KR102300746B1 - Boiler lined type system for protecting freeze and burst in water pipe - Google Patents

Abstract

The present invention relates to a water pipe freeze protection system. Specifically, according to the present invention, an electromagnetic valve is installed on a water supply pipe which supplies water to a boiler, and when the boiler is stopped, the electromagnetic valve is controlled at regular time intervals to open or close the water supply pipe. Therefore, freezing of a water pipe can be prevented. The water pipe freeze protection system of the present invention comprises: the boiler; the water pipe; the electromagnetic valve; a temperature sensor; and a controller.

Description

Boiler-linked water pipe freeze protection system {BOILER LINED TYPE SYSTEM FOR PROTECTING FREEZE AND BURST IN WATER PIPE}

The present invention relates to a water pipe freeze prevention system, and more particularly, by installing an electromagnetic valve on a water supply pipe that supplies water to a boiler, and controlling the electromagnetic valve at regular time intervals when the boiler is stopped to open the water supply pipe Or it relates to a boiler interlocking type water pipe freeze protection system that can prevent water pipe freezing by closing.

In general, when water (tap water) is not used, a certain amount of water (tap water) is present inside the water meter and the water pipe in a stagnant state. For this reason, when the temperature drops rapidly in winter, the water existing inside is frozen, and the water meter and water pipe are frequently frozen due to the pressure caused by the volume expansion of the frozen water.

As such, the freezing of water meters and water pipes in the cold winter season causes a lot of economic loss not only for individuals but also for the nation. In order to prevent this, the traditional method of wrapping a water meter or water pipe with clothes or a blanket to keep it warm has been mainly used.

This traditional method has a disadvantage in that it is not effective in preventing freezing of the water meter and water pipe due to the problem of thermal insulation when the external temperature is very low below -5 ℃. In addition, these days, due to the increase in single households, it is often not possible to take measures to prevent freezing when going out for a long time. Accordingly, in order to overcome the limitations of the traditional method, technologies for preventing freezing of the water pipe by providing heat to a water pipe (or a water supply pipe connected to the water pipe) have been recently proposed.

However, in the prior art techniques for preventing freezing of a water pipe by providing heat to a water pipe, it is virtually impossible to prevent freezing by heating the entire water flowing inside a water pipe connected to a relatively long length, and additional power is added to provide heat. In accordance with this demand, there is a problem in that a lot of power is lost unnecessarily and an additional power source needs to be installed, and there is a lot of risk of a fire accident due to this, and there is a problem that adversely affects the energy saving aspect.

KR 20-0488312 Y1, 2019. 01. 07. KR 20-0283380 Y1, 2002. 07. 12. KR 20-0230548 Y1, 2001. 05. 02.

Therefore, the present invention has been proposed to solve the problems of the prior art, by installing an electromagnetic valve on a water pipe connected to a boiler, and controlling the electromagnetic valve at regular time intervals when the boiler is stopped to repeatedly supply water in the water pipe at regular intervals An object of the present invention is to provide a boiler-linked water pipe freeze prevention system that can prevent freezing of a water meter and a water pipe by opening and closing the water pipe to discharge and flow the water in the water pipe.

The present invention according to one aspect for achieving the above object is a boiler; a water pipe connected to the boiler to supply water to the boiler; an electromagnetic valve installed in the water pipe to control the water supplied to the boiler; a temperature sensor that detects an external temperature; And it is installed in the boiler to control the operation of the boiler, and when the boiler is stopped, the electromagnetic valve is repeatedly opened and closed at predetermined time intervals according to the external temperature sensed by the temperature sensor to regulate the water flowing through the water pipe. It provides a boiler interlocking type water pipe freezing prevention system, characterized in that it comprises a controller.

Preferably, the controller increases the opening amount of the electromagnetic valve as the external temperature sensed through the temperature sensor is lower, while maintaining the open state of the electromagnetic valve longer than the closed state. .

Preferably, the controller comprises: a boiler driving unit for driving a combustion device constituting the boiler; a driving state detection unit for detecting the driving state of the boiler driving unit; And when the detection result of the driving state detection unit, the boiler driving unit is in a non-operating state, and the external temperature sensed through the temperature sensor is less than a set temperature, the valve for controlling the water pipe by repeatedly opening and closing the electromagnetic valve at regular time intervals It may be characterized in that it includes a control unit.

