KR20210012422A - cooling and heating system - Google Patents

Abstract

The present invention relates to an air conditioning and heating system capable of preventing fluid cooled for air conditioning from flowing to a heating line by a wrong operation of a user. According to an embodiment of the present invention, an air conditioning and heating system for supplying the fluid, which is cooled or heated so that the temperature is adjusted, to a household divided into one or more spaces comprises: a supply line for supplying, to a household, the fluid of which the temperature is adjusted by a heat source; a cooling line branching from the supply line, and circulating cooled fluid to the ceiling in the household; a heating line branching from the supply line, and circulating heated fluid to the floor in the household; and a return line for allowing the fluid returned from the cooling line and the heating line to circulate as the heat source. The heating line has: a main valve for heating for controlling the flow of the fluid flowing into the heating line; and a temperature sensor for measuring the temperature of the flowing fluid. If the temperature of the fluid measured by the temperature sensor is measured below a preset expected temperature at which condensation occurs, the air conditioning and heating system closes the main valve for heating, thereby preventing the fluid cooled below the expected temperature from flowing into the heating line.

Description

Cooling and heating system

The present invention relates to a cooling and heating system, and more particularly, to a cooling and heating system capable of preventing a fluid cooled for cooling from flowing to a heating line due to a user's malfunction.

In Korea, the four seasons change clearly, and in summer and winter, the temperature of the outside and the interior room shows a big difference, so cooling and heating must be performed according to the season.

In the summer cooling system, an air cooling system that reduces the temperature by convectively convective air into the room as the refrigerant evaporates, and the winter heating system sets the indoor temperature to flow hot water through heat exchange pipes buried at regular intervals in the room floor. Increasing floor heating systems are mainly used.

In the air cooling system, a method of configuring a refrigeration cycle including an evaporator, a compressor, a condenser, and an expansion valve by connecting an outdoor unit and an air conditioner through an air conditioning duct is generally applied.

In the floor heating system, a heat exchange pipe that provides floor heating is buried in the floor and starts according to the operation of the operation switch to energize the circulation pump to generate a circulation flow of hot water in the hot water circuit, and fuel and combustion fans supplied through the fuel supply path Hot water is heated to the combustion heat generated by combustion of the mixture of combustion air supplied by the combustion air by a predetermined combustion means, and the heated hot water is supplied to the heat exchange pipe to perform a heating operation.

Therefore, a system for supplying and returning cooling fluid and heating fluid from the machine room to each household by installing separate cooling and heating pipes, and installing flow control valves and temperature controllers on the counter side of the cooling and heating pipes. Thus, whether the cooling fluid and the heating fluid flow and the amount of flow were controlled.

In addition, in recent years, as a source of cost reduction, both the cooling pipe and the heating pipe are simultaneously used, and cooling and heating are integrated and controlled using each flow control valve and one temperature controller. Therefore, depending on the situation, the cooling fluid flows or the heating fluid flows through one integrated supply pipe. In this case, when the cooling fluid flows, the fluid is branched to the cooling pipe to flow, and the heating fluid In the case of flowing, the fluid had to be branched to the pipe for heating and controlled to flow.

However, a user often incorrectly operates the temperature controller, and in this case, there is a problem in that the cooling fluid flows through the heating pipe. For example, in summer, the user must cool down in the summer, but if heating is performed by incorrectly manipulating the temperature controller, a phenomenon in which the cooled fluid flows to the floor through the heating pipe occurs, resulting in condensation on the floor. There was also a problem that the flooring installed on the floor was damaged due to condensation.

The content described above as the background art is only for understanding the background of the present invention, and should not be taken as an acknowledgment that it corresponds to the prior art already known to those of ordinary skill in the art.

Registered Patent Publication No. 10-1048857 (2011.07.13)

The present invention controls the flow of fluid by measuring the temperature of the fluid flowing in the heating line in real time even when the user malfunctions the temperature controller, thereby preventing the cooling fluid from flowing to the heating line. System.

A cooling/heating system according to an embodiment of the present invention is a cooling and heating system that supplies a fluid cooled or heated to regulated temperature to a household partitioned into at least one space, and supplies a fluid provided with a temperature controlled from a heat source into the household. A supply line; A cooling line branched from the supply line to circulate the cooled fluid to the ceiling of the household; A heating line branching from the supply line to circulate the heated fluid to the floor in the household; A heating main valve that controls the flow of the fluid flowing to the heating line and a temperature sensor that measures the temperature of the fluid flowing in the heating line including a return line for flowing the fluid returned from the cooling line and the heating line to a heat source When the temperature of the fluid measured by the temperature sensor is measured below the preset condensation expected temperature, the heating main valve is closed to prevent the fluid cooled below the condensation expected temperature from flowing to the heating line. Characterized in that.

The heating line includes: a heating supply pipe branched from the supply line and through which a heated fluid flows; A distributor unit including a supply distributor for distributing and flowing the fluid flowing from the heating supply pipe to the floor in the household, and a water exchange distributor for collecting the fluid flowing in the household; And a heating water return pipe for flowing the fluid returned from the distributor unit to the water return line, and the heating main valve and the temperature sensor are installed at the rear end of the distributor unit and the heating main valve according to the temperature of the fluid measured by the temperature sensor It characterized in that the opening and closing of the is controlled.

A plurality of temperature controllers performing a function of setting a desired temperature and a function of measuring a temperature of a corresponding space; A first controller configured to control an amount of fluid flowing to the heating line by adjusting an opening amount of a proportional control valve provided in the water exchanger according to a temperature set by the temperature controller and a measured temperature; It further includes a control unit including a second control unit for controlling the opening and closing of the heating main valve according to the temperature of the fluid measured by the temperature sensor.

The second control unit closes the main valve for heating when the temperature of the fluid measured by the temperature sensor is below the expected temperature for condensation, and measures the temperature of the fluid measured by the temperature sensor above a preset normal heating temperature. When it is characterized in that the heating main valve is opened (open).

The expected temperature for condensation generation is 15°C, and the normal heating temperature is 40°C.

The second control unit opens the main valve for heating when 180 hours elapse in a state in which the main valve for heating is closed because the temperature of the fluid measured by the temperature sensor is measured below the expected temperature for condensation. It is characterized in that the fluid flows for a second and then the main valve for heating is closed again.

The second control unit is characterized in that when the temperature sensor is not operated, the main valve for heating is closed.

The cooling line includes: a cooling supply pipe branched from the supply line and through which the cooled fluid flows; A fan coil unit (FCU) installed on the ceiling of the household to discharge air cooled by the fluid flowing from the cooling supply pipe into the household; A cooling water return pipe for flowing the fluid returned from the FCU to the water return line; And a cooling main valve installed on the cooling water return pipe and controlling the flow of fluid flowing to the cooling line under the control of the first control unit, wherein the opening and closing of the cooling main valve and the opening amount control are performed by the It is characterized in that the first control unit controls the operation of the main valve for cooling according to a temperature set by a temperature controller.

According to an embodiment of the present invention, even when the cooling fluid flows to the heating line due to a user's mistake, the temperature of the fluid flowing to the heating line is measured in real time, and the flow of the fluid is controlled according to the temperature of the measured fluid. It can prevent condensation from occurring in the heating line. Accordingly, it is possible to prevent damage to the flooring material, especially the flooring material made of wood.

1 is a view showing a cooling and heating system according to an embodiment of the present invention.

Hereinafter, embodiments of the present invention will be described in more detail with reference to the accompanying drawings. However, the present invention is not limited to the embodiments disclosed below, but will be implemented in a variety of different forms, only the present embodiments make the disclosure of the present invention complete, and the scope of the invention to those of ordinary skill in the art It is provided to inform you.

1 is a view showing a cooling and heating system according to an embodiment of the present invention.

As shown in FIG. 1, the cooling and heating system according to an embodiment of the present invention is a cooling and heating system that supplies a fluid cooled or heated to regulated temperature to a household partitioned into at least one space, and provided with a temperature controlled from a heat source. A supply line 10 for supplying the resulting fluid into the household; A cooling line (100) branching from the supply line (10) to circulate the cooled fluid to the ceiling of the household; A heating line 200 branching from the supply line 10 to circulate the heated fluid to the floor in the household; And a return line 20 for flowing the fluid returned by the cooling line 100 and the heating line 200 to a heat source.

The supply line 10 is a means for supplying a fluid cooled or heated from a heat source to the temperature-controlled fluid to the cooling line 100 and the heating line 200, and is a main supply pipe through which a fluid whose temperature is adjusted flows as a heat source. (11) and a sub-supply pipe 12 branching from the main supply pipe 11 and supplying the fluid to each household. Of course, the main supply pipe 11 and the sub supply pipe 12 may be separately provided depending on the number of households and the number of heat sources, but may be provided in combination.

