KR101718655B1 - Setup method for differential and proportional pressure variable control - Google Patents

Abstract

A method for setting a load proportional differential pressure value for variable control of a differential pressure according to a load change according to the present invention comprises: an initial setting step (S100); a driving condition initializing step (S200); a supply pipe start pressure setting step (S300); a starting pressure detecting step (S400); an operation differential pressure value correction step (S500); and an operation ratio compensating step (S600), thereby improving energy saving efficiency and satisfying quality of heat source supply.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a method for setting a load proportional differential pressure value for variable control of a differential pressure according to a load change,

More particularly, the present invention relates to a control system for controlling the operation of a cold / hot water circulation pump, in which a pump is operated to cool or heat a building, The present invention relates to an operation ratio proportional control method for a pump.

Generally, an air-conditioning circulation pump system uses a pressure difference between a suction side and a discharge side of a pump to receive a heat source from a heat source device and supply a heat source to the building, and a circulation water A pressure sensor for measuring the pressure of the piping, a circulation pipe for circulating cold water or hot water to supply the heat source to each room in the building, and a pump capable of controlling the number of revolutions of the pump And a controller that controls the operation rate of the pump according to the heat demand required in the office or household in the building by adjusting the operation rate of the inverter and the pump.

In the conventional method, there is a description of a method of increasing or decreasing the pump operation rate so that the differential pressure value measured at the discharge side of the pump and the two points of the suction side piping are equal to the set differential pressure value, And a method of controlling the pump operation rate so that the current differential pressure is equal to the differential pressure set value after acquiring the differential pressure using the measurement sensor.

The existing differential pressure control system controls the pump operation rate by measuring the pressure difference between the pump discharge side and the suction side. The pump operation load rate does not change when the set pressure difference value is satisfied. Therefore, in the period when the heating or cooling load decreases, There is a problem that waste of energy and inconvenience of use are caused by heating or cooling.

KR Patent Registration No. 10-1582203 B1

KR Patent Registration No. 10-0980753 B1

KR Patent Publication 10-1047423 B1

SUMMARY OF THE INVENTION It is an object of the present invention to solve the above problems of the prior art.

More specifically, it is an object of the present invention to calculate the present load by monitoring the pressure of the supply pipe, the pressure of the suction pipe, and the current pump operation rate, The pressure difference is adjusted in proportion to the load to increase the energy saving efficiency and satisfy the heat source supply quality.

In order to accomplish the above object, the present invention provides a method for setting a load proportional differential pressure value for variable control of differential pressure according to a load change according to the present invention, including a pump 100 for pressurizing the circulation water, And a circulation pipe (300) for circulating the heat-exchanged circulated water through the supply pipe (200) for supplying the building and the circulation water to the pump (100) An initial setting step (SlOO) for inputting an operation setting differential pressure value of the engine (100); An operation condition initialization step (S200) of measuring the pressure of the supply pipe 200 and the pressure of the water return pipe 300 when the pump 100 is stopped; A value obtained by adding the value obtained by subtracting the difference between the pressure of the supply pipe 200 at the time of stopping and the pressure of the return pipe 300 at the time of stopping from the operation setting differential pressure value set at the initial setting step S100 to the pressure of the supply pipe 200 at the time of stopping A supply piping start pressure setting step (S300) for starting the pump (100) by setting the pressure of the supply piping (200); After the start of the pump 100 by the supply pipe start pressure setting step and the pressure of the supply pipe 200 reaches the pressure of the supply pipe 200 in the operation condition initialization step S200, A start-up pressure detecting step (S400) of measuring a pressure and a current operation load ratio; A load curve connecting the differential pressure value after the initial startup in the startup pressure setting step (S300) to the operation setting differential pressure value set in the initial setting step (S100) is set as the proportional pressure difference control line, When the pressure of the supply pipe 200 is changed, when the rate is kept constant, the operating pressure differential value reflecting the current differential pressure value using the change value and the pressure change value of the water return pipe 300, A value correction step (S500); The operation set differential pressure value set in the initial setting step S100 is a maximum value of the heating / cooling demand of the entire building, and the operation differential pressure set value corrected in the operation differential pressure value correcting step (S500) (S600) for variably compensating an operation rate of the first and second actuators (100, 100).

As described above, according to the present invention, the present operation differential pressure value is compensated by monitoring the pressure of the supply pipe 200 and the pressure difference pressure of the water return pipe 300, Thereby optimizing the current cooling / heating load, thereby preventing energy loss due to unnecessary operation of the operation pump 100, reducing the mechanical stress to reduce the probability of occurrence of faults, improving piping noise due to excessive flow rate, .

