KR940001946B1 - Cohesive power collapse device - Google Patents

Abstract

The apparatus reduces the surface tension or coagulative force between the liquid particle which collides each other by flowing through a barrel (BRL) applied with ± AC high voltages. The high voltages are supplied from a + high voltage charging pulse amplifier (4) and a + high voltage discharging pulse amplifier (5) which are connected in parallel to a + high voltage charging/discharging pulse circuit (3). The amplifier (4) is connected to a + high voltage charging switch circuit (5) and the amplifier (6) is connected to a + high voltage discharging switch (7). The - parts are the same as the above connection. Each polarity is connected to the corresponding electrode of the barrel.

Description

Cohesive Disintegration Device of Liquid Material

1 is a circuit block diagram of the present invention.

2 is a detailed circuit diagram.

3 is a state of use in which the device is connected to an oil barrel.

4 is a charge and discharge waveform diagram applied to the oil barrel by the circuit of the present invention.

5 is a use state diagram in which the circuit device of the present invention is connected to a water treatment barrel.

6 is a use state in which the circuit device of the present invention is installed in a dyeing machine.

* Explanation of symbols for main parts of the drawings

1: basic frequency oscillator circuit 2: sequence circuit

3: + high voltage, discharge pulse circuit 3 ':-high voltage, discharge pulse circuit

4: + high voltage charging pulse amplifier circuit 4 ': high voltage charging pulse amplifier circuit

5: + high voltage charge switch circuit 5 ':-high voltage charge switch circuit

6: + high pressure discharge pulse amplifier circuit 6 ': -high pressure discharge pulse amplifier circuit

7: + high voltage discharge switch circuit 7 ':-high voltage discharge switch circuit

8: + high pressure generation and stabilization circuit 8 ': high pressure generation and stabilization circuit

9: + high compression circuit 9 ': high compression circuit

The present invention relates to a device for disintegrating cohesion and surface tension of liquid substances such as oil, water (water), and dyeing water. For example, a spray (spraying) method through a nozzle is known as a method used to increase the combustion efficiency of oil. However, in the case of oil, the cohesion force between particles is very high, and even though it is injected, the size of oil particles is very large and it is a cause for incomplete combustion. However, there are limitations on fuel usage due to the closed end of heavy oils such as diesel and bunker seed oil, and in terms of combustion efficiency, it was not expected to improve the combustion efficiency.

In view of the functional limitations of a combustion apparatus or a water treatment apparatus and a dyeing water treatment apparatus, the present invention provides a strong cohesion between materials by imparting a strong electromagnetic force to a substance made of liquid. To reduce the solidification phenomenon of the material and semi-granulate the material to be injected to increase the dyeing efficiency by crushing the condensation state of the dye material and saving the oil by improving combustion efficiency (complete combustion). In order to achieve the effect of shortening the time and the effect of preventing and removing scale generation inside the pipe and the machine connected thereto, it will be described in detail based on the accompanying drawings.

From the basic frequency oscillation circuit (1) through the sequence circuit (2), + high voltage charge and discharge pulse circuit (3) and-high pressure charge and discharge pulse circuit (3 '), ± high voltage is alternately applied to the barrel (BRL) In constructing a device in which the cohesive force and surface tension between the particles of the material passing through the barrel (BRL) and the collision of the particles are reduced, the + high pressure charge pulse amplification circuit is applied to the + high pressure charge / discharge pulse circuit 3. (4) and the + high voltage discharge pulse amplification circuit (6) are connected in parallel, the + high voltage charge pulse amplifier circuit (4) is connected to the + high voltage charge switch circuit (5), + high voltage discharge pulse amplifier circuit (6) Is connected to the + high voltage discharge switch circuit (7) to connect the two circuits (5) and (7) to the barrel (BRL) through which a liquid substance passes, and to the -high voltage charge / discharge pulse circuit (3 '). The high voltage charge pulse amplification circuit 4 'and the high voltage discharge pulse amplification circuit 6' are connected in parallel, and the high voltage charge pulse amplification circuit is connected. The circuit 4 'is connected to the high voltage charge switch circuit 5', and the high voltage discharge pulse amplifier circuit 6 'is connected to the high voltage discharge switch circuit 7'. (7 ') to the barrel (BRL), and + high voltage generation and stabilization circuit (8) and + high compression circuit (9) in series with the + high voltage charge switch circuit (5), the-high pressure The configuration of the apparatus is achieved by connecting the high voltage generation and stabilization circuit 8 'and the high voltage accumulation circuit 9' to the charging switch circuit 5 'in series. If this device is installed in oil pipes, it is used as an oil-saving device. If it is installed in water pipes, it can be used to prevent water treatment, and if it is installed in a dyeing machine, it can be used as a dyeing water treatment device.

