KR100263714B1 - Gas pressure control system - Google Patents

Abstract

PURPOSE: A gas pressure controller of hot air blower is provided to sense changed amount of gas pressure and to enable optimal combustion condition by controlling ratio of gas and air amount corresponding to changed amount of gas pressure supplied. CONSTITUTION: A gas pressure sensing unit(140) senses pressure changed amount of supplied gas. A proportional valve drive unit(150) outputting a drive signal for turning on/off proportionally a proportional valve(160) depending on a control signal. The proportional valve(160) turned on/off proportionally by drive signal of the proportional valve drive unit(150) and a burner motor(170) controlling inflow amount of air outside according to the control signal. A control unit(110) outputs a signal for controlling gas amount depending on pressure change amount of the gas pressure sensing unit(140) and outputs a signal for controlling air amount to the burner motor. Herein, gas amount and air amount delivered to a burner unit(180) preestablished to the control unit(110) for controlling the ratio between gas and air amount by experiment value dependent upon standard gas pressure, low pressure gas and high pressure gas to an optimal combustion condition.

Description

Gas pressure control device of gas warmer

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a gas hot air blower, and more particularly, to a gas pressure control device of a gas hot air blower configured to control a gas amount and an air amount according to a change amount of a supplied gas pressure.

Hereinafter, a gas warmer according to the prior art will be described with reference to the accompanying drawings.

1 is a block diagram illustrating a gas heater according to the prior art, in which a controller 1 collectively controls the operation of an entire circuit and a drive for turning on / off a gas valve according to a control signal of the controller 1. A gas valve driving unit 2 for outputting a signal, a gas valve 3 for supplying or blocking gas to a burner unit 6 which is turned on / off according to a driving signal of the gas valve driving unit 2, and the above; The burner motor 4 which supplies external air to the burner unit 5 described below according to the control signal of the controller 1, and the gas and air supplied through the gas valve 3 and the burner motor 2. The burner part 6 to mix and the combustion part 7 in which the gas mixed by the burner part 6 are combusted by ignition of an ignition part (not shown) are comprised.

Referring to the accompanying drawings, the operation of the gas pressure control apparatus for a gas warmer according to the related art, as described in detail, is as follows.

First, when the user operates the gas heater to heat the control unit 1 controls to supply the gas and external air supplied from the gas tank (not shown) or the city gas supply pipe (not shown) to the burner unit (5). Output the signal.

Then, the gas valve driver 2 outputs a driving signal for turning on the gas valve according to the control signal of the controller 1.

Accordingly, the gas valve 3 is turned on according to the driving signal of the gas valve driving unit 2 and supplies the supplied gas to the burner unit 6.

In addition, the burner motor 4 supplies external air to the burner unit 5 according to the control signal of the control unit 1.

The burner part 5 then mixes the gas and air supplied through the gas valve 3 and the butter motor 4 and supplies it to the combustion part 6.

The mixed gas supplied to the combustion unit 6 is combusted in accordance with the ignition of the ignition unit and is heated up to a predetermined temperature through heat exchange with the air introduced from the room to discharge to the room.

Through this process, the gas warmer improves the room temperature.

However, since the gas warmer according to the related art has a different pressure of the gas supplied to each region, it is not possible to detect a change amount of the supply gas pressure when the gas is lower than or higher than the standard gas pressure, thereby causing incomplete combustion in the combustion unit.

Therefore, the present invention has been made in order to solve the above problems, a gas warmer to sense the amount of change in the gas pressure supplied to adjust the ratio of the amount of gas and the amount of air in accordance with the amount of change in the supply gas pressure to create the optimum combustion conditions Its purpose is to provide a gas pressure control device.

1-block diagram showing a gas pressure control device of a gas warmer according to the prior art

2-block diagram showing a gas pressure control device of a gas warmer according to the present invention

3-2 are graphs showing changes in gas pressure during gas pressure control in FIG.

Explanation of symbols for main parts of the drawings

110 control unit 120 gas valve driving unit

130 gas valve 140 gas pressure detection unit

150: proportional valve driving unit 160: proportional valve

170: burner motor 180: burner part

190: combustion unit

Features of the gas pressure control device of the gas hot air blower according to the present invention for achieving the above object, the gas pressure sensing means for detecting the pressure change amount of the supplied gas, and proportionally turn on / off the proportional valve according to the control signal Proportional valve driving means for outputting a drive signal for the propulsion, Proportional valve which is on / off proportionally in accordance with the drive signal of the proportional valve driving means, Burner motor for controlling the inflow of outside air in accordance with a control signal, And controlling means for controlling the overall operation of the circuit as a whole, outputting a signal for controlling the gas amount according to the pressure change amount of the gas pressure sensing means to the proportional valve driving means, and outputting a signal for controlling the air amount to a burner motor. It is composed.

Hereinafter, with reference to the accompanying drawings, a preferred embodiment of a gas pressure control device of a gas warmer according to the present invention will be described.

Figure 2 shows a block diagram of a gas pressure control device of the gas warmer according to the present invention, the gas pressure detecting unit 140 for detecting the pressure change amount of the supplied gas and the proportional valve on / proportionally in accordance with the control signal The proportional valve driver 150 outputs a driving signal for turning off, the proportional valve 160 that is turned on / off proportionally according to the driving signal of the proportional valve driving unit 150, and the external air in accordance with a control signal. A burner motor 170 for controlling the inflow rate, and a signal for controlling the operation of the entire circuit and controlling the gas amount according to the pressure change amount of the gas pressure sensing unit 140 to the proportional valve driver 150. The control unit 110 for outputting a signal for controlling the amount of air to the burner motor.

