KR20140121251A - Constant flow control system by flow sensing - Google Patents

Abstract

The present invention is to provide a constant flow control system by sensing flow which has a function of a conventional constant flow control valve. When an indication of a heater operation from a room temperature regulator (100) is received, a flow rate control valve (120) is completely opened at every supply time set in advance. When the flow rate of a heated water detected by a flow rate detection unit reaches a predetermined supply flow rate, a valve actuator (110) is controlled to fully close the flow rate control valve (120).

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a flow control system,

The present invention is applicable to a flow-sensing positive-flow system which is not directly connected to a heating pipe but is a fixed-flow valve, without changing a conventional room temperature controller or a valve driver, within each household of a group- .

In a multi-generation apartment building, central heating or district heating is often used to heat each household. At this time, in order to prevent heating imbalance between generations, a constant flow valve is installed in each household so that a certain amount of heating water can be supplied to each household.

In the absence of a constant flow valve in each household of the communal housing district where the group is heated, it is not installed directly connected to the heating pipe without changing the existing room temperature regulator or valve actuator, It may be more convenient to apply a constant flow system.

The present invention relates to a flow-sensing positive-flow system which is not directly connected to a heating pipe but is provided as a constant-flow valve, without changing existing room temperature regulators or valve actuators, within each household of a group- .

In order to achieve the above object, the flow rate sensing system of the present invention includes a room temperature controller (100), a controller In the heating control system having the flow control valve 120, the valve driver 110, the heating meter 200 and the meter remote commander 210, the connection to the room temperature controller 100, which instructs the operation and stop of the heating, ; A connection portion to the valve driver 110 for opening and closing the flow control valve 120; A flow rate sensing unit connected to a communication line between the heating meter 200 and the meter remote instruction unit 210 to sense a flow rate; An input unit for inputting various set values including a supply flow rate and a supply time for heating; A display unit for displaying various control information including a supply flow rate and a supply time for heating; A buzzer for outputting a warning sound when an abnormality is detected in the heating control system; A nonvolatile memory in which a heating usage amount in a recent period is recorded and stored in units of one day; And when the operation of heating is instructed by the room temperature controller (100), after the flow control valve (120) is fully opened at a predetermined one time supply time, the heating water flow rate sensed by the flow rate sensing unit And a control unit for controlling the valve driver 110 so that the flow rate control valve 120 is fully closed when the flow rate of the return gas is reached.

The present invention further includes a supply temperature sensing unit attached to the supply pipe of the hot water distributor for sensing a supply temperature of the heating water, wherein the display unit displays the heating water supply temperature, the single supply flow rate and the single supply time And a predetermined adjustment value is added or subtracted for each heating water supply temperature.

According to the present invention, the hot water distributor further includes a plurality of return water temperature sensing parts attached to the water heat exchanger to sense the temperature of the water heating water, wherein the display unit displays the heating water water temperature for each water return line, And the one-time supply time is characterized in that an adjustment value preset for each heating water temperature and an adjustment value for heating water supply restriction are added or subtracted.

The present invention relates to a flow-sensing positive-flow system which is not directly connected to a heating pipe but is provided as a constant-flow valve, without changing a conventional room temperature controller or a valve driver, within each household of a group- Can be installed.

1 is a block diagram showing a conventional heating control system.
FIG. 2 is a block diagram of applying the flow-sensing knowledge constant flow rate system of the present invention to a conventional heating control system.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is a block diagram showing a conventional heating control system.

The conventional heating control system includes an indoor temperature controller 100, a valve driver 110, a flow control valve 120, a heating meter 200, and a meter remote controller 210.

The indoor temperature controller 100 is connected to the valve driver 110 and the valve driver 110 is connected to the flow control valve 120. The heating meter 200 is connected to the meter remote commander 210 via a communication line.

FIG. 2 is a block diagram of applying the flow sensing type constant flow rate system of the present invention to a conventional heating control system.

The flow sensing type constant flow rate system 300 of the present invention includes a connection portion to the room temperature controller 100, a connection portion to the valve driver 110, a flow rate sensing portion, an input portion, a display portion, a buzzer, a nonvolatile memory and a control portion .

The present invention includes a connection part to the indoor temperature controller 100 for instructing to start and stop the heating and a connection part to the valve driver 110 for opening and closing the flow control valve 120.

As a result, the room temperature controller 100 and the valve driver 110 are not directly connected to each other as in the prior art, but operate through the present invention.