Referring to the principle of operation of the present invention having such a configuration, as shown in FIG. 4, the apparatus is operated in a cycle of (a) → (b) → (c) → (d) as shown in (e). By continuously generating pulses such as this, the recharging to the electrode is performed quickly, thereby reducing the cohesion and surface tension of the material by the electromagnetic force, thereby preventing and eliminating the coagulation phenomenon between the materials and improving the injection efficiency.

In FIG. 1 and FIG. 2, when the + high voltage charge pulse is 'on', it is amplified by an amplifier composed of transistors through the A point of the + high voltage charge pulse amplifier circuit 4 to form the + high voltage charge switch circuit 5. A pulse is induced on the secondary side of the transformer (T + 1) to turn on the thyristor (S + 1). At the same time, the transformer T + n up to the thyristor S + n is connected in series, so that the high voltage accumulated by the on- + high-compression circuit 9 at the same time for the number of thyristors S + 1, ..., S + n is instantaneously. The electrodes of the barrel BRL are charged. Subsequently, when the + high voltage charge pulse is 'off', that is, as shown in Fig. 4a, when the + high voltage charge pulse falls from the 'high' state to the 'low' state, the thyristor (S + 1,...) Of the high voltage charge switch circuit 5. , S + n) is also 'off' and only + high pressure is present on the electrode. At this time, when the + high voltage discharge pulse is 'on' at the same time as the 'off' of the + high voltage charge pulse as shown in FIG. 4b, it is amplified by an amplifier composed of transistors through the B point of the + high voltage discharge pulse amplification circuit 6. The pulse is induced on the secondary side of the transformer (T _D +1) constituting the + high voltage discharge switch circuit 7 to turn on the thyristor S _D +1 connected thereto. At the same time the thyristor (S _{D +} n ... S _D +1) of the plurality of thyristors (SD + n) is at the same time as the "on" barrel (BRL) the + voltage may be + high-voltage discharge switch circuit 7 is filled in the electrode of the series-connected Through instantaneous discharge. At the end of the discharge, as shown in FIG. 4C, the high voltage charge pulse is 'on' and the pulse amplified through the amplifier through the C point of the high voltage charge pulse amplifier circuit 4 is a high voltage charge switch circuit. Since the thyristors S-1, ... Sn connected to the secondary side of the transformer T-1 constituting (5 ') are turned' on ', the high voltage is charged to the electrodes. At this time, when the high-voltage charge pulse is 'off', the thyristors (S-1, ..., Sn) of the high-voltage charge switch circuit 5 are simultaneously 'off' and at the same time as shown in 4d. The thyristor (S _D -1 ... S _D -n), which is amplified by passing through the amplifier, is amplified by the D point of the high voltage discharge pulse amplifier circuit (6 '). ) Is turned on, so the instantaneous discharge of the high voltage charged to the electrode is initiated.By repeating continuously in such a cycle, the barrel (BRL) momentarily passes the high voltage while continuing charging and discharging. The cohesion and surface tension of the material will be reduced.

The present device exhibiting such an operation will be described with reference to some embodiments.