Preferably, a water supply pipe installed in the boiler, connected to the water pipe, supplies water supplied through the water pipe into the heat exchanger of the boiler, and an electromagnetic valve is installed on one side; and a pump operated by the controller when the boiler is stopped and bypassing the water supplied to the water supply pipe through the water pipe to a drain pipe installed in the boiler, wherein the controller is connected to the water pipe when the boiler is stopped The installed electromagnetic valve is opened, the electromagnetic valve installed in the water supply pipe is closed, and the pump is operated to bypass the water supplied from the water pipe to the water supply pipe to the drain pipe.

As described above, according to the boiler-linked water pipe freeze prevention system according to the present invention, an electromagnetic valve is installed on the water pipe connected to the boiler, and when the boiler is stopped, the electromagnetic valve is controlled at regular time intervals to repeatedly open and close the water pipe. This allows water to flow through the water pipe at regular intervals, thereby increasing the freezing point (freezing point) of the water to prevent freezing of the water meter and water pipe in advance.

1 is a conceptual diagram schematically illustrating a water pipe freezing prevention system according to an embodiment of the present invention.
FIG. 2 is a configuration diagram illustrating the configuration of the controller shown in FIG. 1; FIG.

Advantages and features of the present invention, and methods for achieving them, will become apparent with reference to the embodiments described below in detail in conjunction with the accompanying drawings. However, the present invention is not limited to the embodiments disclosed below, but will be implemented in various different forms.

In the present specification, the present embodiment is provided to complete the disclosure of the present invention, and to fully inform those of ordinary skill in the art to which the present invention pertains to the scope of the present invention. And the invention is only defined by the scope of the claims. Accordingly, in some embodiments, well-known components, well-known operations, and well-known techniques have not been specifically described to avoid obscuring the present invention.

Also, like reference numerals refer to like elements throughout the specification. In addition, the terms used (mentioned) in this specification are for the purpose of describing the embodiments and are not intended to limit the present invention. As used herein, the singular also includes the plural unless specifically stated otherwise in the phrase. In addition, elements and operations referred to as 'include (or include)' do not exclude the presence or addition of one or more other elements and operations.

Unless otherwise defined, all terms (including technical and scientific terms) used herein may be used with the meaning commonly understood by those of ordinary skill in the art to which the present invention belongs. Also, terms defined in commonly used dictionary are not to be interpreted ideally or excessively unless defined.

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

1 is a diagram schematically illustrating a water pipe freeze protection system according to an embodiment of the present invention.

Referring to FIG. 1 , the water pipe freeze protection system according to an embodiment of the present invention includes a boiler 1 installed for heating a building (house, office, etc.) and a boiler 1 connected to the boiler 1 to supply water to the boiler 1 It includes a water pipe (or water supply pipe) 2 for supplying water, and an electromagnetic valve 3 installed in the water pipe 2 connected to the boiler 1 to control the water supplied to the boiler 1 .

Boiler 1 is a heating boiler for heating a building, although there are some differences depending on the manufacturer and driving method, but basically, the main body (housing), combustion chamber, heat exchanger (heating/hot water heat exchanger), combustion device (burner), It includes a ventilation device, a pump, an automatic water replenishment valve, a detection sensor (gas, flame, etc.), a governor, a three-way motor, and the like, and a controller 10 for controlling them.

The boiler 1 receives water through a water pipe 2 and heats it to a predetermined temperature through a combustion device in the combustion chamber, and heats the heated hot water through a hot water discharge pipe 4a in each room, for example, a living room bathroom, It is supplied and discharged through a faucet installed in the bathroom or kitchen (sink). In addition, it is supplied to each room through the heating discharge pipe (4b) for heating of the building.

The water pipe 2 is a pipe body for supplying water to the boiler 1 by receiving water supplied from a water supply source to each home through a water meter (not shown), for example, the boiler 1 and the water pipe 2 An electromagnetic valve 3 for controlling the water supplied to the boiler 1 is installed therebetween.

This water pipe 2 is a pipe body directly connected to the water supply pipe leading into each building, and is not installed inside the building, such as a hot water discharge pipe 4a, a heating discharge pipe 4b, or a cold water pipe (not shown), but at least Some are installed outside the building and can freeze to the outside temperature.

The electromagnetic valve 3 is a solenoid valve, which is built in the boiler 1 and operates according to a control signal generated by the controller 10 for controlling the overall operation of the boiler 1 .

