KR200194661Y1 - a heating water auto-supply appartus in boiler - Google Patents

Abstract

The present invention relates to an automatic refilling device for heating water of a boiler, wherein a water supply pipe 5 of a hot water supply line is branched to form a replenishment water pipe 10, and the solenoid valve 11 is installed in the replenishment water pipe 10. In the boiler equipped with a controller (13) for controlling the operation of the solenoid valve (11), a low water level sensor (14) is provided on the upper part of the heat exchanger (1), and the low water level sensor (14) is connected to the controller (13). When the heating water is insufficient in the heat exchanger (1) connected to the controller 13 is to open the solenoid valve 11 can be quickly replenishing the heating water is to be shortened the commissioning time.

Description

Heating water auto-supply appartus in boiler}

The present invention relates to an automatic refilling device for heating water in a boiler, and in particular, heating of a boiler that can prevent an increase in commissioning time due to a lack of smooth circulation of heating water by air existing in a heat exchanger during initial commissioning. The present invention relates to a water automatic supplement device.

Boilers provided in each home for heating in winter and using hot water as household water are connected to the heating and hot water lines exposed to the boiler installation location after the plumbing work is completed in the construction of the house. Check the normal operation.

Meanwhile, in the conventional boiler, as shown in FIG. 1, a heating supply pipe 2 and a heating return pipe 3 are connected to a heat exchanger 1, and the heating supply pipe 2 circulates forcibly circulating heating water. A pump 4 is installed, and a water supply pipe 5 and a hot water supply supply pipe 7 are connected to the heat exchanger 1 to supply a hot water supply line, that is, a separate line from the piping line. The supply pipe 7 is connected to a heat exchanger 6, which is a coil-shaped pipe line for effective heat exchange in the heat exchanger 1, and on the outside of the heat exchanger 1 can accommodate a volume increase of heating water during heating. Expansion tank (8) is provided, which is connected to an expansion pipe (9) at the top of the heat exchanger (1), while the water supply pipe (5) is branched to form an interior of the heat exchanger (1). Replenishment water pipe 10 is connected to the installation, the solenoid valve 11 is installed in the replenishment water pipe 10, the solenoid valve 11 is provided in the expansion tank (8) The complex consists of a structure in which operation is controlled by a controller 13 connected to the low water level sensor 12 for sensing a low water level in the expansion tank (8).

Therefore, while the heating water circulates through the heat exchanger (1), the heating supply pipe (2), each heating line, the heating return pipe (4), the heating of the house is made, and the hot water supplied to the water supply pipe (5) is a heat exchange unit ( 6) the user is allowed to use hot water by being heated through heat exchange with the heating water and then discharged through the hot water supply pipe (7), and the heating water expanded by the heating of the burner is expanded through the expansion pipe (9). If the volume is lowered and the volume decreases, the boiler is returned to the heat exchanger 1 so that the boiler can be operated smoothly without pressure increase.

In addition, as time passes, the capacity of the heating water decreases naturally due to evaporation. When the water level drops below the low level sensor 12 in the expansion tank 8, the solenoid valve 11 is opened by the controller 13. Opening is made so that the water supply is made into the heat exchanger (1) through the supplemental water pipe (10) is made to supplement the heating water.

However, in the conventional boiler as described above, as in the initial start-up shown in FIG. 1, the heating water level of the heat exchanger 1 is located below the inlet of the heating supply pipe 2, but the water level of the expansion tank 8 is a low water level sensor. When it is above (12), the controller 13 does not operate the solenoid valve 11 in spite of the need for replenishment of the heating water, so that the replenishment of the heating water is not made.

Therefore, during the initial operation, since the air above the water surface WL in the heat exchanger 1 is not easily discharged, a large amount of air flows into the circulation pump 4 so that smooth circulation of the heating water is not achieved. There was a problem that the trial run time is delayed and increased because air must be drawn out through the air cock installed on the line while circulating.

The present invention has been devised to solve the above problems, even though the heating water supplement of the heat exchanger is required, even when the water level of the expansion tank is higher than the low water level sensor to supplement the heating water, the heating to the heat exchanger is not made. Automatic replenishment of the heating water of the boiler, which allows quick replenishment of the heating water to a position higher than the inlet of the heating supply pipe so that no air flows into the circulation pump during initial operation, thereby enabling quick and smooth commissioning. The purpose is to provide.

1 is a configuration diagram of a boiler to which a conventional automatic heating water refill device is applied

2 is a block diagram of a boiler to which an automatic heating water refill device according to the present invention is applied.

