JPH01245895A - Filter apparatus - Google Patents

Abstract

PURPOSE:To treat an object to be treated with an oscillating current by providing a connection means brought into contact with the object to be treated in a housing and connected to an oscillating current generator to supply the oscillating current to the object to be treated. CONSTITUTION:For example, water 12 is received in a housing 10 as an object to be treated and the upper parts 20, 22 of pipes 16, 18 composed of an insulating material are mounted to the upper part 14 of the inner wall of the housing 10 through supports 24, 26. The lower parts 28, 30 of pipes 16, 18 are sunk in the water 12 to open the lower ends thereof and electrode rods 36, 38 are arranged in the pipes 16, 18 to be brought into contact with the water 12 and connected to an oscillating current generator 44 generating an oscillating current through lead wires 40, 42. Hereupon, the oscillating current generated in the oscillating current generator 44 flows to the electrode rods 36, 38 and the water 12 can be treated with the oscillating current through the electrode rods 36, 38 brought into contact with the water 12.

Description

DETAILED DESCRIPTION OF THE INVENTION "Field of Industrial Application" The present invention relates to a processing apparatus, and particularly to a processing apparatus for processing an object.

"Prior Art, Problems to be Solved by the Invention" Conventionally, as a treatment device for a target object, for example, water, for example,
In the water treatment device of this publication, the housing is provided with a fitting for the upstream side installation and a fitting for the downstream side installation, and water is passed through the housing through the fitting for the upstream side installation. The downstream side is designed to be discharged to the outside via a device. An insulated electrode insulated with an insulating coating is arranged inside the housing, and a ground electrode is further connected to the housing. connected to the terminal.

In such devices, as water passes through the housing and past the insulated electrodes, the positive charge on the insulated electrodes attracts free electrons from the water and minerals, and the minerals and biological materials in the water interact with the electrons. as a result of which these minerals and biological substances settle and are periodically washed away as waste.

SUMMARY OF THE INVENTION An object of the present invention is to provide a water treatment device that can treat objects not with direct current but with oscillating current.

"Means for Solving the Problems" The present invention provides a processing apparatus for processing an object, which includes: a container that houses an object to be processed; an oscillating current generator that generates an oscillating current; The apparatus is characterized in that it includes a connecting means that contacts the object in the container and is connected to the oscillating current generator for supplying oscillating current to the object.

"Function" In the present invention, the oscillating current generated by the oscillating current generator flows through the connecting means to the object in the housing,
The object is treated by the oscillating current.

"Embodiments" Hereinafter, preferred embodiments of the present invention will be described based on the drawings.

FIG. 1 shows a processing apparatus according to a first embodiment of the invention.

In FIG. 1, a container 10 stores, for example, water 12 as an object to be treated, and an upper portion 14 of an inner wall of the container 10 is provided with an upper portion 2 of a tube 16, 18 made of an insulating material.
0.22 are attached via supports 24.26. The lower part 28.30 of this tube 16.18 is submerged in the water 12 and its lower end 32.34 is open. Tube 16.
Inside 18 an electrode rod 36.38 is arranged, which electrode rod 36.38 is in contact with water 12. Electrode rod 36.
38 is connected via lead wires 40, 42 to an oscillating current generator 44 that generates an oscillating current.

The oscillating current generated by the oscillating current generator 44 is
The water 12 is treated by means of an oscillating electric current which flows through the lead wire 40.42 to the electrode rod 36.38, which is in contact with the water 12.

Next, FIG. 2 shows a processing apparatus according to the first embodiment of the present invention. In this first embodiment, there is only one electrode rod, and the astringent τ~Nio functions as the other electrode rod.

In FIG. 2, a container 10 stores, for example, water 12 as an object to be treated, and an upper part 20 of a tube 16 made of an insulating material is attached to a support 24 on an upper part 14 of the inner wall of the container 10. It is attached via. The lower part 28 of this tube 16 is submerged in the water 12 and its lower end 32 is open. An electrode rod 36 is arranged inside the tube 16 and is in contact with the water 12 . The electrode rod 36 is connected via a lead wire 40 to an oscillating current generator 44 that generates an oscillating current. Further, the container IO is made of metal, and the container 10 is connected to the IJ-wire 42 through the
It is connected to an oscillating current generator 44 and is grounded via a lead wire 46.

The oscillating current generated by the oscillating current generator 44 is
The electrode rod 36 and the housing 10 are passed through the lead wires 40 and 42.
The water 12 is treated by the oscillating current through the electrode rod 36 and the container 10 which are in contact with the water 12.

Next, FIG. 3 shows a block circuit of the oscillating current generator 44.

