like.

Furthermore, as shown in FIG. 8, the corrosion-resistant unit of the present invention is installed as an inlet-side corrosion-resistant unit 10a and an outlet-side corrosion-resistant unit 10b for a heat exchanger 5 to which the pipe line 1 is connected before and after the heat exchanger 5. . Then, weak (+) and (-) currents are caused to flow from the DC power supply 6 to these inlet-side corrosion-proofing units and outlet-side corrosion-proofing units, respectively. The current supplied from this external power supply is a direct current of about 5 to 10 V, and is constantly supplied at 70 to 10 V.

In addition, in the case of a long pipeline, when a large number of corrosion-resistant units are installed in the middle of the pipeline, the corrosion-resistant units are installed at intervals of 50 m along the pipeline, and between adjacent corrosion-resistant units,
Assume that currents of opposite polarity flow in each case.

Furthermore, in the case of a relatively large heat exchanger, etc., two inlet-side corrosion-proofing units and two outlet-side corrosion-proofing units are provided, and the corrosion-proofing unit on the heat exchanger side is formed as a circuit for the heat exchanger. In addition, it is also possible to use an external corrosion protection unit as the element acting on the pipeline. When two corrosion protection units are installed adjacently in this manner, it is necessary to form a circuit so as to supply current of the same polarity to the two sets of corrosion protection units.

In addition, in the apparatus for preventing scale adhesion and corrosion of piping, etc. of the present invention, the pipe or internal structure can be configured according to the size of the pipe constituting the conduit, and the outside of the conduit can be For those that are installed from the inside, it is necessary to perform strict surface treatment, such as processing the surface of the pipe before installation, so that no gaps are formed between the pipe and the internal structure. becomes.

In the above-described embodiments of the present invention, the space in which the permanent magnet is housed and sealed by the inner tube and the protector is filled with an insulating plastic or the like, and the insulation inside the space is improved. It is possible to ensure that The plastics used for this purpose are
It is necessary to use a hardening machine that has good fluidity during filling and does not affect the metal material.

In addition, if the fluid flowing in the pipe is high temperature, it is necessary to use plastic that has properties that will not be affected by the temperature, and in this way, it is necessary to fill the internal space with plastic. This makes it possible to prevent the influence of the humidity of the outside air from occurring even if the interior of the space is not completely sealed.

In addition, in the description of the present invention described in 1, the case where the corrosion-resistant unit is used in an air conditioning system, etc. was explained, but the corrosion-resistant unit of the present invention can also be applied to a water supply system, etc. Even if the conduit is buried underground, it is possible to install it as a device that can handle the situation where current flows through the conduit in the same way as a battery due to the difference in soil quality, and in these special environments. Under these conditions, the pipeline can be protected in good condition.

(Changes in water quality) Table 1 shows a comparison between water obtained using the above-mentioned corrosion-resistant unit of the present invention, tap water, and water obtained without using the corrosion-resistant unit. Table 1 shows the case where the corrosion-resistant unit of the present invention is used and the case where the tap water and air conditioner do not use the corrosion-resistant unit.
As can be seen from this table, it is clear that water used for air conditioning when the corrosion-resistant unit of the present invention is not used undergoes drastic changes in water quality, and in particular, significant alteration occurs in chlorine ions, alkalinity, etc. is shown.

Table 2 shows data comparing air-conditioned water and raw water using the corrosion-resistant unit of the present invention and air-conditioned water not using the corrosion-resistant unit.

In addition, in Table 2 above, the EM△ system is
A system in which the corrosion protection unit of the present invention is applied to a conduit, in which a magnetic force and a weak current are applied to the conduit as described above, is called an "rEMA system".

As can be seen from Table 2, when using the corrosion-resistant unit of the present invention, even though the degree of deterioration of the air conditioned water in B' is very large, the It is clearly shown that in the case of equipment applying corrosion-protected units, the changes in water quality are very small.

In addition, in the VL system for preventing scale adhesion and corrosion of piping, etc. of the present invention, by applying a corrosion prevention unit to an air conditioning system, a heating system, etc., the degree of deterioration of water contained in the system is reduced, and the This makes it possible to prevent the separation and deterioration of various ions dissolved in the water, and to maintain the water quality to approximately the same level as the original tap water.

Furthermore, as shown in the above experimental data, when the corrosion-resistant unit of the present invention is used, the dissolution of iron, etc. in water does not increase, which means that corrosion of the pipes has not progressed. Therefore, it can be seen that corrosion of iron pipes does not occur.

(Effects of the Invention) As described above, the scale adhesion and corrosion prevention device for piping, etc. of the present invention can prevent changes in the properties of water flowing inside the pipe, and can reduce the influence on the pipes, etc. of the conduit. Because of this, it is possible to prevent scale from adhering, and due to scale adhesion,
This can prevent electrical corrosion from progressing.

Therefore, by applying the device of the present invention to pipes, it is no longer necessary to clean the pipes in air conditioners, etc., making it possible to eliminate the need for maintenance of the device and reduce maintenance costs. Become.

Table 1 (Note) Samples B and C were both used in solar air conditioning systems for two years.

[Brief explanation of the drawing]

Fig. 1 is a side cross-sectional view of a device in which the corrosion-resistant unit of the present invention is partially constructed as a flange-mounted device, Fig. 2 is a longitudinal cross-sectional view of a partially 7-lunge type device, and Fig. 3 shows the arrangement of permanent magnets. 4 is a side cross-sectional view of a device in which the corrosion protection unit is configured as an externally mounted device, FIG. 5 is a vertical cross-sectional view thereof, FIG. 6 is an explanatory view of the arrangement of magnets, and FIG. 7 is an illustration of the present invention. FIG. 8 is an explanatory diagram of the action of magnetic force and electricity by the device, and FIG. 8 is an explanatory diagram of a system incorporating the corrosion protection unit of the present invention. Reference numerals in the diagram: 1...pipe line, 5...heat exchanger, 6...
...DC power supply, 10... Corrosion protection unit, 1
1... Integral flange mounting d, 12...
Vibrator, 15...Protector, 16...
...Permanent magnet, 17...Power terminal, 20...
. . . Externally attached device, 21 . . . Inner tube. Figure 4! 5 Figure 5 Figure 6 Figure 1/l Figure 2 Figure 3 Figure 7 Figure 8

Claims (3)

[Claims] (1) A pair of permanent magnets that surround a metal conduit through which a liquid such as water flows, and are arranged with the same polarity facing each other, and the permanent magnets are housed inside the same, A pipe comprising: a protector having a function as a magnetic shield; and a power terminal connected to the metal pipe and provided on the protector to flow a weak current from an external power source to the pipe. etc. scale adhesion and corrosion prevention equipment. (2) Only in the part where the metal pipe passes through the protector,
2. A device for preventing scale adhesion and corrosion of piping, etc., as claimed in claim 1, characterized in that it is constituted by a stream pipe having flanges at both ends thereof. (3) The protector and the permanent magnet are composed of two parts divided by a plane including the central axis of the metal conduit, and are configured to be detachable from the outer circumference of the metal conduit by means of fastening means. A scale adhesion and corrosion prevention device for piping, etc., according to claim 1, characterized in that: