KR101668800B1 - Control System of Combustion Air Blower for a Furnace - Google Patents

Abstract

According to the present invention, there is provided an air conditioner comprising: a pressure sensor installed in a heating furnace; two blowers for supplying combustion air to the heating furnace; a blower controller for generating a control signal according to a signal of the pressure sensor; And a damper controller for controlling the opening of the damper in accordance with a signal from the pressure sensor, an inverter for collectively controlling the voltages applied to the two blower motors, a damper provided at the front end of each blower, and a damper controller for controlling the opening of the damper As a result, it is possible to reduce the power consumption and prevent the backflow of air by the damper.

Heating furnace, combustion air, furnace pressure, flow rate

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a control system for a combustion air blower,

The present invention relates to an apparatus for controlling the flow rate of combustion air by providing an inverter in a blower motor for supplying combustion air into a furnace.

The conventional heating furnace combustion air supply system is constructed as shown in FIG. 1, and controls the dampers 41 and 42 located at the front end of the combustion air blower fan to control the pressure in the heating furnace 10 The specification of the blower 31 and 32 motor is determined so that the air flow rate necessary for the combustion can be sufficiently supplied in the maximum open state of the damper. At this time, the damper control is performed to supply the optimum flow rate required for the combustion, and the air flow rate supplied to the furnace by the damper is controlled, but the blower motor is operated at a constant number of revolutions.

In addition, since there are two blowers for injecting combustion air in the heating furnace, the energy saving effect is obtained by applying a high-voltage inverter for power saving to each combustion air blower motor. However, in case of installing the inverter in each blower, It is difficult to apply it even though it is a facility which contributes to stabilization of the inside of the furnace and helps quality improvement.

SUMMARY OF THE INVENTION Accordingly, the present invention has been made in view of the above problems, and it is an object of the present invention to provide an inverter in a combustion air blower to reduce power energy.

It is another object of the present invention to prevent backflow of combustion air through partial damper control.

The apparatus for controlling a heating furnace combustion air blower according to the present invention comprises a pressure sensor provided in a heating furnace, two blowers for supplying combustion air to the heating furnace, a blower controller for generating a control signal according to the signal of the pressure sensor, And a damper controller for controlling the opening of the damper according to a signal from the pressure sensor, wherein the damper controller controls the opening of the damper according to a signal from the pressure sensor .

The control reference value of the blower controller may be the same as the pressure value of the furnace in the furnace when the optimum flow rate required for combustion is supplied in the maximum open state of each damper .

The heating furnace combustion air blower control apparatus according to the present invention includes an arithmetic unit for calculating a combustion air amount to be calculated based on the amount of fuel gas supplied to the heating furnace and the control reference value of the blower controller is inputted from the arithmetic unit can do.

The heating furnace combustion air blower control apparatus according to the present invention may further comprise a discharge valve that opens when the pressure of the pressure sensor exceeds a set pressure.

The controller of the heating furnace combustion air blower according to the present invention controls the damper controller such that the opening degree of the damper is reduced when the pressure of the pressure sensor exceeds the set pressure.

The apparatus for controlling the heating furnace combustion air blower according to the present invention is characterized in that the damper controller controls the opening degree of the damper to be decreased in proportion to the difference between the pressure of the pressure sensor and the set pressure.

The heating furnace combustion air blower control apparatus according to the present invention is characterized in that the set pressure is set to be larger than the control reference value of the blower controller.

The heating furnace combustion air blower control apparatus according to the present invention is characterized in that the damper controller controls the opening degree of the damper to be reduced when a backflow is detected in the damper.

The heating furnace combustion air blower control apparatus according to the present invention is characterized in that the damper controller monitors the current of the blower motor and processes the backflow occurrence signal in the damper when the blower motor current value is less than the set value.

The heating furnace combustion air blower control apparatus according to the present invention is characterized in that the damper controller monitors the current of the blower motor and treats that the backflow occurrence signal in the damper is sensed when the motor current unbalance value of both blowers exceeds the set value have.

The heating furnace combustion air blower control apparatus according to the present invention includes a flow meter for measuring a flow rate of combustion air flowing into a heating furnace, wherein the damper controller monitors a flow rate of the flow meter and, when the value is less than a set value, As a result of the detection.

When the combustion air supply amount is controlled by the combustion air control device of the heating furnace according to the present invention, the inverter control mode is applied in the steady state, so that the power consumption is reduced by using only the power required to provide the optimum amount of combustion air, When the pressure in the furnace rises abnormally in the standby state or the like, the opening of the damper is controlled to control the flow rate of the combustion air, thereby preventing the air from flowing back to the damper.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, embodiments of a combustion air control apparatus for a heating furnace according to the present invention will be described in order to facilitate understanding of the present invention. The drawings attached to the present invention are for convenience of explanation, and the shapes and relative scales may be exaggerated or omitted. The following examples are provided to further illustrate the present invention, and the present invention is not limited by these examples.

2 is a block diagram of a heating furnace combustion air blower control apparatus according to the present invention.

2, the heating furnace combustion air blower control apparatus of the present invention includes a pressure sensor 200 installed in a heating furnace, two blowers 331 and 332 for supplying combustion air to the heating furnace 100, An inverter 320 for collectively controlling the voltages applied to the motors of the two blowers 331 and 332 according to a control signal input from the blower controller 310, Dampers 431 and 432 provided on the upstream side of the flow paths of the respective blowers, and a damper controller 410 for controlling the opening of the damper according to the signals from the pressure sensors. In the present invention, when the pressure sensor 200 is installed at a position representative of the pressure of the heating furnace, it is referred to as being installed in the heating furnace 100, do.

In FIG. 2, although the two fans 331 and 332 are shown receiving a voltage from the inverter 320, they further include a switching switch that causes the motors of the two fans to be directly connected to the power source when a fault signal of the inverter occurs can do.

The control reference value of the blower controller is set to be equal to the pressure value of the furnace in the furnace when the amount of air required for combustion is supplied in the maximum open state of each damper. Preferably, a calculator 340 for calculating the amount of combustion air calculated from the amount of fuel gas supplied to the heating furnace may be provided, from which the control reference value of the blower controller may be inputted. The operator 340 can calculate the required in-furnace pressure of the system according to the amount of the combustion air including the experiment database obtained in advance. These experimental data are prepared based on the full scale operation of the furnace, and the required pressure in the furnace generally rises gradually according to the combustion air flow rate.

The heating furnace may be provided with a discharge valve that opens when the pressure of the pressure sensor 200 exceeds the set pressure (not shown in the drawings).

In case of using normal combustion and flow rate, there is no problem during operation of the inverter. However, since the supplied flow rate is higher than the flow rate used in the heating standby state, the flow rate may be reversed to the low pressure blower. This is because the control method is the pressure control, not the flow control, so that the combustion air is continuously supplied to maintain the required pressure in the furnace under the premise of normal combustion and flow rate even under the heating standby state.

When the pressure in the heating furnace exceeds the set value, the discharge valve is automatically opened. Thereafter, when the pressure in the furnace exceeds the set pressure, the damper controller 410 controls the opening of the dampers 431 and 432 to decrease . When the openings of the dampers 431 and 432 are reduced, the flow rate of the combustion air supplied by the blowers 331 and 332 in the same load is reduced, and the combustion air supply excess state is eliminated.

The set pressure is preferably set to be larger than the control reference value of the blower controller 310. When the motors of the blowers 331 and 332 are controlled by the inverter 320 according to the set pressure, unnecessary damper control is not generated.

The opening control of the dampers 431 and 432 can be performed in proportion to the difference between the pressure sensor measurement value and the set pressure. That is, as the difference value in which the pressure of the heating furnace exceeds the set pressure is greater, the damper opening degree is controlled to be decreased.

Alternatively, the damper controller 410 may control the opening of the dampers 431 and 432 to decrease when the backflow is sensed by the dampers 431 and 432.

The method of detecting the backflow of the dampers 431 and 432 utilizes the fact that the current I flowing to the blower motor is reduced under the same applied voltage when the flow rate is reduced by the back flow. Therefore, the damper controller 410 monitors the current of the motors of the blowers 331 and 332 and can treat the reverse current signal as being sensed when the motor current value decreases below the set value. More preferably, however, it is possible to select a method in which the reverse flow generation signal in the damper is detected when the unbalance value of both blower motor currents is equal to or higher than the set value. The motor current unbalance value can be defined as the relative difference value of both blower motor currents, for example, Δ = 2 * | I ₁ -I ₂ | / (I ₁ + I ₂ ) : Motor current unbalance I ₁ : motor current value of the blower 331; I ₂ : motor current value of the blower 332) Of course, the unbalance can define a similar deformation. Monitoring the motor current unbalance can more sensitively detect the back flow of the combustion air than monitoring the motor current itself.

Another method of detecting the backflow of the dampers 431 and 432 is to provide a flow meter for measuring the flow rate of the combustion air flowing into the heating furnace and the damper controller monitors the flow rate of the flow meter and treats that the reverse flow occurs when the value is below the set value .

According to such a counterflow detection method, the control is performed to reduce the opening degree of the dampers 431 and 432 as the motor current value becomes smaller, the motor current unbalance value becomes larger, or the flow rate becomes smaller. The damper control can be made to return to the maximum opening degree when the measured value of the pressure sensor becomes the set pressure or less.

When the combustion air supply amount is controlled as described above, the inverter control mode is applied in the steady state, so that the power consumption is reduced by using only the power required to provide the optimum amount of combustion air, and the pressure in the furnace rises abnormally The opening degree of the damper is controlled to control the flow rate of the combustion air, thereby preventing the air from flowing back to the damper.

The embodiments described above are susceptible to various modifications within the scope of the basic technical idea. Accordingly, all the embodiments disclosed above should be interpreted as examples, and are not construed as limiting. Accordingly, the scope of protection of the present invention should be determined in accordance with the appended claims rather than the foregoing embodiment. The substitution of the appended claims for equivalents is within the scope of the appended claims.

1 is a block diagram of the prior art.

2 is a block diagram of a heating furnace combustion air blower control apparatus according to the present invention.

Claims (11)

A pressure sensor installed in the heating furnace; Two blowers for supplying combustion air to the heating furnace; A blower controller for generating a control signal according to a signal of the pressure sensor; An inverter for collectively controlling voltages applied to the two blower motors according to a control signal input from the blower controller; A damper installed at a front end of each blower; And And a damper controller for controlling the opening of the damper according to the signal of the pressure sensor, The damper controller controls the opening degree of the damper to decrease when a backflow is detected in the damper, Wherein the damper controller monitors the current of the blower motor and treats that the backflow occurrence signal in the damper is detected when the current value of the blower motor is lower than a set value. 2. The combustion air blower control device according to claim 1, wherein the control reference value of the blower controller is equal to the pressure value of the furnace in the furnace when the flow rate required for combustion is supplied in the maximum open state of each damper. 2. The apparatus according to claim 1, further comprising an arithmetic unit for calculating a combustion air amount calculated based on an amount of the fuel gas supplied to the heating furnace, wherein the control reference value of the blower controller is inputted from the arithmetic unit. The heating furnace combustion air blower control device according to claim 1, wherein the heating furnace further comprises a discharge valve that opens when a pressure of the pressure sensor exceeds a set pressure. The heating furnace controller according to claim 1, wherein the damper controller controls the opening degree of the damper to decrease when the pressure of the pressure sensor exceeds a set pressure. 6. The heating furnace combustion air blower control device according to claim 5, wherein the damper controller controls the opening degree of the damper to decrease in proportion to the difference between the pressure of the pressure sensor and the set pressure. 6. The apparatus of claim 5, wherein the set pressure is greater than a control reference value of the blower controller. delete delete A pressure sensor installed in the heating furnace; Two blowers for supplying combustion air to the heating furnace; A blower controller for generating a control signal according to a signal of the pressure sensor; An inverter for collectively controlling voltages applied to the two blower motors according to a control signal input from the blower controller; A damper installed at a front end of each blower; And And a damper controller for controlling the opening of the damper according to the signal of the pressure sensor, The damper controller controls the opening degree of the damper to decrease when a backflow is detected in the damper, Wherein the damper controller monitors the current of the blower motor and treats that the backflow occurrence signal in the damper is detected when the current unbalance value of both blower motors is equal to or higher than the set value. delete

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