KR20090113111A - Automatic Cleaning Boiler for Pipe Laying and Method thereof - Google Patents

Abstract

PURPOSE: A boiler with an automatic pipe cleaning function and a method thereof are provided to easily clean the pipe using an input unit. CONSTITUTION: A boiler with an automatic pipe cleaning function comprises an input unit(10), an electronic unit(20), a three way valve(30), a bypass tube(40) and an inlet pipe(50). The input unit delivers a control signal to the electronic unit. The electronic unit delivers the control signal to three way valve from the input unit. The three way valve includes a first three way valve(31) and a second three way valve(33).

Description

Boiler with automatic pipe cleaning function and its method {Automatic Cleaning Boiler for Pipe Laying and Method

The present invention relates to a boiler, and more particularly to a boiler having an automatic pipe cleaning function by an input device.

Boilers are classified into various types according to the material, structure, use, ventilation method, operating pressure, water circulation method, fuel used, type of fluid and amount of evaporation. The boiler is usually made of steel, but there are also special cast iron boilers that produce low pressure steam for heating. The forced boiler is divided into cylindrical boiler and water tube boiler according to its structure.

A cylindrical pressure vessel is installed and installed as a vertical boiler, and the cylinder is installed sideways, and a furnace boiler, a smoke tube boiler, and, depending on the arrangement of the combustion chamber or the configuration of the heat transfer surface, It is classified as a smoke tube and flue boiler.

A water tube boiler is composed of a relatively small drum and many small diameter water pipes installed outside the drum to obtain a high pressure, large capacity steam. The boiler water in the water pipe evaporates heat from the hot gas outside the water pipe. . Water tube boilers are classified into natural circulation boilers, forced circulation boilers, and once through boilers according to the water supply circulation method.

On the other hand, the invention No. 10-0124929-0000 heating pipe cleaning device and method of the gas boiler in the method of cleaning the heating pipe of each room connected to the gas boiler, the pipe cleaning switch is turned on (ON) to make the three-way valve Blocking the heating water supply observation passage; Opening the supplementary water valve installed on the water supply pipe installed between the direct water supply pipe and the heating water supply pipe to supply direct water to the heating pipe, and all operations are manually performed, which is inconvenient for the user. In addition, there is a cost problem by requesting a professional cleaning equipment company for the previous pipe cleaning, and there is a problem that can not be cleaned often, and due to the aging of the pipe, heating and cost inefficient problems occur. do.

Therefore, there is a demand for the development of a boiler having an automatic cleaning function applicable to all fields of domestic gas boiler and oil boiler boiler.

Therefore, an object of the present invention is to provide a boiler device that can be easily cleaned by the user at any time by the automatic cleaning function by the input device.

However, the objects of the present invention are not limited to the above-mentioned objects, and other objects not mentioned will be clearly understood by those skilled in the art from the following description.

For this purpose, the present invention provides a boiler having an automatic pipe cleaning function as follows.

Boiler with automatic pipe cleaning function according to the present invention is input device 10, electronic unit 20, three-way valve 30, bypass pipe 40, inlet pipe 50, discharge pipe 60, heating inlet In the boiler including a pipe 70, a heating return pipe 80, a heating distributor 90, and an outlet 100, the input device 10 for transmitting a control signal to the electronic unit 20 according to the input ; The electronic unit 20 for transmitting the control signal input to the input device to the three-way valve 30; The first three-way valve 33 and the second three-way valve 35, and based on the control signal, the first three-way valve 31 is open to the outlet (100), the first The two-way valve 33 is open to the side of the by-bath pipe 40, the first three-way valve 31 closes the heating return pipe (CLOSE), the second three-way valve 33 is The three-way valve 30 to close the heating inlet pipe (CLOSE); It is formed in a structure connected to the water inlet 95 and the second three-way valve 33, the tap water input to the water inlet 95 is the second three-way valve 33 and the first three-way valve 31. The bypass pipe 40 to flow into the; It is formed in a structure connected between the heating distributor 90 and the second three-way valve 33, the tap water introduced into the water supply inlet 95 passes through the bypass pipe 40 and the second three-way valve 33 Inlet pipe (50) that is a passage flowing through; It is formed in a structure connected between the heating distributor 90 and the first three-way valve 31, the discharge pipe 60 is the foreign matter in the piping of each room through the process of opening and closing each valve through the heating distributor (90). A discharge pipe (60) which is a passage for cleaning and exiting the discharge port (100); A heating inlet pipe 70 which may be formed in a structure connected to the second three-way valve 33 and is a passage through which heating water is introduced; The heating return pipe 80 may be formed in a structure connected to the first three-way valve 31 and is a passage through which heating water flows through the heating pipe of each room through the heating distributor 90; The heating distributor 90 may be formed between the inlet pipe 50 and the discharge pipe 60, and controls the heating water flowing from the heating inlet pipe 70 flows into the heating pipe of each room; The water supply inlet 95 may be formed in a structure connected to the by-bath pipe 40, the tap water is introduced; And the first three-way valve 31 and a structure connected to the first three-way valve 31. After the tap water introduced into the water inlet 95 cleans the piping of each room, tap water containing foreign substances such as sludge and dirt is discharged to the outside. The outlet 100 may be a passage.