Here, the description of the same components as those of FIG. 1 described above will be omitted.

3 is a graph illustrating a change in gas pressure during gas pressure control of FIG. 2.

When described in detail with reference to the accompanying drawings the operation of the gas pressure control device of the gas warmer configured according to the present invention as follows.

First, when the user operates the gas warmer to heat the control unit 110 outputs a control signal for supplying the gas supplied from the gas tank (not shown) or the city gas supply pipe (not shown) to the burner unit 180. .

Then, the gas valve driver 120 outputs a driving signal for turning on the gas valve 160 according to the control signal of the controller 110.

Accordingly, the gas valve 130 is turned on according to the driving signal of the gas valve driver 120 to supply the supplied gas to the proportional valve 160.

At this time, the gas pressure detecting unit 140 detects and outputs the pressure of the supplied gas.

Then, the control unit 110 outputs a control signal corresponding to the gas pressure detection signal of the gas pressure detection unit 140 to the proportional valve driver 150 and the burner motor 170.

Accordingly, the proportional valve driver 150 adjusts the amount of gas supplied to the burner unit 180 by proportionally turning on the proportional valve 160 according to the control signal of the controller 110.

In addition, the burner motor 170 adjusts the amount of external air according to the control signal of the control unit 110 and supplies it to the burner unit 180.

The control signal is a signal for controlling the amount of air supplied to the burner unit 180 by controlling the rotation speed of the burner motor 170.

Then, the burner unit 170 mixes the gas and air supplied through the proportional valve 160 and the butter motor 150 to supply the combustion unit 190.

That is, if the gas pressure detection signal of the gas pressure detection unit 140 is a detection signal indicating a standard gas pressure as shown in FIG. 3, the controller 110 controls to supply the corresponding gas amount and air amount to the burner unit 180. Output the signal.

Then, the proportional valve driver 150 outputs a driving signal for supplying a corresponding gas amount according to the control signal of the controller 110.

Accordingly, the proportional valve 160 turns on the valve proportionally according to the driving signal of the proportional valve driver 160.

In addition, the burner motor 170 supplies a corresponding air amount according to the control signal of the controller 110.

Then, the burner unit 180 mixes the amount of gas and the amount of air supplied through the proportional valve 160 and the burner motor 170 and supplies the mixed amount to the combustion unit 190.

In addition, if the gas pressure detection signal of the gas pressure detection unit 140 is a detection signal indicating a low pressure gas as shown in FIG. 3, the controller 110 supplies the corresponding gas amount and air amount to the burner unit 180. Outputs a control signal for

Then, the proportional valve driver 150 outputs a driving signal for supplying a corresponding gas amount according to the control signal of the controller 110.

Accordingly, the proportional valve 160 turns on the valve proportionally according to the driving signal of the proportional valve driver 160.

In addition, the burner motor 170 supplies a corresponding air amount according to the control signal of the controller 110.

Then, the burner unit 180 mixes the amount of gas and the amount of air supplied through the proportional valve 160 and the burner motor 170 and supplies the mixed amount to the combustion unit 190.

Meanwhile, if the gas pressure detection signal of the gas pressure detection unit 140 is a detection signal indicating a high pressure gas as shown in FIG. 3, the controller 110 supplies the corresponding gas amount and air amount to the burner unit 180. Outputs a control signal.

Then, the proportional valve driver 150 outputs a driving signal for supplying a corresponding gas amount according to the control signal of the controller 110.

Accordingly, the proportional valve 160 turns on the valve proportionally according to the driving signal of the proportional valve driver 160.

In addition, the burner motor 170 supplies a corresponding air amount according to the control signal of the controller 110.

Then, the burner unit 180 mixes the amount of gas and the amount of air supplied through the proportional valve 160 and the burner motor 170 and supplies them to the combustion unit 190.

Here, the gas amount and the air amount supplied to the burner unit 180 according to the standard gas pressure, the gas of low pressure, and the gas of high pressure may control the ratio of the gas amount and the air amount to the optimum combustion conditions according to the experimental value. It is set in advance.

The mixed gas supplied to the combustion unit 190 is combusted in accordance with the ignition of the ignition unit and is discharged to the room by raising the introduced air to a predetermined temperature through heat exchange with the air introduced from the room.

By controlling the amount of air supplied according to the gas pressure supplied through this process, it is possible to create the optimum combustion conditions.

As described above, the gas pressure control device of the gas warmer according to the present invention senses the amount of change in the supplied gas pressure and adjusts the ratio of the amount of gas to the amount of air according to the amount of change in the supply gas pressure to create an optimum combustion condition. Incomplete combustion has an effect that can be prevented in advance.

Claims (1)

Gas pressure sensing means for sensing a pressure change amount of the supplied gas; Proportional valve driving means for outputting a driving signal for proportionally turning on / off the proportional valve according to the control signal; A proportional valve that is proportionally turned on / off in accordance with a drive signal of the proportional valve driving means; A burner motor for controlling an external air amount according to a control signal; And controlling means for controlling the overall operation of the circuit as a whole, outputting a signal for controlling the gas amount according to the pressure change amount of the gas pressure sensing means to the proportional valve driving means, and outputting a signal for controlling the air amount to a burner motor. Gas pressure control device for a gas warmer, characterized in that configured.