FIG. 2 is a configuration diagram illustrating the configuration of the controller shown in FIG. 1 .

1 and 2 , the controller 10 according to the present invention includes a boiler driving unit 11 for driving a combustion device constituting the boiler 1 and a driving state for detecting the driving state of the boiler driving unit 11 . It includes a detection unit 12 and a valve control unit 13 for opening and closing the electromagnetic valve 3 at regular time intervals for a set time according to the detection result of the driving state detection unit 12 .

The valve control unit 13 controls the electromagnetic valve 3 according to the detection result of the driving state detection unit 12 . That is, the valve control unit 13 repeatedly opens and closes the electromagnetic valve 3 at regular time intervals for a preset time through a timer when the boiler driving unit 11 is in a non-operational state, that is, during the idle period, and the boiler through the water pipe 3 (1) Control the water supplied to the house.

At this time, the non-operational state of the boiler driving unit 11 means the state in which the operation of the boiler 1 is stopped, that is, the idle period. No more water is supplied to the boiler (1) through the

As such, during the rest period when the operation of the boiler 1 is stopped, water is not supplied from the water pipe 3 to the boiler 1 , so that water is not circulated through the water pipe 3 connected to the boiler 1 . Accordingly, when the temperature suddenly drops during the idle period of the boiler 1, the water stagnant in the water pipe 3 is frozen inside as it is, causing a problem in that the water pipe 3 is frozen.

Therefore, in the present invention, the opening and closing operation of the electromagnetic valve 3 is controlled through the valve control unit 13 of the controller 10 that controls the operation of the boiler 1 during the idle period of the boiler 1 to control the opening and closing operation of the electromagnetic valve 3 in the water pipe 3 . In (1), water is repeatedly supplied or cut off at regular time intervals.

The valve control unit 13 is installed on the outside of the boiler 1 or outside a building (house, etc.) to control the opening/closing time of the electromagnetic valve 3 in response to the temperature sensed through the temperature sensor 5 that measures the external temperature. It is possible to minimize unnecessary opening/closing operation of the electromagnetic valve 3 by controlling differently.

The temperature sensor 5 is a sensor that detects a change in temperature, is installed outside the boiler body of the boiler 1 or outside the building, detects the external temperature, and transmits it to the valve control unit 13 .

On the other hand, the valve control unit 13 opens or closes the electromagnetic valve 3 repeatedly at set predetermined time intervals during the idle period of the boiler 1 . At this time, the opening time or closing time of the electromagnetic valve 3 may be set differently according to the external temperature sensed by the temperature sensor 5 .

For example, when the external temperature sensed by the temperature sensor 5 is zero (0°C or higher), the opening time of the electromagnetic valve 3 is set to be short, and the closing time is set to be relatively long.

In addition, when the external temperature sensed by the temperature sensor 5 is below zero (0°C or less), the opening time of the electromagnetic valve 3 is long, and the closing time is relatively short.

The reason is that when the external temperature is zero, the possibility of freezing of the water pipe 3 is low, and when the external temperature is below zero, the possibility of freezing of the water pipe 3 is relatively high.

In addition, the opening/closing time of the electromagnetic valve 3 may be set on the basis of minus 5°C (or 10°C) with a high possibility of freezing the water pipe. At minus 5°C or higher, the opening time of the electromagnetic valve 3 is set to be short, and the closing time is set to be relatively long. And, below -5 ℃, the opening time of the electromagnetic valve 3 is long, and the closing time is set relatively short.

In addition, in the present invention, the opening and closing operation period of the electromagnetic valve 3 may be set differently depending on the external temperature. For example, when the external temperature is less than -5 ℃, the opening and closing operation and closing operation cycle of the electromagnetic valve 3 can be set shorter than that at -5 ℃ or more.

On the other hand, as shown in Figure 1, the electromagnetic valve (3) is opened during the idle period of the boiler (1) so that water is not supplied to the inside of the heat exchanger of the boiler (1), the electromagnetic valve (7a) is installed in the water supply pipe (1a) can be installed have. At this time, the electromagnetic valve 7a consists of a solenoid valve, for example.

In order to prevent the water stagnant in the water pipe (3) from freezing, when the temperature detected by the temperature sensor (5) falls below the set temperature detected by the temperature sensor (5) during the idle period of the boiler (1), by the valve control unit (13) of the controller (10) The electromagnetic valve 3 is opened, and at the same time, the electromagnetic valve 7a is automatically closed through the valve control unit 13, and the pump 6 provided in the boiler 1 is operated to the inside through the water pipe 3 The supplied water is discharged by bypassing the drain pipe 4c.

