KR101582513B1 - Boiler vacuum releasing apparatus for protection of water supply pump - Google Patents

Abstract

The present invention relates to a boiler vacuum releasing device for the protection of a boiler water supply pump and, more specifically, to a boiler vacuum releasing device for the protection of a boiler water supply pump, capable of preventing damage to a water supply pump when a device in a cooling and heating steam boiler system is re-operated in a state in which the inside of the water supply pump is drained by vacuum pressure, generated from a boiler when the device is not being operated. In order to prevent water from being absorbed by a water supply pump line in a vacuum state while naturally cooling the boiler when separating a pipe and turning off power after the device in the steam boiler system is operated, an extra air absorption line is formed to protect the water supply pump by preventing the inside of the water supply pump from being empty. In other words, the vacuum state, generated from the boiler, is released and the water supply pump is always filled with water, therefore preventing damage to the water supply pump.

Description

TECHNICAL FIELD [0001] The present invention relates to a boiler vacuum releasing apparatus for protecting a boiler feed pump,

The present invention relates to a boiler vacuum release apparatus for protecting a boiler feed pump, and in particular, in a cold and heating steam boiler system, the inside of the feed pump is in a water-free state due to the vacuum pressure generated in the boiler at the same time, To a boiler vacuum release device for protecting a boiler feed pump to prevent a feed pump from being damaged when the equipment is restarted.

[Patent Document 1] Utility Model Registration Number: 20-0342418 (Registered Date: Feb. 2004)

[Reference 2] Utility Model Registration Number: 20-0331560 (Registration Date: October 20, 2003)

1, when the boiler system is operated, the water in the water purifier 4 is moved to the water supply tank 3 through the connected piping, and the water in the water supply tank 3 is supplied through the water supply pump 5 And is supplied to the boiler (6). In this case, the inside of the water supply pump is filled with water.

However, for example, after the boiler system is used in a field company, the boiler 6 is often separated from the water purifier 4 without being cooled or drained in a heated state.

That is, as shown in FIG. 2, the boiler is naturally cooled in a pipe-separated state between the water purifier 4 and the water supply tank 3. The interior of the boiler 6 is cooled by natural cooling, The water in the water supply pump 5 and the water supply tank 3 flows out and disappears. .

Fig. 6 is a diagram schematically showing the above explanation for the sake of understanding.

There are many cases in which the water supply pump 5 is damaged when the apparatus is restarted in the state where there is no water in the water supply pump 5. In other words, when the water pump is driven in the absence of water, the water pump sometimes breaks down.

As a countermeasure against this problem, the water supply pipe is connected after the power is turned off or the size of the water supply tank is enlarged. However, since the power supply is turned off, the pipe connection is difficult to carry out on the spot, and the size of the water supply tank is increased There is a problem that it is difficult to secure a space for the water supply tank.

The present invention has been made in view of the above-mentioned points. In order to prevent the boiler from cooling down when the power is turned off and the pipe is disconnected after the operation of the equipment in the steam boiler system, Another object of the present invention is to protect the water supply pump by making the inside of the water supply pump not to be empty by constructing a separate air suction line. That is, it is an object of the present invention to release the vacuum state generated in the boiler and keep water in the water supply pump at all times to prevent breakage of the water supply pump.

In order to accomplish the above object, the present invention provides a boiler vacuum release apparatus for protecting a boiler feedwater pump, which is applied to a steam boiler system for supplying water from a water supply tank to a boiler through a water feed pump, A branch pipe installed between the pumps, for passing the water pumped by the water pump to the boiler; An air suction line (11) having one end connected to one side of the branch pipe and communicating with an internal passage of the branch pipe; Two check valves installed at the other end of the air suction line to block the pumped water from passing through the air suction line in operation of the water supply pump, And the extension end is inserted into and fixed to the water supply tank to reach the upper space in the water supply tank. Thus, when negative pressure is applied to the boiler, the air in the upper space in the water supply tank is sucked into the water supply tank And a pipe through which the oil reaches the boiler through the branch pipe.
The check valve is a plate check valve and a swing check valve.

According to the present invention, after the boiler system is operated, the boiler is allowed to suck air rather than water, thereby releasing the vacuum state of the boiler, thereby protecting the water supply pump 5 from being empty inside the water supply pump 5 It is possible.

In addition, according to the present invention, it is possible to purchase and install piping parts that can be purchased on the market, rather than a separate manufactured product, thereby facilitating installation in existing facilities, simplifying installation and cost, .