At this time, the fluid cooled or heated to control the temperature is selectively supplied through the supply line 10. In general, the cooled fluid is supplied in the summer and the heated fluid is supplied in the winter.

The cooling line 100 is a means for lowering the temperature within the household by branching off the supply line 10 and supplying the cooled fluid into the household, and the cooled fluid branched off the sub-supply pipe 12 of the supply line 10 flows. A cooling supply pipe 101 and; An FCU 110 (Fan Coil Unit) for discharging the air cooled by the fluid flowing in the cooling supply pipe 101 into the household; It includes a cooling water return pipe 102 for flowing the fluid returned from the FCU (110) to the water return line (20).

In addition, a cooling flow meter 120 is provided on the cooling supply pipe 101 to measure the flow amount of the fluid flowing to the cooling line 100, and the cooling water return pipe 102 is provided on the cooling line 100. A cooling main valve 130 for controlling the flow of fluid is provided. Of course, the flow meter for cooling 120 and the main valve for cooling 130 are not limited to those provided at the positions shown, and measure the flow of fluid or control the flow on the cooling supply pipe 101 and the cooling water return pipe 102 Any location can be provided if possible.

The FCU 110 is typically installed on the ceiling and is a means for discharging the cooled air into a household by exchanging heat with the cooled fluid, and its configuration is not limited to a specific configuration, and it can cool and discharge the air by heat exchange with the cooled fluid. It can be changed and implemented in various ways.

The heating line 200 is a means for increasing the temperature within the household by supplying the heated fluid to the household by branching from the supply line 10, and the heated fluid diverged from the sub-supply pipe 12 of the supply line 10 to flow. A heating supply pipe 201 and; A distributor unit 210 including a supply distributor for distributing and flowing the fluid flowing from the heating supply pipe 201 to the floor in the household, and a water exchange distributor for collecting the fluid flowing in the household; It includes a heating return pipe 202 for flowing the fluid returned by the distributor unit 210 to the return line 20.

And, on the heating supply pipe 201, a heating flow meter 220 for measuring the flow amount of the fluid flowing to the heating line 200 is provided, and the flow of fluid flowing to the heating line 200 on the heating return pipe 202 A heating main valve 230 is provided to control it. Of course, the heating flow meter 220 and the heating main valve 230 are not limited to those provided at the positions presented, and any flow rate or flow control of the fluid on the heating supply pipe 201 and the heating return pipe 202 It can also be provided with a position.

In particular, in this embodiment, a temperature sensor 231 for measuring the temperature of the fluid on the heating return pipe 202 is provided. Preferably, the heating main valve 230 and the temperature sensor 231 are installed at the rear end of the distributor unit 210 and the opening and closing of the heating main valve 230 is controlled according to the temperature of the fluid measured by the temperature sensor 231 .

In this case, the temperature sensor 231 may be installed separately from the heating main valve 230 or may be installed integrated with the heating main valve 230. For example, a temperature-sensitive valve in which the temperature sensor 231 and the heating main valve 230 are integrated can be installed on the heating return pipe 202 to simultaneously implement the roles of the heating main valve 230 and the temperature sensor 231. have.

The distributor unit 210 is a unit that distributes and circulates heated fluid through a plurality of floor pipes that are typically installed separately for each divided space (room 1 to room n), and includes a supply distributor and a water exchange distributor. .

The supply distributor is a means for distributing and supplying the heated fluid to a plurality of floor pipes, and floor pipes installed in each of the divided spaces are branched from the supply distributor to be connected.

The water exchange distributor is a means for collecting fluid flowing from each floor pipe and returning it to the sub water return pipe 22, and the floor pipes installed in each of the divided spaces are connected to the water exchange distributor. At this time, a proportional control valve, which is an electronic valve capable of controlling the flow rate by changing the opening amount by an electric signal, is installed at the point where each bottom pipe is connected to each floor pipe. Therefore, the flow rate of the fluid flowing into the space can be adjusted by adjusting the opening amount of the proportional control valve.

Of course, the supply distributor and the water exchange distributor are not limited to the exemplary embodiments and may be changed and implemented in various ways within the scope of performing each function.

On the other hand, in the present embodiment, when the temperature of the fluid measured by the temperature sensor 231 is measured to be less than the predetermined expected temperature for condensation generation, the main valve for heating 230 is closed to predict the occurrence of condensation in the heating line 200. It prevents the fluid cooled below temperature from flowing.