The connecting part between the room temperature controller 100 and the valve driver 110 may be configured differently depending on the product, since the connection method may differ between the room temperature controller 100 and the valve driver 110. When the connection portions to the indoor temperature controller 100 and the valve driver 110 are prepared in parallel according to the type of the connection method and the connection method is different between the room temperature controller 100 and the valve driver 110, Lt; / RTI >

The flow rate sensing unit for sensing the flow rate included in the present invention is connected to a communication line between the heating meter 200 and the meter remote control unit 210. The connection of the flow sensing unit to the communication line of the heating meter 200 should be connected by separating the (+) and (-) polarities from the power line and the data line. The heating meter 200 is divided into a heating hot water meter and an integrated calorimeter. In the heating hot water meter, since 10 liters of flow rate is usually communicated by 1 pulse (Pulse), it can be detected by the flow rate sensor and the flow rate of the heating water can be measured. The integrated calorimeter communicates 1 kW or 10 kW of heat with 1 pulse (Pulse), so it can detect this or transmit information about the flow rate by bi-directional communication with the communication line.

In the input unit included in the present invention, various set values including the supply flow rate and the supply time for heating are input. The set value includes one feed rate and one feed time.

The supply flow rate is calculated by considering the length of the heating piping. It is the number of the heating flow that can fill all of the heating piping in the household. If the supply valve is restricted or stopped, or additional heating is required, The amount of return flow can be adjusted and set.

The one-time supply time is calculated in consideration of a constant flow rate (required flow rate) in accordance with a heating load such as a heating area, which is calculated by dividing the supply flow rate once at a predetermined fixed flow rate (required flow rate). That is, the supply flow rate once is equal to the flow rate (required flow rate) multiplied by the single supply time. (1 time supply flow = constant flow (required flow rate) * 1 time supply time).

In the display unit included in the present invention, various kinds of control information including the supply flow rate and the supply time for heating are displayed. The control information includes a single feed rate, a single feed time, a current flow value, and an accumulated flow value.

In the buzzer included in the present invention, a warning sound is output when an abnormality is detected in the heating control system. When an abnormality is detected in the flow of the indoor temperature controller 100, the valve driver 110, the flow control valve 120, the heating meter 200, and the heating water, an alarm sound is notified and necessary measures can be taken within a proper time . If the flow rate is not detected even when the flow rate control valve is opened, or if the flow rate is detected after closing the flow rate control valve, the buzzer sounds a warning sound so that a necessary action can be taken.

In the nonvolatile memory included in the present invention, the amount of heating used in a recent period is accumulated and stored in units of one day by accumulating the flow rate sensed by the flow rate control unit. If there is a heating usage record for a period of more than one year in general, the usage amount of the previous year and that year can be compared. In addition, it is possible to provide necessary information even when the user wants to know the recent heating usage amount.

In the control unit included in the present invention, when the operation of heating is instructed by the room temperature controller 100, the flow control valve 120 is fully opened at a predetermined one time supply time, And controls the valve driver 110 so that the flow control valve 120 is fully closed when the heating water flow rate reaches a predetermined one-time supply flow rate. When the indoor temperature controller 100 is instructed to stop heating, the flow rate control valve 120 is fully closed and controls the valve driver 110 to maintain the state.

The present invention controls the valve driver 110 so that the flow rate regulating valve 120 is repeatedly opened and closed at every predetermined one time supply time when the indoor temperature controller 100 is instructed to operate the heating. That is, the valve driver 110 is controlled so that a predetermined one-time supply flow rate flows for each supply time. The measurement of the once-supplied flow rate is based on the heating water flow rate sensed by the flow rate sensing unit connected to the heating meter 200.

In the conventional constant flow valve, a constant flow rate always flows without closing the flow control valve 120. However, in the present invention, opening and closing of the flow control valve 120 are repeated, and the average flow rate of the heating water Is equal to the constant flow rate (required flow rate). This makes it possible to provide the function of the constant flow valve without being directly connected to the heating pipe without changing the conventional room temperature controller 100 or the valve driver 110. [

The present invention can be applied without changing the currently installed room temperature controller 100 and the motorized valve actuator or the electric heating valve actuator (WAX valve actuator).

Although the motorized valve actuator can be controlled to some extent with respect to the flow control valve 120, the electric heating valve actuator (WAX valve actuator) can not be proportionally controlled with respect to the flow control valve 120, It is possible. The present invention can be applied to an electric heating valve driver (WAX valve actuator) since the present invention operates not in proportional control to the flow control valve 120 but in a fully opened state and a completely closed state.

The present invention is also applicable to a case where there is a difference in the pressure of the heating water supplied within each household of the district where the district heating is performed.

The present invention allows only the supply flow rate to flow once per supply time regardless of the supply pressure of the heating water. If there is a difference in the supply pressure of the heating water, the opening time of the flow control valve 120 is varied, but only one supply flow is the same, and the same supply time is also applied. Therefore, if the constant flow rate (required flow rate) is the same, the usage amount of the heating water becomes equal regardless of the supply pressure.

The present invention may further include a supply temperature sensing unit. The supply temperature sensing unit is attached to the supply pipe of the hot water distributor to sense the heating water supply temperature.

