KR20070079968A - Hot water circulation system - Google Patents

Abstract

A hot water circulation system is provided to maximize the circulation efficiency by arranging two boiler and two water tanks and one hot water supply pipe and one flow pipe and driving the boilers in a time-division manner. A hot water circulation system includes a boiler(14) and a heating portion(40) connected to the boiler. The boiler includes a heater(18) and a discharge pipe(26). The heater is connected to a controller. The discharge pipe discharges heated water to the heating portion. A water tank(32) is mounted at a peripheral portion of the boiler. An introduction pipe(30) is mounted at one side of the water tank and introduces circulated water. A water storage chamber(36) stores the introduced circulated water. A cover(34) is formed at an upper portion of the water storage chamber. A connecting pipe is installed between the discharge pipe and the introduction pipe.

Description

Hot water circulation system

The present invention relates to a hot water boiler, and more particularly, the pressure in the boiler is expanded by the hot water heated in the boiler, and the boiler is condensed after the hot water is discharged. Because the pump is discharged to the pipe mounted on the heating body without the operation of the circulation pump, the circulated water is allowed to flow back into the boiler, and the bellows-type water storage chamber is closed and operated in a sealed state so that the initial operation is prepared. Since there is no water replenishment other than the time, it is related to a hot water circulation system which is not only easy to maintain, but also because the pump is not circulated, and thus the convenience is increased because no noise is generated.

In general, a boiler is a mechanism that heats circulating water with a heat source obtained therefrom using gas, oil, electric heaters, and the like, and uses variously generated hot water.

In particular, in the boiler system used for heating, the boiler body and the hot water provided by the boiler body are composed of a room or a mat in which pipes are circulated and flow.

At this time, a circulation pump is provided to allow the hot water to flow smoothly through the pipe. The installation of the circulation pump not only reduces the space utilization, but also has a problem in that it is not suitable for a small hot water mat due to vibration noise of the pump motor.

Accordingly, a hot water mat without a circulation pump is provided. The Korean Utility Model Registration No. 0309547 registered under the name of "No-power forced circulation hot water mat using heat energy" and "No-power forced circulation device using heat energy and hot water mat using it" Publication No. 10-2004-0018782, published under the title, was prepared.

However, the configuration of the hot water mat according to the prior art basically limited the water tank for storing the circulating water by the expansion of the hot water in the boiler to be located at the top of the boiler body. Thus, the water inside the water tank is entirely dependent on the water pressure of the water. Since it is supplied to the boiler main body, the dropping noise of water as well as the control of the heater provided in the boiler are simply turned on / off or the valve is opened or closed by simply applying a one-way check valve using a spring operation and a pressure change in the circulation system. If it is not controlled at a certain temperature, the hot water circulation may not be possible due to overheating or temperature increase.

In addition, the former causes excessive steam pressure due to overheating, and the steam flows rapidly through the hot water pipes in the mat, and bubbles are formed in the hot water, and abnormal noise and fluctuation of the hot water generated by the flow of the formed bubbles cause the user to be uncomfortable. There may be a problem, in the latter case, when the hot water temperature in the boiler is too low, the circulation of the hot water is significantly reduced.

Therefore, the present invention has been made to solve the problems according to the prior art as described above, the object of the present invention is to expand the pressure in the boiler by the hot water heated in the boiler, the boiler is condensed after the hot water is discharged Simultaneously with this process, the bellows type water storage chamber is also expanded and contracted. Therefore, the bellows type water storage chamber lid can be discharged to the pipe mounted on the heating body and the circulated water can be returned to the boiler without the operation of the circulation pump. Because it operates in a closed and closed state, there is no water replenishment except when preparing for the first operation, so it is easy to maintain and provides a hot water circulation system that can increase convenience by not generating noise because it is not pump circulation. There is.

The above object is achieved by the present invention, according to an aspect of the present invention, the hot water circulation consisting of a boiler for heating the water, and a heating body connected to enter the boiler by circulating a pipe containing the hot water heated in the boiler. In the system, the boiler is equipped with a heater connected to the controller, the discharge pipe for discharging the heated hot water to the heating body is mounted on one side, a water inlet is formed in a predetermined upper portion, the hot water tank mounted to the periphery of the boiler In one side, the inlet pipe for introducing the circulating water discharged through the heating body is mounted on one side, the inlet circulating water is stored and the upper lid is formed for the purpose of filling the boiler and the heating body when preparing for the first operation Bellows-type water reservoir is built-in, and valve is connected between the discharge pipe and the inlet pipe Characterized in that this is installed.