1 is a flowchart of a method of setting a load proportional differential pressure value for variable control of differential pressure according to a load change according to an embodiment of the present invention;
2 is a diagram illustrating a bottom-up supply piping of a method for setting a load-proportional differential pressure value for variable control of differential pressure according to a load change according to an embodiment of the present invention;
3 is a diagram illustrating a top-down supply piping of a method for setting a load-proportional differential pressure value for variable control of differential pressure according to a load change according to an embodiment of the present invention;

Hereinafter, embodiments of the present invention will be described with reference to the accompanying drawings, but the present invention is not limited by the scope of the present invention.

Referring to FIG. 1, a method for setting a load proportional differential pressure value for variable control of a differential pressure according to a load change according to the present invention includes a pump 100 for pressurizing circulating water, a circulating water pressurized by the pump 100 And a circulation pipe (300) for circulating the heat-exchanged circulated water through the supply pipe (200) for supplying the building and the circulation water to the pump (100) An initial setting step (SlOO) for inputting an operation setting differential pressure value of the engine (100); An operation condition initialization step (S200) of measuring the pressure of the supply pipe 200 and the pressure of the water return pipe 300 when the pump 100 is stopped; A value obtained by adding the value obtained by subtracting the difference between the pressure of the supply pipe 200 at the time of stopping and the pressure of the return pipe 300 at the time of stopping from the operation setting differential pressure value set at the initial setting step S100 to the pressure of the supply pipe 200 at the time of stopping A supply piping start pressure setting step (S300) for starting the pump (100) by setting the pressure of the supply piping (200); After the start of the pump 100 by the supply pipe start pressure setting step and the pressure of the supply pipe 200 reaches the pressure of the supply pipe 200 in the operation condition initialization step S200, A start-up pressure detecting step (S400) of measuring a pressure and a current operation load ratio; A load curve connecting the differential pressure value after the initial startup in the startup pressure setting step (S300) to the operation setting differential pressure value set in the initial setting step (S100) is set as the proportional pressure difference control line, When the pressure of the supply pipe 200 is changed, when the rate is kept constant, the operating pressure differential value reflecting the current differential pressure value using the change value and the pressure change value of the water return pipe 300, A value correction step (S500); The operation set differential pressure value set in the initial setting step S100 is a maximum value of the heating / cooling demand of the entire building, and the operation differential pressure set value corrected in the operation differential pressure value correcting step (S500) (S600) for variably compensating an operation rate of the first and second actuators (100, 100).

Specifically, as shown in Figs. 1 to 3, the load proportional differential pressure setting method for variable control of the differential pressure according to the load change includes a pump 100 for pressurizing the circulating water, A supply piping 200 for supplying circulation water to the building and a circulation pump 300 for circulating the heat-exchanged circulated water through the building so as to transfer the circulation water to the pump 100 do.

First, in the initial setting step S100, the operation setting differential pressure value of the pump 100 is inputted.

At this time, in the case of the operation setting differential pressure value, the cooling / heating demand value estimated in the entire building is roughly predicted, and the differential pressure value is set higher than the predicted maximum value to prepare for exceeding the predicted value. For this reason, Water flows, noise and vibration are generated, and pipe damage is caused.

Next, in the operation condition initializing step (S200), by measuring the pressure of the supply pipe 200 and the pressure of the water return pipe 300 at the time of stopping the pump 100, The reference pressure is measured without stopping.

The supply pipe start pressure setting step S300 is a step of setting a value obtained by subtracting the difference between the pressure of the supply pipe 200 at the time of stopping from the pressure of the return pipe 300 and the pressure of the return pipe 300, The pump 100 is started by setting the value of the supply pipe 200 to the pressure of the initial supply pipe 200 so that the difference between the pressure of the supply pipe 200 at the time of stopping and the pressure of the return pipe 300 A real differential pressure in the building is generated so that the value of the differential pressure plus the pressure of the supply pipe 200 is set to be the pressure of the initial supply pipe 200 to prevent a decrease in the supply pressure.

Next, the start-up pressure detecting step S400 is a step of detecting the pressure of the supply pipe 200 after the start of the pump 100 by the supply pipe start pressure setting step S300, The pressure of the feed pipe 200 at the time of stopping and the pressure of the feed pipe 200 at the time of stop can be measured by measuring the pressure of the return pipe 300 when the pressure of the pipe 200 is reached, The pressure of the return water line 300 to be returned is measured to detect the starting pressure required in the actual building.