When the heating water supply temperature is displayed on the display unit, an abnormality with respect to the supply temperature of the heating water can be detected early and necessary measures can be taken.

In the input unit, the adjustment value for the one-time supply flow rate and the one-time supply time is further input and set in advance for each heating water supply temperature. The reason why the adjustment value for the one-time supply flow rate and the one-time supply time for each heating water supply temperature is required is that the operation of the present invention is different depending on the heating water supply temperature. For example, when the heating water supply temperature is lower than normal, the heating is not activated and only the flow rate for checking the heating water supply temperature flows. Conversely, if the heating water supply temperature is higher than usual, the one-time supply time is extended for additional heat supply.

For this reason, the one-time supply flow rate and the one-time supply time are applied after a preset adjustment value is added or subtracted for each heating water supply temperature.

In addition, the present invention may further include a plurality of return temperature sensing units. The water-return temperature sensing unit is attached to the hot water distributor on a re-circulation line basis to sense the temperature of the water-heating water re-circulation line.

When the temperature of the hot water return water is displayed on the display unit by the water return line, the temperature difference between the hot water and the hot water can be adjusted. If the heating water storage temperature of a certain water return line is higher than that of the other water discharge lines, manually closing the diaphragm valve of the water return line manually decreases the heating water supply flow rate and the temperature of the heating water return water is lowered. In the opposite case, if you manually open the diaphragm valve of the water return line, the heating water supply flow rate increases and the temperature of the water heating water return becomes higher. This has the effect of evenly heating each room.

In the input unit, the adjustment value for the once-supplied flow rate, the one-time supply time, and the fixed flow rate (required flow rate) for each of the return lines are previously input and set for each heating water return temperature. The reason why the one-time supply flow rate and the one-time supply time are set for each of the water heating and cooling water temperatures is that the operation of the present invention is different depending on the water temperature. For example, when the water temperature is lower than usual, since the heating load is high, the supply time is shortened so that the constant flow rate (required flow rate) is increased. When the water temperature is higher than usual, the heating load is low. The supply time is extended so that the required flow rate is reduced.

By comparing the increase and decrease of the return water temperature for each line, it is possible to estimate the ratio of the supply limit of heating water to each line. If the rate of increase of the return temperature of a reboiler line is lower than that of the other reboiler line, there is a supply limit of the heating water by the lower rate. The limitation of the supply of the heating water is that the length of the piping to which the heating water is to be supplied is reduced. Once the supply flow rate is calculated according to the length of the piping, once the restriction on the supply of heating water is detected, the supply flow rate is also reduced. The adjustment value for the once-supplied flow rate is calculated by considering the supply restriction rate of the heating water and the flow rate (required flow rate) of the return flow line.

For this reason, the one-time supply flow rate and the one-time supply time are applied after the preset adjustment value and the adjustment value for the heating water supply restriction are added or subtracted for each heating water temperature.

If both the supply temperature sensing unit and the return temperature sensing unit are included in the present invention, the supply flow rate and the supply time of one time may be adjusted by adjusting the supply temperature adjustment value, the return temperature adjustment value, Apply later.

100: Room temperature controller
110: valve actuator
120: Flow control valve
200: Heating meter
210: Meter Remote Indicator
300: Flow Sensing Knowledge Fixed Flow System

Claims (3)

A room temperature regulator 100, a flow rate regulating valve 120, a valve driver 110, a heating meter 200 (hereinafter, referred to as " heating " And a meter remote commander 210,
A connection to an indoor temperature controller (100) for instructing to start and stop the heating;
A connection portion to the valve driver 110 for opening and closing the flow control valve 120;
A flow rate sensing unit connected to a communication line between the heating meter 200 and the meter remote instruction unit 210 to sense a flow rate;
An input unit for inputting various set values including a supply flow rate and a supply time for heating;
A display unit for displaying various control information including a supply flow rate and a supply time for heating;
A buzzer for outputting a warning sound when an abnormality is detected in the heating control system;
A nonvolatile memory in which a heating usage amount in a recent period is recorded and stored in units of one day; And
When the operation of the heating is instructed by the room temperature controller 100, the flow rate control valve 120 is fully opened at a predetermined one-time supply time, and then the heating water flow rate sensed by the flow rate sensing unit reaches a preset one time And a control unit for controlling the valve driver (110) so that the flow control valve (120) is fully closed when the supply flow rate is reached. The method according to claim 1,
The heating water supply temperature is displayed on the display unit, and the one-time supply flow rate and the one-time supply time are different from the heating water supply temperature Wherein the predetermined adjustment value is added or subtracted by a preset adjustment value. The method according to claim 1 or 2,
A plurality of water temperature sensing units attached to the hot water distributor for each water line to sense the temperature of the water heating water, and the display unit displays the temperature of the water heating water in each water line, Wherein the adjustment value for the heating water supply restriction is added to or subtracted from the preset adjustment value for each heating water temperature.

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