KR100590478B1 - A examination running methode of boiler use distributor - Google Patents

Abstract

The present invention relates to a test run method using a boiler distributor control, after the gas boiler is installed, the air contained in the water in the heating and hot water pipes by sequentially processing by each heating pipe can be more effectively discharged to occur when the boiler operation occurs It is to prevent the deterioration of heating efficiency caused by air.

According to an exemplary embodiment of the present invention, a trial operation mode may include: opening a control valve of one heating pipe among a plurality of heating pipes when a trial operation mode is performed; A pump operation step of operating the pump; and (ST 2) a circulation step in which the heating water in the water tank circulates along the heating pipe by the operation of the pump; (ST 3) air in the heating pipe in which the heating water is circulated. (ST 4) closing the control valve of the heating pipe and opening the control valve of the next heating pipe when it is confirmed that air in the heating pipe is removed; and (ST 6) Repeatedly repeating the process and when the air discharge of all heating pipes is completed (ST 5) to stop the operation of the circulation pump to end the test run mode; (ST 7) characterized in that proceeds through.

Boiler, Distributor, Control Valve, Heating, Return, Level Detection Rod, Commissioning

Description

Commissioning method using boiler distributor control {A EXAMINATION RUNNING METHODE OF BOILER USE DISTRIBUTOR}

1 is a flow chart of a commissioning mode of a conventional boiler.

2 is a flowchart illustrating a boiler commissioning mode according to the present invention.

3 is a boiler system block diagram according to an embodiment.

Figure 4 shows the state of the water level change in the water tank according to the test operation operation of the present invention,

4a is a state diagram when the water level rises due to the initial water replenishment.

4b is a state diagram when the water level decreases due to air removal.

4c is a state in which a constant level is maintained as the air removal is completed.

<Explanation of symbols for the main parts of the drawings>

1: boiler 2: water tank

3: level detecting rod 4: automatic water refill valve

10: distributor 11, 12, 13: heating piping

21, 22, 23: control valve 30: main control

31,32,33: remote control

The present invention relates to a test run method using a distributor control of a boiler, and more particularly, to a test run method for removing the air in each pipe more effectively during the test run to extract the remaining air in the pipeline after the construction of the gas boiler. It is about.

In general, when installing a boiler, a plurality of heating pipes for circulation of hot water are installed on the floor of a room, and a hot water distributor for distributing the heated water from the boiler to each heating pipe is distributed to a room or a living room. Will be installed.

The hot water distributor supplies the heating water heated in the boiler to the heating pipe of each room for heating, and the heating water returned from each pipe is returned to the boiler through the return side distributor. At this time, it is equipped with a control valve for controlling the opening and closing of the heating pipe toward the distributor side.

On the other hand, the conventional gas boiler commissioning operation, as shown in the flow chart in Fig. 1 simply performs a water replenishment by detecting the low water level of the water tank at the same time the on-run switch is on (on), and after opening all the control valves of the distributor In addition, by repeatedly operating the circulation pump in the boiler, the remaining air in each hot water pipe is discharged, and when this operation is made for a certain time, the commissioning operation is terminated by stopping the circulation pump.

However, in the conventional trial run method, since the trial run is performed in a state in which all control valves of the distributor are opened, the length of the heating pipe is long, and if there are a plurality of heating pipes, the air bubbles remain in the heating pipe even after the trial run. Due to the lack of subtraction, there was a problem that the heating efficiency and the boiler costs due to air when the boiler is running.

The present invention has been proposed to improve the above problems in the prior art, when a plurality of heating pipes that are controlled by a hot water distributor are installed in order to be able to remove the bubbles of each heating pipe in sequence to achieve a more effective trial run The purpose is to make it possible.

The object is, a plurality of heating pipes are installed in a plurality of rooms for heating, the plurality of heating pipes after the installation of the boiler is installed, the distributor is connected to the distributor to control the heating water supply through the control of each control valve, Opening the control valves of the plurality of heating pipes when carried out; A pump operating step of operating the circulation pump installed in the boiler when the control valve is opened; A circulation step of circulating the heating water in the water tank along the heating pipe by the operation of the circulation pump; An air removal confirmation step of confirming that air in the heating pipe circulating the heating water is removed; In a test run for removing bubbles in the heating pipe;
Opening a control valve of one heating pipe among the plurality of heating pipes in the opening of the control valve; A heating pipe checking step of confirming whether there is more heating pipes through which air is discharged when it is confirmed that air in one heating pipe in which the control valve is opened is removed after the air removing checking step; Closing the control valve of the heating pipe from which the air is removed and opening the control valve of the next heating pipe when it is confirmed that there is a heating pipe through which the air is discharged by the heating pipe checking step; Repeating the above steps to sequentially discharge the air of all the heating pipes and stop the operation of the circulation pump when the discharge of the air is completed; It is possible to achieve through a test run method using a boiler distributor characterized in that the trial run is further included.

Hereinafter, a specific embodiment of the present invention will be described with reference to FIGS. 2 to 4.

First, referring to a schematic configuration of a boiler heating system in which a trial operation of the present invention is to be performed, a plurality of heating pipes 11, 12, 13 installed in each of the rooms A, B, and C for indoor heating, A distributor 10 for supplying heating water to the heating pipes 11, 12, and 13, a boiler 1 for circulating by heating the heating water recovered from the heating pipes 11, 12, 13, and the Each of the control valves 21, 22, and 23 connected between the distributor 10 and the plurality of heating pipes 11, 12, and 13 to control the amount of heating water, and the control valves 21, 22, and 23 of the control valves 21, 22, and 23, respectively. It is composed of a main controller 30 for controlling the opening and closing amount, the water tank (2) in the boiler (1) is provided with a water level detecting rod (3) to a predetermined height.