Next, the operation differential pressure value correcting step S500 is performed so that, even if the differential pressure after the initial startup in the startup pressure setting step S300 does not satisfy the set differential pressure, the differential pressure value after the initial startup and the setting When the pressure of the supply pipe 200 is changed when the operation ratio is kept constant at the differential pressure value after the initial start, the load curve connecting the one operation setting differential pressure value is designated as the proportional differential pressure control line, The present pressure difference value is reflected by using the pressure change value of the pressure sensor 300 and it is confirmed whether the operation rate is changed.

Also, the step of correcting the operation differential pressure (S500) may be performed by using the fact that the operation set differential pressure value is calculated as the actual demand amount for individual cooling and heating in the operation rate compensating step (S600) It is possible to reset the variable differential pressure value based on the operation set differential pressure value. When the direction of the supply pipe 200 is set upward, the pressure fluctuation due to the water head pressure of the circulating water in the upward feed pipe 200 occurs, The height of the building and the height of the building to calculate the head pressure and reset the operation setting differential pressure value in the bottom-up supply pipe 200 using the calculated head pressure.

Next, the operation rate compensation step S600 is a step in which the operation setting differential pressure value set in the initial setting step S100 is a maximum value of the cooling / heating demand of the entire building, and the operation differential pressure value corrected in the operation differential pressure value correction step S500 The set value is calculated as the actual demanded cooling / heating actual demand, and the operation ratio of the pump 100 is variably compensated, so that excessive circulating water flows into the pipe as described above, causing noise and vibration, It is possible to reduce the energy consumption and to prevent noise and vibration from occurring and damage to the pipe by correcting the pressure to the pressure required in the actual building in consideration of the variables such as the head pressure.

While the present invention has been described with reference to exemplary embodiments, it is to be understood that the invention is not limited to the disclosed exemplary embodiments.

100: pump
200: Supply piping
300: Water piping

Claims (2)

A pump 100 for circulating the circulation water, a supply pipe 200 for supplying the circulation water pressurized by the pump 100 to the building, and a circulation water circulating in the building, A circulation pump for circulating the circulation water to the circulation pump, the method comprising the steps of:
An initial setting step (S100) of inputting an operation setting differential pressure value of the pump (100);
An operation condition initialization step (S200) of measuring the pressure of the supply pipe 200 and the pressure of the water return pipe 300 when the pump 100 is stopped;
A value obtained by adding the value obtained by subtracting the difference between the pressure of the supply pipe 200 at the time of stopping and the pressure of the return pipe 300 at the time of stopping from the operation setting differential pressure value set at the initial setting step S100 to the pressure of the supply pipe 200 at the time of stopping A supply piping start pressure setting step (S300) for starting the pump (100) by setting the pressure of the supply piping (200);
After the start of the pump 100 by the supply pipe start pressure setting step and the pressure of the supply pipe 200 reaches the pressure of the supply pipe 200 in the operation condition initialization step S200, A start-up pressure detecting step (S400) of measuring a pressure and a current operation load ratio;
A load curve connecting the differential pressure value after the initial startup in the startup pressure setting step (S300) to the operation setting differential pressure value set in the initial setting step (S100) is set as the proportional pressure difference control line, When the pressure of the supply pipe 200 is changed, when the rate is kept constant, the operating pressure differential value reflecting the present differential pressure value using the change value and the pressure change value of the water return pipe 300, A value correction step (S500);
The operation set differential pressure value set in the initial setting step S100 is a maximum value of the heating / cooling demand of the whole building, and the operation set differential pressure value corrected in the operation differential pressure value correcting step (S500) (S600) for variably compensating an operation rate of the first and second actuators (100, 100)
When the pressure of the supply pipe 200 reaches the pressure plus the pressure of the supply pipe 200 when the difference between the pressure of the supply pipe 200 and the pressure of the return pipe 300 at the time of stopping the pressure of the supply pipe 200 reaches the start pressure detection step S400, And the pressure of the return pipe (300) is measured to detect a starting pressure required in an actual building. A method for setting a load proportional differential pressure value for variable control of differential pressure according to a load change. The method according to claim 1,
The operation differential pressure value correction step (S500) may include calculating the operation set differential pressure value in the operation rate compensation step (S600) as the actual demand amount for individual cooling and heating, And the variable differential pressure value is reset based on the differential pressure value, wherein the variable differential pressure value is reset based on the differential pressure value.

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