Example 1

When the circuit of the present invention is connected to the oil barrel (BRL) as shown in FIG. 3 and the oil (for example, diesel and bunker C oil) is passed, when + voltage is induced to the electrode of the barrel (BRL)- The substance with the property moves toward the + electrode, and the substance with the + property moves toward the barrel (BRL). (In the 'on' operation of the + high voltage charging pulse in the figure of FIG. 4a) Subsequently, when the + voltage supply of the electrode is stopped and the + voltage charged to the electrode is discharged through the + high voltage discharge switch circuit 7, the substance Move weakens significantly. (In case of 'on' operation of high voltage discharge pulse in the figure of Figure 4b) At this time, when-voltage is applied to the electrode,-substance is moved toward barrel (BRL), + substance is moved toward electrode. . (At the time of -high voltage charging pulse 'on' operation in the figure of FIG. 4C) Then, the electrode is supplied with the voltage through the high voltage discharge switch circuit 7 '. Discharge of the voltage weakens the movement of matter. (At high pressure discharge pulse 'on' operation in the figure of Figure 4d)

If this operation is repeated several times until the oil enters the inlet of the barrel and exits the outlet, the colliding force on the kroid decreases due to the collision between particles of the material and the surface tension decreases drastically. By increasing the effect, the fuel efficiency can be greatly reduced by doubling the combustion efficiency. That is, the purpose of the oil saving device can be achieved.

Example 2

When the water treatment barrel (BRL) connected to the power pack of the present invention (BRL) is installed in a pipe or an associated machine as shown in FIG. As a result of the rapidly changing electromagnetic field, countless electrons are generated in the water. Therefore, the electrons generated from the inner surface of pipes and machinery are innumerably generated in the water, thereby eliminating oxidation and scale formation, and supplying electrons to the pre-formed scale, thereby lowering the potential between materials. The scale is removed slowly by loosening the links. In other words, it plays an excellent role as a water treatment device.

Example 3

As shown in FIG. 6, the device is installed at the rear of the heating device in dyeing and processing (Rapid or Beam type) and supplies dyeing water. At the same time, the coagulated (solidified) materials are pulverized to improve the penetration efficiency of the dyeing material, thereby improving the dyeing efficiency and shortening the dyeing time.

In the present invention, when used as a water treatment device, an oil saving device, or a dyeing treatment device, the time for charging and discharging the electrode may be appropriately adjusted.

In this way, the device accumulates the stabilized high voltage in the 'off time' and then causes the electrode to charge the high voltage in a short time, thereby increasing the collision rate between the materials, causing the coagulation force on the kroid to degrade the surface tension of the materials. By applying this to the oil combustion device, it can bring about a significant oil saving effect, and when used in the water treatment device, it is possible to prevent the generation of scale in the pipe and even remove the generated scale. Is a revolutionary invention that creates the effect of two-season trillion as an industrial device, such as when it is applied to the dyeing water treatment system of the dyeing processing machine can improve the dyeing efficiency and save time.

Claims (1)

± high voltage is alternately applied to barrel (BRL) via + high voltage charge / discharge pulse circuit (3) and -high voltage charge / discharge pulse circuit (3 ') from basic frequency oscillation circuit (1) to sequence circuit (2) In constructing a device in which the cohesive force and surface tension between the particles of the material passing through the barrel (BRL) and the collision of the particles are reduced, the + high pressure charge pulse amplification circuit is applied to the + high pressure charge / discharge pulse circuit 3. (4) and the + high voltage discharge pulse amplification circuit (6) are connected in parallel, the + high voltage charge pulse amplifier circuit (4) is connected to the + high voltage charge switch circuit (5), + high voltage discharge pulse amplifier circuit (6) Is connected to the + high voltage discharge switch circuit (7) to connect the two circuits to the barrel (BRL), while the -high voltage charge pulse amplification circuit (4 ') and -high voltage are connected to the high voltage charge / discharge pulse circuit (3'). The discharge pulse amplification circuit 6 'is connected in parallel, and the high voltage charge pulse amplification circuit 4' is a high voltage charge switch circuit. (5 '), the high voltage discharge pulse amplification circuit (6') is connected to the high voltage discharge switch circuit (7 ') and the two circuits are connected to the barrel (BRL), and the + high voltage charge switch circuit ( 5) the + high voltage generation and stabilization circuit 8 and the + high pressure accumulation circuit 9 are connected in series, and at the same time, the -high voltage generation and stabilization circuit 8 'and -high pressure are connected to the -high voltage charging switch circuit 5'. A cohesive disintegrating apparatus for a liquid substance, characterized in that the accumulation circuit (9 ') is connected in series.