The heating distributor 90 may be characterized in that the cleaning tap water flowing from the water supply inlet (95) to flow into the heating pipe of each room.

The electronic unit 20 may include a processor / processor unit, and the communication between the input device 10 and the electronic unit 20 may be wireless communication such as infrared rays, Zigbee, Bluetooth, and UWB. It can be connected by wire.

For this purpose, the present invention provides a pipe cleaning method of a boiler having a pipe automatic cleaning function as follows.

Pipe cleaning method of the boiler having an automatic pipe cleaning function according to the present invention, receiving the control signal from the input device 10 and transmitting to the first three-way valve 31 and the second three-way valve 33; The first three-way valve 31 opens the outlet 100 and closes the heating and return pipe 80 according to the control signal; The second three-way valve 33 opens the bypass pipe 40 and closes the heating inlet pipe 70 according to the control signal; Tap water flowing from the water supply inlet (95) flows into the heating distributor (90) via the second three-way valve (33); The introduced tap water is discharged by cleaning the foreign matter in the pipe of each room through the process of opening and closing each room valve connected to the pipe of each room in the heating distributor (90); And the discharged tap water is discharged to the discharge port 100 through the first three-way valve 31.

The discharging step of cleaning the foreign matter in the pipes of each room may be characterized in that the discharge to the discharge pipe 60 through the heating distributor 90 after cleaning the foreign matter.

As described above, the boiler having the automatic pipe cleaning function according to the present invention, when the fixed object in the house, apartment heating pipe circulates for a long time, the water is decayed and the pipe is easily corroded to promote the aging of the heating circulation pump or the boiler life Provides the effect of solving the shortening problem.

In addition, it provides an effect of removing the cause of the leak of the boiler due to the aging of the boiler.

In addition, it is blocked by sludge and foreign substances in the pipe (Pipe) prevents the heating efficiency is lowered due to poor heating due to the circulation of water.

Hereinafter, a detailed description of a preferred embodiment of the present invention will be described with reference to the accompanying drawings. In the following description of the present invention, if it is determined that a detailed description of a related known function or configuration may unnecessarily obscure the subject matter of the present invention, the detailed description thereof will be omitted.

1 is a block diagram showing the configuration of a boiler having an automatic pipe cleaning function according to an embodiment of the present invention.

Referring to FIG. 1, a boiler having an automatic cleaning function includes an input device 10, an electronic unit 20, a three-way valve 30, a bypass pipe 40, an inlet pipe 50, a discharge pipe 60, and heating. It includes an inlet pipe 70, a heating return pipe 80, a heating distributor 90, and an outlet 100.

The input device 10 transmits a control signal to the electronic unit 20 according to the user's input. In an embodiment of the present invention, the input device 10 may be a remote controller as shown.

The input device 10 may be provided with a plurality of input buttons, the user can control the three-way valve 30 of the present invention by inputting a control signal to each input button.

In particular, a cleaning ON button and a cleaning OFF button may be provided, and the cleaning of the pipe may be started by the cleaning ON button.

In another embodiment of the present invention, the input device 10 may be replaced by a switch.

The electronic unit 20 has a structure connected to the three-way valve 30 by wire or wirelessly.

The electronic unit 20 may include a central processing unit (CPU) or a micro processor unit (MPU), and receives the control signal from the input device 10 and transmits the control signal to the three-way valve 30. .

Communication between the input device 10 and the electronic unit 20 may be a wireless communication such as infrared, Zigbee, Bluetooth, UWB, can also be connected by wire.

The three-way valve 30 is a three-way double acting valve, and may include a first three-way valve 31 and a second three-way valve 33.

When the three-way valve 30 is input to the cleaning ON button from the input device 10, the three-way valve 30 is converted into a control signal to start cleaning is received through the electronic unit 20.

Based on the control signal to start the cleaning, the first three-way valve 31 is open to the outlet 100 side, the second three-way valve 33 is open to the by-bath pipe 40 side.