At this time, when the hot water circulation system fills water in the boiler and the heating element during the initial operation, one end of the hot water circulation system is opened for the purpose of easily injecting water and the other end is located at the upper part of the boiler. An air discharge pipe located in the lower portion of the boiler through the boiler and a cap for opening and closing the lower end of the discharge pipe.

According to another aspect of the present invention, a hot water circulation system consisting of a boiler for heating water and a heating body connected to circulate a pipe containing hot water heated in the boiler to be introduced into the boiler, the boiler is connected to a controller. A discharge pipe for discharging the heated hot water to the outside is mounted on one side, and an inlet pipe for introducing the circulating water discharged through the heating body is mounted on one side in the water tank mounted on the periphery of the boiler. The connection part of the connection pipe connected to the discharge pipe and the water tank is characterized in that the control valve for controlling the opening and closing of the hot water supply pipe that is the passage of the hot water supplied to the heating body is installed.

According to the above configuration, the pressure in the boiler is expanded by the hot water heated by the boiler, and the boiler is condensed after the hot water is discharged, and at the same time, the bellows-type water storage chamber is also expanded and contracted. This makes it possible to discharge the pipes mounted on heating elements such as mats without the operation of the circulation pump, to allow the circulated water to flow back into the boiler, and to operate in a closed state because the bellows-type water storage chamber lid is closed. Since it is not necessary to replenish water except when preparing for operation, it is easy to maintain and not pump circulation, so noise does not occur, thereby increasing convenience.

DETAILED DESCRIPTION Hereinafter, the most preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art can easily practice the present invention. In describing the present invention, the same reference numerals will be used for the same parts throughout the drawings.

1 is a schematic configuration diagram of a hot water circulation system according to a preferred embodiment of the present invention, Figure 2 is a schematic perspective view of the hot water circulation system according to FIG.

As shown in FIG. 1, the hot water circulation system according to the present invention, which is indicated by reference numeral 10, circulates a boiler 14 for heating water and a pipe in which hot water heated in the boiler 14 is embedded, and then again, It consists of a heating body 40 connected to enter the boiler (14).

Here, the heating element refers to a product for a similar purpose, such as a mat, sleeping bag, blanket, and on-bed with a tube or pipe.

The boiler 14 is equipped with a heater 18 connected to the controller 20 and the discharge pipe 26 for discharging the heated hot water to the heating body 40 is mounted on one side.

In the water tank 32 mounted to the periphery of the boiler 14, an inlet pipe 30 for introducing the circulating water discharged from the heating body 40 is mounted on one side, and the water into which the circulating water is stored. The storage compartment 36 has a lid 34 for filling water to the boiler and the heating body 40 in preparation for the initial operation, and is provided in a bellows shape.

Therefore, as the water heated by the heater 18 of the boiler 14 rises in temperature, the pressure in the boiler expands, and after the heated water passes through the discharge pipe 26 and the heating body 40, the circulating water is stored in the storage compartment. When inlet, the connector valve 38 is closed and the inlet valve 28 is open.

Thereafter, the bellows is expanded by the pressure of the circulating water, and the boiler 14 is cooled while the circulating water stays in the reservoir 36 for a while, and the boiler 14 is cooled by the pressure drop due to the heat of condensation. 14) and the inlet pipe valve 28 between the storage compartment 36 and the connection pipe valve 38 when the circulating water of the storage compartment 36 is introduced into the boiler 14 while the storage compartment 36 The bellows will contract.

That is, the bellows type water reservoir is installed between the discharge pipe 26 and the inlet pipe 30, and a connection pipe 24 equipped with a connection valve valve 38 that provides a function so that fluid flows in one direction. The circulating water of 36 is supplied to the boiler 14 through the connecting pipe 24, and the inlet pipe valve 28 is closed at this time.

In addition, it is preferable that a certain portion of the inlet pipe 30 spaced apart from the connecting pipe 24 is equipped with an inlet pipe valve 28 that provides a function so that fluid flows in one direction. It will be readily apparent to those skilled in the art that the above valve can be mounted at a certain portion of 26).

In addition, it will be apparent to those skilled in the art that the hot water circulation system can be easily operated by controlling the direction of the fluid using the connecting pipe valve and the inlet pipe valve as one body as shown in FIG. 3.

In addition, the inlet and outlet pipes 30 and 26 are preferably equipped with a connector to be easily attached to and detached from the pipe of the heating body 40, the controller 20 is the temperature of the heater 18 By operating the temperature sensor to control the power of the boiler heater 18 is operated.