To this end, the present embodiment includes a plurality of temperature controllers 310 performing a function of setting a desired temperature and a function of measuring a temperature of a corresponding space; The first control unit 321 for controlling the amount of fluid flowing to the heating line 200 by adjusting the opening amount of the proportional control valve provided in the water exchanger according to the temperature set by the temperature controller 310 and the measured temperature, and ; It further includes a control unit 300 including a second control unit 322 for controlling the opening and closing of the heating main valve 230 according to the temperature of the fluid measured by the temperature sensor 231.

The temperature controller 310 is a means that is independently installed in each partitioned space to set a desired temperature and to measure the temperature of the corresponding space.

The first control unit 321 includes a heating main valve 230 and a cooling main valve 130 provided in the heating line 200 and the cooling line 100 according to the temperature set by the temperature controller 310 and the measured temperature. By controlling the opening/closing and opening amount of, the flow of the fluid and the amount of flow are controlled.

The second control unit 322 is a heating main unit according to the temperature of the fluid flowing to the heating line 200 measured by the temperature sensor 231 to prevent condensation from occurring due to the flow of the fluid cooled by the heating line 200. Opening and closing of the valve 230 is controlled.

For example, the second control unit 322 closes the heating main valve 230 when the temperature of the fluid measured by the temperature sensor 231 is less than the expected temperature for condensation generation, and the temperature sensor 231 When the temperature of the measured fluid is measured to be higher than the preset normal heating temperature, the heating main valve 230 is opened.

At this time, the expected temperature for condensation occurrence set in the second control unit 322 is preferably 15°C, and the normal heating temperature is 40°C. So, when the temperature of the fluid measured by the temperature sensor 231, that is, the temperature of the fluid flowing to the heating line 200 is measured to be less than 15°C, the heating main valve 230 is closed to the heating line 200. It blocks the flow of fluid below 15℃. Therefore, condensation is prevented from occurring by the fluid cooled in the heating line 200.

On the other hand, the second control unit 322 opens the heating main valve 230 when 180 hours elapse with the heating main valve 230 closed, flows the fluid for 15 seconds, and then again The heating main valve 230 is closed. Therefore, it is possible to prevent the heating main valve 230 from being fixed in a closed state.

In addition, when the temperature sensor 231 is not operated, the second control unit 322 closes the heating main valve 230 to eliminate the possibility that the fluid cooled to the heating line 200 may flow.

Next, the operation of the cooling and heating system according to an embodiment of the present invention configured as described above will be described.

In general, heating is carried out in the household in winter, and cooling is carried out in the household in summer. Accordingly, the heated fluid is supplied to the supply line 10 in winter, and the cooled fluid is supplied to the supply line 10 in summer.

So, when the user sets the desired temperature to the temperature controller 310 for heating in winter, normally higher than the temperature within the household, the heating main valve 230 opens and the heated fluid is supplied to the heating line 200 to circulate. To heat the floor in the household. The fluid that heated the floor in the household is returned through the water return line 20. At this time, the temperature of the fluid flowing in the heating line 200 is measured in real time by a temperature sensor. However, since the fluid flowing to the heating line 200 is above the normal heating temperature of 40° C., the second control unit 322 maintains the open state of the heating main valve 230 so that the heating line 200 operates normally. .

In addition, when the user sets the desired temperature to the temperature controller 310 for cooling in summer, normally lower than the temperature within the household, the cooling main valve 130 is opened and the cooled fluid is supplied to the cooling line 100. And heat exchange with the surrounding air to discharge the cooled air into the household. As the fluid exchanged with air is returned through the return line 20, the cooling line 100 is normally operated.

However, when the user attempted to set the desired temperature in the temperature controller 310 for cooling in summer, but the temperature controller 310 malfunctions and the set temperature is set higher than the temperature in the household, the cooling main valve 130 As the heating main valve 230 is opened without being opened, a problem in which the cooled fluid flows to the heating line 200 occurs.

When the fluid cooled by the heating line 200 flows, condensation may occur on the floor. However, in this embodiment, the temperature of the fluid flowing by the temperature sensor 231 provided in the heating line 200 is measured in real time and transmitted to the second control unit 322. So, if the temperature of the fluid flowing to the heating line 200 is determined to be less than or equal to 15° C., the second control unit 322 closes the heating main valve 230 to the heating line 200. It blocks the flow of the fluid cooled below the expected condensation temperature.