In FIG. 3, the input section 52 is a transformer composed of two coils 56 and 58 with different numbers of turns, and the current from the transformer 52 is supplied to the converting section 54. The input current to the human power section 52 is alternating current, the voltage of which is, for example, 6 to 600 cm, and the frequency of which is, for example, 10 H.
It is old to z~100. Further, the output current from the input section 52 is alternating current, and the voltage thereof is, for example, 200 to 600 mm.
The frequency is, for example, 10 to 100 kHz.

The conversion unit 54 includes five resistors 60-1 to 60-5.5 capacitors 62-1 to 62-5.5 diodes 64.
-1 to 64-5, capacitor 66, and variable resistor 69
including. Note that the resistors 60-1 to 60-5 are, for example, 1 to 60-5.
5MΩ, the capacitors 62-1 to 62-5.66 are, for example, 0,002 to 0.4μF, and the variable resistor 6
9 has a variable resistance value of 3Ω to 5MΩ, for example.

As a specific example, the resistors 60-1 to 60-5 are set to, for example, 2MΩ, the capacitors 62-1 to 62-5.66 are set to, for example, 0.004μF, the variable resistance value of the variable resistor 69 is set to, for example, IMΩ, and the input section The voltage at the input terminal to the input terminal 52 is, for example, 100 mm and its frequency is, for example, 60 Hz, and the voltage of the output current from the human power section 52 is, for example, 500 mm and its frequency is, for example, 60 Hz. In this case, point 67
and the output terminal 68, AC components 500■, 601
(z and DC component current of 500V, capacitor 6
6, the DC component is removed and the output terminal 68.70
Between them, an oscillating current for high frequency processing with an alternating current component of 500 cm and 60 Hz is generated.

In addition, in the circuit of FIG. 3, the resistor 60 and the capacitor 6
2 and the diode 64 are five stages, but it is also possible to implement it with one to four stages, and the same effect can be obtained even with six stages or more.

Next, in FIG. 4, the voltage of the input terminal to the human power section 52 is set to 1
00 ■ Output terminal 68 when the frequency is 60Hz
．． 70 open circuit voltage waveforms are shown. In addition, FIG. 5 shows the output terminal 6 when the voltage of the input terminal to the human power section 52 is 100Hz and the frequency is 60Hz and the output terminal 6 is connected to a water load.
8.70 oscillating voltage waveform is shown, and its maximum voltage value is
It is 2■.

Furthermore, Fig. 6 shows the output terminal 6 when connected to a water load.
An oscillating current waveform of 8.70 is shown, and this oscillating current waveform is similar to that shown in FIG. 5, and its maximum current value is:
It is 20μA.

Note that in the present invention, the target object may be not only a liquid such as water but also a solid or a gas.

Note that the water treated according to the present invention can be used for food manufacturing and processing,
It can be used for artificial breeding of fish and shellfish, hydroponic agriculture, horticulture, etc. Further, due to its configuration, the treatment device of the present invention can be installed in boiler equipment, air conditioning equipment, etc., and can be used for removing and preventing scale from piping in the equipment system. Furthermore, COD can be reduced by installing it in water supply facilities and sewage treatment facilities.
(chemical oxygen consumption) and BOD<biochemical oxygen consumption) can be reduced. As for other uses, by installing it in a fuel storage tank of a fuel supply facility, it can be used to improve the fuel efficiency of the fuel, reduce nitrogen oxides, reduce black smoke level, etc.

"Effects of the Invention" As explained above, according to the present invention, the oscillating current generated by the oscillating current generator flows to the object in the container through the connecting means, and the oscillating current causes the object to The object can be treated and thus the object can be treated with the oscillating current.

[Brief explanation of the drawing]

1 is an explanatory diagram of a processing device according to a first embodiment of the present invention. FIG. 2 is an explanatory diagram of a processing device according to a second embodiment of the present invention. 1 FIG. 3 is a block diagram of an oscillating current generator Circuit diagram, 4th
5 is a waveform diagram showing the open voltage waveform of the output terminal of the oscillating current generator, and FIG. 5 is a waveform diagram showing the oscillating voltage waveform of the output terminal of the oscillating current generator when connected to a water load. FIG. 6 is a waveform diagram showing the oscillating current waveform of the output terminal of the oscillating current generator when connected to a water load. 10 Container, 12 Water, 36.38
electrode rod, 40.42 lead wire, 44 oscillating current generator, 52 human power section, 54 conversion section, 60-1
~60-5 Resistor, 62-1 ~ 62-5 Capacitor, 64-1 ~ 64-5 Diode, 66 Capacitor, 68.70 Output terminal, 69 Variable resistor. ¥2 Figure Figure 3

Claims (1)

[Scope of Claims] A processing device for processing a target object, comprising: a container that stores the target object to be processed; an oscillating current generator that generates an oscillating current; and a container that stores the target object in the container. A processing device comprising: connecting means that is in contact with the oscillating current generator and is connected to the oscillating current generating device for supplying oscillating current to the object.