In the hot water circulation system 10, one end of which the end is opened to discharge the air of the boiler 14 is located at an upper predetermined position in the boiler 14, and the other end of the bent portion passes through the boiler 14. By providing the air discharge pipe 12 located in the lower portion of the boiler 14, the bent end is provided with a cap 16 for opening and closing the air discharge pipe 12.

Looking at the operation according to the above configuration of the subject innovation is as follows.

First, the water is expanded until the circulating water stored in the boiler 14 is heated by the heater 18 to reach the boiling point of the water, and the heated hot water is supplied to the heating body 40 through the discharge pipe 26. Done.

Thereafter, the hot water introduced into the heating body 40 is circulated through the pipe in the heating body to flow into the water tank 32 through the inlet pipe 30, and the bellows type by the circulating water continuously introduced. The water storage chamber 36 is expanded upward.

When the heating of the heater 18 is stopped by the operation of the controller 20, the discharge of the hot water supplied to the heating body 40 is temporarily stopped after a certain time, thereby causing the expanded water storage chamber 36 to contract. .

Therefore, when the water in the water storage chamber 36 flows into the boiler 14 through the connecting pipe 24 and the heater 18 is reheated, the hot water in the boiler 14 passes through the discharge pipe 26. As it goes through a circulation process supplied to the heating body 40, no additional water replenishment is required.

However, in order to discharge the air in the boiler 14, a water inlet or the like may be formed in the upper portion of the boiler 14 to supply water therethrough, and the water supplied is primarily filled with water from the inside of the boiler 14. The water is gradually supplied to the water is supplied to a predetermined position of the boiler 14 and the water is discharged to the air discharge pipe 12 can be easily discharged to the remaining air in the boiler (14).

At this time, when the air is discharged by using the cap 16, the air bleeding operation can be easily performed by closing the cap 16 after the air discharge is finished.

3 is a schematic diagram of a hot water circulation system according to another embodiment of the present invention.

According to the embodiment of Figure 3 according to the hot water circulation system according to the reference numeral 50 is a boiler 54 for heating the water, the hot water heated in the boiler 54 is circulated in the boiler 54 by circulating It consists of a heating body 40 connected to be introduced.

The boiler 54 is equipped with a heater 56 connected to the controller 58, the discharge pipe 60 for discharging the heated hot water to the outside is mounted on one side, the water tank (mounted to the periphery of the boiler 54) 68 is mounted on one side of the inlet pipe 72 for introducing the circulating water discharged from the heating body 40.

In this case, those skilled in the art will readily appreciate that the water tank 68 may be equipped with a bellows-type water storage chamber in which the inflowing circulating water is stored and a lid is formed on the upper portion of the water tank 68.

In addition, the water tank 68 is formed with a communication port with an open top, and the temperature or the water level sensor 70 is mounted on one side so that the capacity and temperature of the water stored in the water tank 68 can be seen from the outside.

And a control valve 62 for controlling the opening and closing of the hot water supply pipe 64 which is a passage of the hot water supplied to the heating body 40 in the connection portion of the connection pipe 66 connected to the discharge pipe 60 and the water tank 68. ) Is installed.

The control valve 62 is connected to the water tank 68 when the hot water of the boiler 54 is discharged to the heating body 40 through the discharge pipe 60 and the hot water supply pipe 64 at a predetermined temperature. The pipe 66 is closed, and the hot water supply pipe 64 is closed by the temperature of the water tank 68 or the signal of the water level sensor 70, and the connecting pipe 66 and the discharge pipe 60 communicate with each other. It will perform the function.

Therefore, while the circulating water stored in the boiler 54 is heated by the heater 56 to reach the boiling point of the water, the water expands and the heated hot water is discharged through the discharge pipe 60 and the hot water supply pipe 64. 40).

At this time, the control valve 62 is in communication with only the discharge pipe 60 and the hot water supply pipe (64).

Thereafter, the hot water introduced into the heating body 40 circulates the pipe in the heating body and flows into the water tank 68 through the inlet pipe 72, and when the water level reaches a certain level or reaches a certain temperature, The control valve 62 blocks the hot water supply pipe 64 and communicates the discharge pipe 60 and the connection pipe 66 by the detection of the water level and the temperature sensor 70.

Accordingly, when the water in the water tank 68 is introduced into the boiler 54 through the connecting pipe 66 and the heater 56 is reheated, the hot water in the boiler 54 is discharged from the discharge pipe 60 and the hot water supply pipe. As it passes through the circulation process supplied to the heating body 40 through 64, continuous circulation of hot water is possible without additional water replenishment.

4 and 5 is a schematic configuration diagram of a hot water circulation system according to another embodiment of the present invention.