During the idle period of the boiler (1), the electromagnetic valve (3) is automatically opened and closed according to the external temperature sensed through the temperature sensor (5) to discharge the water stagnated in the water pipe (2) to the outside through the drain pipe (4c) to the outside of the water pipe By allowing water to flow at regular intervals through (2), it is possible to prevent the water meter and water pipe from being frozen by increasing the freezing point (freezing point) of water.

On the other hand, the electromagnetic valve 3 installed in the water pipe 2 can open and close the water pipe 2 , while controlling the amount of water flowing through the water pipe 2 . Accordingly, the controller 10 may adjust the opening amount of the electromagnetic valve 3 according to the external temperature sensed through the temperature sensor 5 .

For example, as the external temperature measured by the temperature sensor 5 is lower, the opening amount of the electromagnetic valve 3 is increased to increase the amount of water flowing through the water pipe 2 . On the other hand, as the external temperature is higher, the amount of opening of the electromagnetic valve 3 may be decreased to reduce the amount of flowing water.

That is, when the external temperature measured by the temperature sensor 5 is less than the set temperature, the opening amount of the electromagnetic valve 3 is maximized, and when it is higher than the external temperature measured by the temperature sensor 5, the opening amount of the electromagnetic valve 3 is minimized by minimizing unnecessary waste of water. On the other hand, it is possible to prevent the water meter and water pipe from freezing in advance by adjusting the freezing point (freezing point) of water according to the external temperature.

As such, in the water pipe freezing prevention system according to the embodiment of the present invention, the opening timing and opening amount of the electromagnetic valve 3 installed in the water pipe 2 are automatically controlled through the controller 10 of the boiler 1 according to the external temperature. By doing so, it is possible to prevent the water meter and water pipe from being frozen in advance by increasing the freezing point of water when the boiler 1 is stopped.

As described above, the technical idea of the present invention has been specifically described in the preferred embodiment, but the preferred embodiment is for the purpose of explanation and not for limitation. As such, those of ordinary skill in the art will be able to understand that various embodiments are possible through combination of embodiments of the present invention within the scope of the technical spirit of the present invention.

1: Boiler
2: water pipe
3, 7a: Solenoid valve (solenoid valve)
4a: hot water discharge pipe
4b: heating exhaust pipe
4c: drain pipe
5: temperature sensor
6: pump
10: controller
11: Boiler driving part
12: driving state detection unit
13: valve control unit

Claims (4)

Boiler;
a water pipe connected to the boiler to supply water to the boiler;
an electromagnetic valve installed in the water pipe to control the water supplied to the boiler;
a temperature sensor that detects an external temperature; and
Installed in the boiler to control the operation of the boiler, and to control the water flowing through the water pipe by repeatedly opening and closing the electromagnetic valve at a set time interval according to the external temperature sensed by the temperature sensor when the boiler is stopped controller; including,
a water supply pipe installed in the boiler, connected to the water pipe, supplying water supplied through the water pipe into the heat exchanger of the boiler, and having an electromagnetic valve installed on one side; and
a pump operated by the controller when the boiler is stopped to bypass the water supplied to the water supply pipe through the water pipe to a drain pipe installed in the boiler; further comprising,
The controller opens the electromagnetic valve installed in the water pipe when the boiler is stopped, closes the electromagnetic valve installed in the water supply pipe, and operates the pump to bypass the water supplied from the water pipe to the water supply pipe to the drain pipe Boiler-linked water pipe freeze protection system, characterized in that.
The method of claim 1,
The controller increases the opening amount of the electromagnetic valve as the external temperature sensed through the temperature sensor is lower, while maintaining the open state of the electromagnetic valve longer than the closed state. prevention system.
The method of claim 1,
The controller is
a boiler driving unit for driving a combustion device constituting the boiler;
a driving state detection unit for detecting the driving state of the boiler driving unit; and
As a result of the detection of the driving state detection unit, when the boiler driving unit is in a non-operational state and the external temperature sensed through the temperature sensor is less than a set temperature, the valve control unit controls the water pipe by repeatedly opening and closing the electromagnetic valve at regular time intervals. ;
Boiler interlocking water pipe freezing prevention system comprising a.
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