At the same time, the first three-way valve 31 closes the heating return pipe 80 (CLOSE), and the second three-way valve 33 closes the heating inlet pipe 70 (CLOSE).

The transmission of the control signal between the electronic unit 20 and the three-way valve 30 is irrespective of wireless and wired communication. That is, not only wired lines such as telephone lines and LAN lines, but also Zigbee, Bluetooth, and UWB (Ultra-Wideband), which are short-range wireless communication, which are communication between the input device 10 and the electronic unit 20, may be used. have.

The bypass pipe 40 is formed in a structure connected to the water supply inlet 95 and the second three-way valve 33, the tap water input to the water supply inlet 95 is the second three-way valve 33 and the first three-way valve ( 31) to flow into.

Inlet pipe 50 may be formed of a structure connected between the heating distributor 90 and the second three-way valve (33). The inlet pipe 50 is a passage through which the tap water introduced into the water inlet 95 passes through the second three-way valve 33 through the bypass pipe 40. Through the inflow, the process of cleaning each room begins.

The discharge pipe 60 may be formed in a structure connected between the heating distributor 90 and the first three-way valve 31. The discharge pipe 60 is a passage for cleaning the foreign substances such as sludge and dirt in the pipe through the process of opening and closing each valve through the heating distributor 90 and exiting to the discharge port.

The heating inlet pipe 70 may be formed in a structure connected to the second three-way valve 33 and is a passage through which the heating water heated by the heating system (not shown) of the boiler is introduced.

The heating return pipe 80 may be formed in a structure connected to the first three-way valve 31 and is a passage through which heating water flows through the heating pipe of each room through the heating distributor 90.

The heating distributor 90 may be formed between the inlet pipe 50 and the discharge pipe 60, and may control the heating water flowing from the heating inlet pipe 70 to flow into the heating pipe of each room. In addition, the cleaning tap water flowing from the water supply inlet 95 can be controlled to flow into the heating pipe of each room.

The water supply inlet 95 may be formed in a structure connected to the by-bath pipe 40, and serves as a first inflow path through which tap water is introduced.

Discharge port 100 may be formed in a structure connected to the first three-way valve 31, after the tap water introduced into the water supply inlet (95) to clean the piping of each room, the tap water containing foreign substances such as sludge, dirt It serves as a passage to the outside.

 By the boiler system according to the present invention, the user can easily and automatically clean the boiler pipes, so that the maintenance cost is reduced and the pipe cleaning can be frequently performed without going through the cleaner. Thus, the boiler life is long and the room is warm and the cost of maintaining the gas or oil can be reduced.

2 is a block diagram illustrating a pipe cleaning method of a boiler having an automatic pipe cleaning function according to an embodiment of the present invention.

The user turns on the cleaning button in the input device 10 (S10).

The control device receives the control signal to turn on the cleaning (ON) from the input device 10 and transmits to the first three-way valve 31 and the second three-way valve 33 (S20).

According to the control signal, the first three-way valve 31 opens the outlet 100 and closes the heating return pipe 80 (S30).

In response to the control signal, the second three-way valve 33 opens the bypass pipe 40 side and closes the heating inlet pipe 70 side (S40).

After completion of steps S30 and S40, tap water flowing from the water supply inlet 95 is introduced into the heating distributor 90 through the second three-way valve 33 (S50).

The introduced tap water cleans the foreign substances such as sludge and dirt in the piping of each room through a process of opening and closing each room valve connected to the piping of each room in the heating distributor 90, and then discharge the tube 60 through the heating distributor 90. It is discharged to (S60).

The discharged tap water is discharged to the discharge port 100 via the first three-way valve 31 (S70).

After cleaning, the user turns off the input device cleaning button (S80).

By the method according to the present invention, it is blocked by sludge and foreign substances in the pipe (Pipe) prevents poor heating efficiency due to impaired circulation of water prevents the heating efficiency is lowered.

On the other hand, the present invention is applicable not only to boiler pipes, but also to facilities of public institutions such as upper and lower water pipes, as well as all fields using the pipe will be apparent to those skilled in the art.

The drawings and detailed description of the invention are merely exemplary of the invention, which are used for the purpose of illustrating the invention only and are not intended to limit the scope of the invention as defined in the appended claims or claims. Therefore, those skilled in the art will understand that various modifications and equivalent other embodiments are possible therefrom. Therefore, the true technical protection scope of the present invention will be defined by the technical spirit of the appended claims.