The embodiment according to FIG. 4 is a configuration in which the boiler and water tanks are continuously mounted in the embodiment according to FIG. 3. The hot water circulation system 100 includes two boilers 54 and two water tanks 68. And by forming one hot water supply pipe 64 and the inlet pipe 72 is to maximize the circulation efficiency of the hot water.

That is, by activating two or more boilers 54 with a time difference, the circulating water after the first boiler heating is continuously operated for the purpose of continuously operating the recirculating hot water circulation system after the temporary stop of the hot water circulation in FIG. 3. By preheating the second boiler during the time of stay can eliminate the time that the hot water circulation is stopped can maximize the hot water circulation efficiency.

In this case, those skilled in the art will readily know that the hot water supply pipe 64 and the inlet pipe 72 may be separated and the heating body 90 may be separated to maximize the circulation efficiency of the hot water. .

1 is a schematic diagram of a hot water circulation system according to an embodiment of the present invention.

2 is a schematic perspective view of the hot water circulation system according to FIG. 1;

Figure 3 is a schematic diagram of a hot water circulation system according to another embodiment of the present invention.

4 and 5 is a schematic configuration diagram of a hot water circulation system according to another embodiment of the present invention.

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

10: hot water circulation system, 12: air discharge pipe,

14: boiler, 16: cap,

18: heater, 20: controller,

24: connector, 26: discharge pipe,

28: inlet pipe valve, 30: inlet pipe,

32: water tank, 36: bellows type water reservoir,

38: connector valve, 40: heating element

Claims (10)

In the hot water circulation system consisting of a boiler for heating water and a heating body connected to enter the boiler by circulating a pipe containing the hot water heated in the boiler, The boiler is equipped with a heater connected to the controller and the discharge pipe for discharging the heated hot water to the heating body is mounted on one side; In the water tank mounted at the periphery of the boiler, an inlet pipe for introducing the circulating water discharged through the heating body is mounted on one side, and the inflowing circulating water is stored and a bellows-shaped water having a lid formed thereon. A storage compartment is built in; Hot water circulation system, characterized in that the connection pipe is installed between the discharge pipe and the inlet pipe. The hot water circulation system of claim 1, wherein one end of the hot water circulation system includes an air discharge pipe positioned at an upper predetermined portion of the boiler and the other end penetrated through the boiler, and a cap opening and closing the lower end of the discharge pipe. Hot water circulation system, characterized in that. The hot water circulation system according to claim 1, wherein a valve is mounted at a portion of the inflow pipe spaced apart from the connection pipe by a predetermined distance. In the hot water circulation system consisting of a boiler for heating water and a heating body connected to enter the boiler by circulating a pipe containing the hot water heated in the boiler, The boiler is equipped with a heater connected to the controller and the discharge pipe for discharging the heated hot water to the outside is mounted on one side; In the water tank mounted to the periphery of the boiler, an inlet pipe for introducing the circulating water discharged through the heating body is mounted on one side; And a control valve for controlling opening and closing of a hot water supply pipe, which is a passage of hot water supplied to the heating element, is installed at a connection portion of the connection pipe connected to the discharge pipe and the water tank. The hot water circulation system according to claim 4, wherein the water tank is provided with a bellows-type water storage chamber in which the incoming circulating water is stored and a lid is formed at an upper portion thereof. The hot water circulation system according to claim 4, wherein the water tank has a communication port formed at an upper predetermined portion, and a temperature or a water level sensor is mounted at one side thereof. The water valve of claim 4, wherein the control valve closes the connection pipe of the water tank when the hot water of the boiler is discharged to the heating body through the discharge pipe and the hot water supply pipe at a predetermined temperature. Closing the hot water supply pipe by the signal of the temperature sensor of the hot water circulation system, characterized in that to perform the function of communicating with the connection pipe and the discharge pipe. The hot water circulation system according to claim 4, wherein the control valve is configured to open and close and control hot water discharge and inflow of circulating water in a valve having a single body. The hot water circulation system of claim 4, wherein the hot water circulation system is provided with two or more boilers and water tanks to supply hot water to the heating body so that the hot water supply is continuously supplied without stopping the one of the discharge pipe and the inlet pipe. Hot water circulation system, characterized in that to improve the circulation efficiency. The hot water circulation system of claim 4, wherein the hot water circulation system is provided with at least two boilers and water tanks to supply hot water to the heating elements, and at least two discharge pipes and inlet pipes to simultaneously supply hot water to a plurality of heating elements. Hot water circulation system, characterized in that to be able to effectively heat a large area.

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