KR880003104Y1 - An automatic proportion adjustor - Google Patents

Abstract

No content.

Description

Automatic scale controller

The accompanying drawings are cross-sectional views of the present invention.

* Explanation of symbols for the main parts of the drawings

2: 1st chamber 3: 2nd chamber

4: diaphragm 5: diaphragm valve

7: bellows 9: orifice

10: ratio control valve

The present invention is directed to an automatic rate controller.

Conventionally, an industrial boiler using heavy oil as a fuel uses a fuel oil emulsifier that adds water to reduce exhaust pollution and improve combustion efficiency during combustion. By using the effect, the flow rate of water is slightly reduced or reduced, and only a partial ratio is controlled. Therefore, in order to reduce exhaust emissions and increase combustion efficiency to save energy, the transient characteristics according to load fluctuations are not good. There was a lack.

In other words, in order to maintain a good combustion state in an industrial boiler, it is important that the ratio of water to fuel oil be kept constant under any abnormal conditions. For example, the fuel supply rate is changed due to the fluctuation of the boiler load. Therefore, the amount of water added must be changed at the same ratio, so that the ratio of water to fuel oil can be kept constant so that a good combustion state can be maintained, but without considering the boiler's performance and characteristics, there is no response or control device for the change of abnormal conditions. Manually adjusting the amount of water or adding or subtracting it using the ash effect did not maintain a constant ratio of the added water to the fuel oil supplied, resulting in a poor combustion effect.

The present invention has been devised in view of the above, and will be described below based on the accompanying drawings.

In the regulator 1, the first chamber 2 and the second chamber 3 in which each inlet 2a, 3a is formed are defined by the diaphragm 4, and the diaphragm valve 5 is formed by the valve seat ( 6) parallel to the pressure of the bellows 7 connected to the branch pipe (7a) of the same size as the hydraulic pressure on the side, and the orifice (9) and the ratio control valve (between the liquid mixture outlet 8 and the first and second chambers, respectively) 10) is installed.

According to the present invention, the fuel supplied by the supply motor (not shown) may be supplied by adjusting the proportional control valve 10 on the second chamber side within 5-15% of water in the fuel oil according to the boiler characteristics. And water are introduced into the first and second chambers (2) and (3) through the inlets (2a) and (3a), passed through the orifice (9) and the proportional control valve, mixed and discharged through the mixed liquid outlet (8). It is supplied to the combustion chamber (not noticed).

The ratio of fuel to water to be supplied is the first adjusted state, that is, the water and the fuel are always maintained in a constant state. The pressure in the first chamber and the second chamber changes instantaneously even if the load of the boiler changes. The supply amount of the chamber is adjusted to keep the pressure of the first and second chambers the same.

That is, the pressure in the first chamber becomes the differential pressure of the pressure + orifice on the mixed liquid outlet side, and the pressure in the second chamber becomes the differential pressure of the pressure + ratio control valve on the mixed liquid outlet side, thereby partitioning the first chamber and the second chamber. The diaphragm 4 is operated by the pressure difference generated from the differential pressure of the orifice and the differential pressure of the ratio regulating valve, where the differential pressure of the orifice and the ratio regulating valve is proportional to the flow rate of the liquid. It means to be operated by each flow rate of the liquid.

For example, if the load is changed due to the abnormal condition of the boiler, the fuel supply amount is also changed. At the same time, the pressure in the first chamber is increased, so the differential pressure of the orifice is higher than the differential pressure of the ratio control valve. The pressure on the second chamber side is momentarily increased as the pressure of the second chamber side increases due to the differential pressure of the orifice, which causes the pressure on the second chamber side to rise and requires the amount of water supplied by the increased pressure. And will remain constant.

On the other hand, the diaphragm valve 5 has an influence on the inflow hydraulic pressure in the second chamber because the hydraulic pressure on the valve seat 6 side and the bellows 7 supplied through the branch pipe 7a are kept parallel at the same pressure. The pressure of the first and second chambers is the same as the flow rate of the second liquid is reduced by only the diaphragm force, and the pressure is continuously adjusted automatically. The pressure of the first chamber and the pressure in the second chamber are the same. The flow through and the flow rate of the control valve are proportional to their cross-sectional area, respectively.

Therefore, the ratio can be changed by arbitrarily decrementing the opening degree of the ratio regulating valve, and once the ratio is adjusted, even if the flow rate of the first liquid changes rapidly, the flow rate of the second liquid quickly follows and changes so that the pressure in the first and second chambers changes. It is possible to supply the most efficient mixed liquid for combustion while always maintaining a constant.

In this way, the present invention has the effect of automatically maintaining a constant water ratio of the oil in the emulsion according to the fluctuation of the flow rate of the raw material oil using the principle of the orifice flow meter, and this principle is applied not only to the fuel pretreatment device of the boiler but also In the apparatus for mixing liquid at a constant ratio, there is practical utility that can be generally utilized when maintaining and maintaining at a constant ratio regardless of fluctuations in the flow rate.

Claims (1)

The orifice 9 and the ratio control valve 10 are installed in the first chamber 2 and the second chamber 3 to operate the diaphragm 4 at the difference in the size of the fluid differential pressure, and the second liquid inlet pressure and inlet pipe force Automatic bellows regulator characterized in that the bellows (7) to which the pressure of the second liquid is applied to the opposite side of the diaphragm valve (5) to offset.