In this state, if the user checks the warning alarm displayed on the temperature controller 310 and corrects the temperature incorrectly input to the temperature controller, the cooling main valve 130 is opened and the cooled fluid is normally transferred to the cooling line. It is cycled.

In particular, when 180 hours elapse with the heating main valve 230 closed, the second control unit 322 opens the heating main valve 230 and flows the fluid for 15 seconds, and then again. The heating main valve 230 is closed. Therefore, it is possible to prevent the heating main valve 230 from being fixed in a closed state.

Although the present invention has been described with reference to the accompanying drawings and the above-described preferred embodiments, the present invention is not limited thereto, but is limited by the claims to be described later. Therefore, those of ordinary skill in the art can variously modify and modify the present invention within the scope of the technical spirit of the claims to be described later.

10: supply line 11: main supply pipe
12: sub supply pipe 20: return line
21: main return pipe 22: sub return pipe
100: cooling line 101: cooling supply pipe
102: return pipe for cooling 110: FCU
120: flow meter for cooling 130: main valve for cooling
200: heating line 201: heating supply pipe
202: heating return pipe 210: distributor unit
220: flow meter for heating 230: main valve for heating
231: temperature sensor 300: control unit
310: temperature controller 321: first control unit
322: second control unit

Claims (8)

A cooling and heating system for supplying a temperature controlled fluid by cooling or heating to a household partitioned into at least one space,
A supply line for supplying a fluid supplied by controlling a temperature from a heat source into the household;
A cooling line branched from the supply line to circulate the cooled fluid to the ceiling of the household;
A heating line branching from the supply line to circulate the heated fluid to the floor in the household;
And a return line for flowing the fluid returned in the cooling line and the heating line to a heat source,
The heating line is provided with a heating main valve that controls the flow of the fluid flowing to the heating line and a temperature sensor that measures the temperature of the flowing fluid, so that the temperature of the fluid measured by the temperature sensor is less than a preset expected condensation temperature. When measured as, the heating main valve is closed to prevent the fluid cooled below the expected temperature of condensation from flowing into the heating line.
The method according to claim 1,
The heating line,
A heating supply pipe branched from the supply line and through which the heated fluid flows;
A distributor unit including a supply distributor for distributing and flowing the fluid flowing from the heating supply pipe to the floor in the household, and a water exchange distributor for collecting the fluid flowing in the household;
And a heating return pipe for flowing the fluid returned by the distributor unit to the return line,
The heating main valve and the temperature sensor are installed at a rear end of the distributor unit, and opening and closing of the heating main valve is controlled according to the temperature of the fluid measured by the temperature sensor.
The method according to claim 2,
A plurality of temperature controllers performing a function of setting a desired temperature and a function of measuring a temperature of a corresponding space;
A first controller configured to control an amount of fluid flowing to the heating line by adjusting an opening amount of a proportional control valve provided in the water exchanger according to a temperature set by the temperature controller and a measured temperature;
The cooling and heating system further comprising a control unit including a second control unit for controlling the opening and closing of the heating main valve according to the temperature of the fluid measured by the temperature sensor.
The method of claim 3,
The second control unit closes the main valve for heating when the temperature of the fluid measured by the temperature sensor is below the expected temperature for condensation, and measures the temperature of the fluid measured by the temperature sensor above a preset normal heating temperature. The heating and cooling system, characterized in that opening (open) the main valve for heating.
The method of claim 4,
The expected temperature for condensation occurrence is 15°C,
The cooling and heating system, characterized in that the normal heating temperature is 40 ℃.
The method according to claim 2,
The second control unit opens the main valve for heating when 180 hours elapse in a state in which the main valve for heating is closed because the temperature of the fluid measured by the temperature sensor is measured below the expected temperature for condensation. A cooling/heating system, characterized in that after flowing the fluid for a second, the main valve for heating is closed again.
The method according to claim 2,
And the second control unit closes the main valve for heating when the temperature sensor is not operated.
The method of claim 3,
The cooling line,
A cooling supply pipe branching from the supply line and flowing the cooled fluid;
A fan coil unit (FCU) installed on the ceiling of the household to discharge air cooled by the fluid flowing from the cooling supply pipe into the household;
A cooling water return pipe for flowing the fluid returned from the FCU to the water return line;
And a cooling main valve installed on the cooling water return pipe and controlling the flow of fluid flowing to the cooling line under control of the first controller,
The cooling and heating system, wherein the first control unit controls the operation of the cooling main valve according to a temperature set by the temperature controller in controlling whether the main valve for cooling is opened or closed.

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