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 and FIG. 2 are schematic diagrams of a configuration of a conventional apparatus. FIG.
3 and 4 are schematic structural views of a device according to the present invention;
5 is a detailed view of a check valve installation configuration;
6 is a view showing that a water pump is installed between a water supply tank and a boiler, and water in the water supply tank is sucked into the boiler.

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

3 to 5, the branch pipe 10 is connected to a flow line connecting the feed pump 5 and the boiler 6. The check valves 1 and 2 are separately connected to the water supply tank 3 and the check valves 1 and 2 are connected to the branch pipe 10 through the air suction line 11.

Particularly, the two check valves 1 and 2 are arranged in series because, for example, when the water pump 5 is operated with the pressure of the boiler at 25 bar, This is because a high pressure of about 35 bar is applied to the discharge line. That is, two check valves 1 and 2 are arranged in series to withstand high pressure.
The check valves 1 and 2 are composed of a forged swing check valve 1 and a plate check valve 2 so that high pressure water does not flow out to the air suction line 11. The principle and structure of the check valve itself can be known to a person skilled in the art, and a detailed description thereof will be omitted.

In some cases, only one swing check valve 1 may be used as a check valve, but it is better to use a plate check valve 2 to further increase the stability. Under high pressure conditions, the swing check valve (1) must be used to ensure safety.

The swing check valve (1) is provided by a pressure differential when the valve is hinged and the valve is hinged and the valve is pushed up and the fluid is flowing when the pressure on the inlet side is higher than the outlet side, Is the check valve which is automatically closed by the weight of the valve itself.

The swing check valve (1) exhibits the optimum function when the piping is horizontal structure, while the plate check valve (2) exhibits the optimum function when the piping is vertical structure, so that the swing check valve It is preferable that the check valve 2 is disposed vertically.

The connection between the plate check valve 2 and the water supply tank 3 is performed by using the pipe 14 (for sending a small amount of water to the water tank when leakage occurs).

The operation of the configuration of the present invention described above will be described as follows

The water in the water supply tank 3 is supplied to the boiler 6 via the branch pipe 10 by the water feed pump 5 when the heating system is normally operated as shown in Fig. At this time, water can not be supplied to the air suction line (11) of the branch pipe (10). This is because the swing check valve 1 and the plate check valve 2 are installed

However, if the operation of the boiler 6 is stopped and the water supply connection to the water purifier 4 is cut off, the inside of the boiler 6 is naturally cooled, and a vacuum is formed therein, thereby generating a negative pressure. Then, the negative pressure acts on the swing check valve 1 and the plate check valve 2 through the air suction line 11 to open the passage of the check valve. This is because it is easier to inhale air than water.

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The air suction line (11) is connected to the upper space of the final water supply tank (3), and air sucking is advantageous. Since the water supply tank 3 is not a completely enclosed space, a large pressure is not applied to the air suction.

On the other hand, since the vacuum suction force due to the cooling of the boiler 6 is applied to the water supply pump 5 but the suction of the water in the water supply pump 5 requires a large suction force, the air suction line 11 The water in the water supply pump 5 is never sucked in advance and it is possible to prevent the water supply pump 5 from being damaged due to water at the time of operating the boiler at a later time.

1: swing check valve 2: plate check valve
3: Water tank 4: Water purifier
5: Feed water pump 6: Boiler
10: Branch pipe 11: Air suction line
14: pipe

Claims (5)

A boiler vacuum releasing apparatus applied to a steam boiler system for supplying water in a water supply tank (3) to a boiler (6) through a water feed pump (5)
A branch pipe 10 installed between the boiler 6 and the feed pump 5 for passing the water pumped by the feed pump 5 to the boiler 6;
An air suction line (11) connected at one end to one side of the branch pipe (10) and communicating with an internal passage of the branch pipe (10);
Is provided at the other end of the air suction line 11 so as to block the pumped water from passing through the air suction line 11 in operation of the water supply pump 5, 1, 2);
And extends to the water supply tank 3 while being connected to the check valves 1 and 2. The extended end is inserted and fixed into the water supply tank 3 to reach the upper space in the water supply tank 3, And a pipe (14) for sucking air in the upper space in the water supply tank (3) when the negative pressure is applied to the boiler (6) through the check valve (1, 2) And a boiler vacuum release device for protecting the boiler feedwater pump. delete The method according to claim 1,
Wherein the check valve is a plate check valve (2) and a swing check valve (1). delete delete

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