According to the present invention, the heating efficiency is increased, and as a consumer, the heating cost can be saved, and a warmer coma can be used.

The detailed description of each drawing is provided in order to provide a thorough understanding of the drawings cited in the detailed description of the invention.

1 is a block diagram showing the configuration of a boiler having an automatic pipe cleaning function according to an embodiment of the present invention.

2 is a block diagram illustrating a pipe cleaning method of a boiler having an automatic pipe cleaning function according to an embodiment of the present invention.

* Description of the symbols for the main parts of the drawings *

10: input unit (remote control) 20: electric unit

30: three-way valve 31: first three-way valve

33: second three-way valve 40: bypass pipe

50: inlet pipe 60: discharge pipe

70: heating inlet pipe 80: heating return pipe

90: heating distributor 95: water inlet

100: outlet

Claims (5)

Input device 10, electronic unit 20, three-way valve 30, bypass pipe 40, inlet pipe 50, discharge pipe 60, heating inlet pipe 70, heating return pipe 80, In the boiler comprising a heating distributor (90), and an outlet (100), The input device 10 for transmitting a control signal to the electronic unit 20 according to an input; The electronic unit 20 for transmitting the control signal input to the input device to the three-way valve 30; The first three-way valve 31 and the second three-way valve 33, and based on the control signal, the first three-way valve 31 is open to the outlet 100 side (OPEN), 2 the three-way valve 33 is open to the bypass pipe 40, the first three-way valve 31 closes the heating return pipe (CLOSE), the second three-way valve 33 is The three-way valve 30 to close the heating inlet pipe (CLOSE); It is formed in a structure connected to the water inlet 95 and the second three-way valve 33, the tap water input to the water inlet 95 is the second three-way valve 33 and the first three-way valve 31. The bypass pipe 40 to flow into the; It is formed in a structure connected between the heating distributor 90 and the second three-way valve 33, the tap water introduced into the water supply inlet 95 passes through the bypass pipe 40 and the second three-way valve 33 Inlet pipe (50) that is a passage flowing through;  It is formed in a structure connected between the heating distributor 90 and the first three-way valve 31, through the process of opening and closing each valve through the heating distributor 90 to clean the foreign matter in the pipe of each room and the outlet ( A discharge pipe 60 which is a passage to 100; A heating inlet pipe 70 which may be formed in a structure connected to the second three-way valve 33 and is a passage through which heating water is introduced; The heating return pipe 80 may be formed in a structure connected to the first three-way valve 31 and is a passage through which heating water flows through the heating pipe of each room through the heating distributor 90;  The heating distributor 90 may be formed between the inlet pipe 50 and the discharge pipe 60, and controls the heating water flowing from the heating inlet pipe 70 flows into the heating pipe of each room; The water supply inlet 95 may be formed in a structure connected to the by-bath pipe 40, the tap water is introduced; And It may be formed in a structure connected to the first three-way valve 31, after the tap water introduced into the water supply inlet (95) to clean the piping of each room, the discharge port which is a passage through which the tap water containing foreign matter is discharged to the outside 100; Boiler with automatic cleaning function, including. According to claim 1, wherein the heating distributor (90) Boiler with automatic cleaning function, characterized in that for controlling the flow of the cleaning tap water flowing from the water supply inlet (95) flows into the heating pipe of each room. The method of claim 1, wherein the electronic unit 20, It may include a processor unit (Processing / Processor Unit), Communication between the input device 10 and the electronic unit 20 may be a wireless communication such as infrared, Zigbee, Bluetooth, UWB, and can be connected by wire, boiler with an automatic cleaning function. Receiving a control signal from the input device 10 and transferring the control signal to the first three-way valve 31 and the second three-way valve 33; The first three-way valve 31 opens the outlet 100 and closes the heating and return pipe 80 according to the control signal; The second three-way valve 33 opens the bypass pipe 40 and closes the heating inlet pipe 70 according to the control signal; Tap water flowing from the water supply inlet (95) flows into the heating distributor (90) via the second three-way valve (30); The introduced tap water is discharged by cleaning the foreign matter in the pipe of each room through the process of opening and closing each room valve connected to the pipe of each room in the heating distributor (90); And The discharged tap water is the pipe cleaning method of the boiler having an automatic pipe cleaning function comprising the step of being discharged to the outlet 100 via the first three-way valve (31). According to claim 4, The step of discharging the cleaning of the foreign matter in the pipe of each room, After cleaning the foreign matter, the pipe cleaning method of the boiler with an automatic pipe cleaning function, characterized in that discharged to the discharge pipe (60) via the heating distributor (90).

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