Explanation of symbols on the main parts of the drawing

1: heat exchanger, 2: heating supply pipe,

3: heating return pipe, 4: circulation pump,

5: water supply pipe, 6: heat exchanger,

7: hot water supply pipe, 8: expansion tank,

9: expansion tube, 10: supplement water pipe,

11: solenoid valve, 12: low water level sensor,

13 controller, 14 low water level sensor.

The present invention for achieving the above object, the low water level sensor is installed on the top of the heat exchanger, the low water level sensor is connected to the controller, the controller has a structure connected to the solenoid valve installed in the water supply pipe.

Therefore, when water is insufficient in the heat exchanger, since the water is quickly supplied to the low water level sensor installation position, air is not introduced into the circulation pump.

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

2 is a configuration diagram of a boiler to which an automatic heating water refilling device is applied according to the present invention, and the present invention is a heating supply pipe 2 and a heating return pipe returning the heating water to the upper and lower sides of the heat exchanger 1 respectively. 3) is connected, and the water supply pipe (5), the heat exchanger (6) and the hot water supply supply pipe (7) is installed for the hot water supply, the expansion tank that receives the excess water is expanded by heating in the heat exchanger (1) (8) is provided, the expansion tank (8) accommodates the expansion of the heating water expanded upon heating through the expansion pipe (9) connected to the top of the heat exchanger (1), the expansion tank (8) When the low water level is detected by the installed low water level sensor 12, the controller 13 opens the solenoid valve 11 to branch from the water supply pipe 5 to replenish the heating water through the supplemental water pipe 10 introduced into the heat exchanger 1. On the other hand, the circulation pump 4 is installed in the heating supply pipe (2) for smooth circulation of the heating water beam In this case, the low water level sensor 14 is installed above the inside of the heat exchanger 1, that is, at a position higher than the inlet of the heating supply pipe 2 and lower than the inlet of the expansion pipe 9. Has a structure connected to the controller (13).

Here, the low water level sensor 14 informs the controller 13 whether the water level WL has risen up to the position, and the controller 13 which has received this signal does not occupy water until the sensor installation position. (11) to act to open the water supply.

That is, the controller 13 receives water level information from the low water level sensor 12 installed in the expansion tank 8 and the low water level sensor 14 installed in the heat exchanger 1, respectively, and the solenoid valve if the quantity is insufficient. It is supposed to open (11).

Therefore, when the boiler is operated after the installation of the boiler is completed, the water is directly supplied to the installation height of the low water level sensor 14, and the water is filled more than the height of the inlet of the heating supply pipe 2 (at this time, the air above the heat exchanger 1). Is discharged to the outside of the heat exchanger 1 through the expansion pipe 9. The air is not introduced into the circulation pump 4 through the heating supply pipe 2 when the circulation pump 4 is operated. Since the circulation of the heating water is made smoothly, it is possible to quickly determine whether the normal operation of the boiler, and also since the separate air bleeding operation for releasing the air from the top of the heat exchanger (1) is not necessary, the commissioning of the boiler This is simple and the time required for this is shortened.

On the other hand, the present invention can of course be applied to both irrespective of the type of oil boiler and gas boiler.

As described above, according to the present invention, the air inside the heat exchanger is automatically discharged by the water supply and the water level is always kept higher than the inlet of the heating supply pipe so that no air is introduced into the circulation pump, thereby circulating the heating water quickly and smoothly. It is made so that the commissioning after construction is easy and can be made quickly.

Claims (1)

The heat supply pipe (2) and the heating return pipe (3) in which the circulation pump (4) is installed in the heat exchanger (1) are connected, and the water supply pipe (5) for the hot water supply, the heat exchange unit (6), and the hot water supply pipe (7) It is installed, an expansion tank (8) for receiving heating water that is expanded upon heating is connected to the upper end of the heat exchanger (1) by the expansion tube (9), the water supply pipe (5) is branched into the heat exchanger (1) An inlet refill water pipe 10 is formed, and the solenoid valve 11 is installed in the replenishment water pipe 10, while the low water level sensor 12 is installed in the expansion tank 8, and the low water level sensor 12 is provided. And the solenoid valve 11 is connected to the controller 13 so that when the water level in the expansion tank 8 decreases below a certain level, the controller 13 opens the solenoid valve 11 to replenish the heating water. , The low water level sensor 14 is installed at a position higher than the inlet of the heating supply pipe 2 of the heat exchanger 1 and lower than the inlet of the expansion tube 9, and the low water level sensor 14 is connected to the controller 13 to exchange heat. When the water level of the machine (1) is lower than the low water level sensor (14), the controller (13) to open the solenoid valve 11 to refill the heating water automatic heating water of the boiler.