In the drawings, reference numerals 31, 32, and 33 denote remote controllers installed in the rooms A, B, and C, respectively.

The process of operation of the test operation mode of the boiler having such a configuration will be described.

When the user turns on the test run switch (not shown) to test the gas boiler, the first control valve 21 of the plurality of control valves 21, 31, and 41 is controlled by a control signal of the main controller 30. Is opened and the second and third control valves 22 and 23 are in a closed state. (ST 1)

In this state, when the circulating pump in the boiler 1 starts to operate (ST 2), the pumping force acts on the entire piping line, and the heating water passes through the water tank 2 and the first control valve 21 is opened. It is circulated along the open flow path of the heating pipe 11. (ST 3)

As the heating water is circulated, the air contained in the first heating pipe 11 is removed in the water tank 2 while circulating along the pipe flow path in a bubble state. 2) The water level detection rod (3) checks the change in the water level in the pipe so that the air in the pipe can be completely removed. (ST 4)

Here, referring to the drawing of FIG. 4 for the process of checking the air removal state, the water replenishing in the water tank 2 through the automatic water refill valve 4 as shown in FIG. By performing the water level of the stored water is formed in a state filled with more than the height of the water level detection rod (3), after the heating water circulation is repeatedly performed through a plurality of heating pipes as described above, as shown in Figure 4b in each process Since the air in the pipe is raised in the form of bubbles, the water level in the water tank 2 is gradually lowered, and thus the level detecting rod 3 does not detect the water level.

Accordingly, the automatic water refill valve 4 replenishes water so that the water level in the molten tank 2 can be filled above the height of the level detecting rod 3, and this repetitive operation is performed when air is completely drained from the heating pipe. Continue until.

Therefore, when the water level detection signal of the water level detection rod 3 is intermittently transmitted, it is recognized that the air in the pipe is not completely discharged and continuously performs the heating water circulation process in the corresponding heating pipe. When the air in the pipe is completely discharged during the time, the water level does not change in the water tank (2), so that the water level detecting rod (3) is stably in the water for a predetermined time (about 3 minutes) as shown in FIG. As the locked state, the voltage value of 5V is recognized as the level detection signal, so that the air can be confirmed as completely discharged.

That is, when the water level detection signal is intermittently applied (on / off repeat) to the water level detection rod 3, the main control 30 determines that the air is continuously discharged from the heating pipe, and the water level detection signal is constant. If it continues for a time, it is determined that the air discharge in the heating pipe is completed to control the flow path of each heating pipe (11, 12, 13).

On the other hand, if it is determined that the air discharge in the heating pipe 11 is completed through the check process using the water level detection rod (3), the main controller 30 sends a control signal to close the first control valve 21 and After performing the heating pipe check step (ST 5) to check whether there is a heating pipe (12, 13) to be made of the next air discharge, and confirms that there is a remaining pipe for the next opening of the second heating pipe (12) The second control valve 22 is controlled. (ST 6)

Thereafter, when the flow path of the second heating pipe 12 is opened, the same air removal process is repeatedly performed again to confirm the air removal state using the water level detecting rod 3, and this process is the following third heating pipe. The same is repeated for (13).

Then, when all of the above processes are performed and it is confirmed that the discharge of air is completed in all of the heating pipes 11, 12, and 13 (ST 5), the test run mode is terminated by stopping the circulation pump (ST 7).

According to the test operation method of the present invention as described above, after the gas boiler is installed, the air contained in the water in the heating and hot water side pipes is treated sequentially for each heating pipe, so that more efficient discharge can be made, which is generated during boiler operation. It is possible to eliminate the deterioration of the heating efficiency due to air, and to prevent the boiling of the heat exchanger due to the air in the pipe in advance, thereby improving the reliability of the product.

Claims (3)

A plurality of heating pipes are installed in a plurality of rooms for heating, and a plurality of heating pipes are installed in a plurality of heating pipes, and after installation of a boiler in which a distributor for controlling a heating water supply is controlled through control of each control valve, the test operation mode is performed. Opening the control valve of the heating pipe of the; (ST 1) The pump operation step of operating the circulation pump installed in the boiler when the control valve is opened; (ST 2) Heating in the water tank by the operation of the circulation pump A circulation step of circulating the water along the heating pipe; (ST 3) an air removing confirmation step of confirming that air in the heating pipe through which the heating water is circulated is removed; (ST 4), and removing bubbles in the heating pipe. In carrying out a trial run for it; Opening a control valve of one heating pipe of the plurality of heating pipes in the opening of the control valve (ST 1); A heating pipe checking step of confirming whether there is more heating pipes through which air is to be discharged when it is confirmed that air in one heating pipe in which the control valve is opened is removed next to the air removing checking step (ST 4); 5) Closing the control valve of the heating pipe from which the air is removed and opening the control valve of the next heating pipe when it is confirmed that there is a heating pipe to which air is discharged by the heating pipe checking step (ST 5); Repeating the above steps to sequentially discharge the air of all heating pipes, and when the discharge of the air is completed, stopping the operation of the circulation pump to end the trial run mode; (ST 7) Trial operation method using a boiler distributor characterized in that the trial run further comprises. The method according to claim 1, In the air removal check step (ST 4), when the voltage is detected stably for a predetermined time in the water level detection rod installed in the water tank of the boiler, it is determined that the air in the heating pipe is removed. Commissioning method. The method according to claim 1, In the step of removing air (ST 4), if the voltage level is irregularly detected in the water level detection rod installed in the water tank of the boiler, it is determined that the air in the heating pipe is not completely discharged, and the heating water circulation step (ST 3) is again performed. Trial run method using a boiler distributor characterized in that it is carried out repeatedly.

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