KR102438974B1 - Boiler equipped with air removal means - Google Patents

Abstract

The present invention relates to a boiler having an air removal means, which improves air removal efficiency. The boiler having an air removal means comprises: a heating boiler (100) having a heat exchange unit (120); an auxiliary water tank (200); a water supply pipe (310) used for air outflow, having an upper end communicating with the auxiliary water tank (200); a boiler-side outflow pipe (320); a circulation heating pipe (330); a circulation pump (400); and a boiler-side inflow pipe (340).

Description

Boiler equipped with air removal means

According to the present invention, when air is generated in the heating water circulating in the heating area, the heating water repeatedly circulates the heating area, but only the generated air is removed, so that it is possible to implement without a separate air vent for air removal, so that the piping facility It relates to a boiler equipped with an air removal means that is simplified and the life of equipment items is also extended.

Boilers developed for the purpose of heating are divided into oil boilers using oil as raw materials and gas boilers using gas as raw materials according to their energy sources.

These boilers perform a heat exchange action to heat the heating water by the combustion action of gas or oil, and when the heating water is heated, the hot water refluxes the coil pipe piped to the indoor floor by convection phenomenon, and after heating the indoor floor with the heat of the hot water, It forms a heating cycle back to the heating position.

However, in the heating water circulated by the heating cycle, air is generated due to the evaporation of hot water, and since the heating water is circulated through the installed pipe, the air remaining in the heating water is not discharged to the outside. By circulating together, the heating efficiency is greatly reduced, and the risk of corrosion by air is also caused.

That is, the air remaining in the heating water is in close contact with the inner surface of the pipe pipe by a droplet phenomenon and forms a space layer between the heating tube and the heating water to prevent heat transfer, so the heating efficiency is lowered. Air (bubbles) created in the water must be removed.

In order to meet the requirements of such a heating system, a boiler manager manually exhausts air through a distributor directly connected to the boiler, which has a problem in that the boiler manager's manual work must be accompanied.

Accordingly, an air vent function for automatically removing bubbles generated in the heating water during the circulation process of the heating water is provided, but the air removal efficiency is still insufficient due to the convection phenomenon of the heating water.

US 20-2011-0001190 U

The present invention is to solve the problems of the prior art, and an object of the present invention is to repeatedly circulate the heating water when air is generated in the heating water circulating in the heating area, but to remove only the generated air. To provide a boiler equipped with an air removal means.

As a technical idea for achieving the present invention, a boiler equipped with an air removal means of the present invention includes: a heating boiler having a heat exchange unit for heating water by absorbing heat through a heating unit; an auxiliary water tank disposed at a higher position than the heating boiler and containing water therein; a water supply pipe having an upper end in communication with the auxiliary water tank and a lower end communicating with one end of a heat exchange unit provided in the heating boiler to supply circulated water to the heating boiler; a boiler-side outlet pipe positioned below the auxiliary water tank, one end communicating with the other end of the heat exchange unit provided in the heating boiler, through which heated water flows out; a circulation heating pipe having one end in communication with the other end of the boiler-side outlet pipe to provide heating to the heating area through the circulation of heated water; a circulation pump located below the auxiliary water tank and provided in the boiler-side outlet pipe to forcibly introduce water heated from the heating boiler by a pumping driving force toward the circulation heating pipe; The lower end communicates with the other end of the heating pipe for circulation, and the upper end is in branch communication with the air outlet and water supply pipe, and the water circulated from the circulation heating pipe is provided in the heating boiler via the air outlet and water supply pipe. a boiler-side inlet pipe guiding the inflow toward the other end of the heat exchange unit, and the lower end communicates with the other end of the boiler-side outlet pipe positioned immediately before the circulation pump, and the upper end branches to the air outlet and water supply pipe. Including; an extra water supply pipe that is branched and communicated with the air-outflow water supply pipe at a higher place than the connected boiler-side inlet pipe; Excess water accommodated in the auxiliary water tank by the water level difference is supplied just before the circulation pump through the excess water supply pipe so that the air generated in the pipe flows out, and the circulation pump is heated from the heating boiler by the pumping driving force The amount of circulated water including the excess water supplied through the excess water supply pipe along with the used water is increased and forcibly circulated, so that at least one of the air-outlet combined water supply pipe, the circulation heating pipe, and the boiler-side inlet pipe. The air generated from the pipe of , is pushed and flows together due to the increased amount of water, rises and flows toward the auxiliary water tank in communication with the air outlet and water supply pipe, and the water of the volume of the air that rises and flows toward the auxiliary water tank is the water level It is characterized in that it is supplied immediately before the circulation pump through the excess water supply pipe from the auxiliary water tank by car.

The auxiliary water tank further includes an air outlet through which air is discharged.

The auxiliary water tank is a pressurized water tank in which an internal pressure, which is an internal pressure, is higher than atmospheric pressure.

The boiler provided with the air removal means of the present invention further includes a heating water filter inserted into the boiler-side inlet pipe to filter out foreign substances contained in water flowing through the boiler-side inlet pipe.

According to the present invention, when air is generated in the heating water circulating in the heating area, the heating water repeatedly circulates the heating area, but only the generated air is removed, so that it is possible to implement without a separate air vent for air removal, so that the piping facility This has the effect of extending the lifespan of equipment items as well as simplifying the process.

In addition, the present invention has the effect of filtering out foreign substances contained in the repeatedly circulated heating water, blocking the pipes of the boiler, causing a malfunction of the boiler, or blocking the decrease in the driving efficiency of the circulation pump in advance.

1 is an overall configuration diagram showing a boiler equipped with an air removal means of the present invention.
Figure 2 is a view taken of a prototype of a boiler equipped with an air removal means of the present invention.
3 is a view taken from the heating water filter part of the prototype of the boiler equipped with the air removal means of the present invention.
Figure 4 is a view taken from the side of the circulation pump part of the prototype of the boiler equipped with the air removal means of the present invention.

Prior to being described in detail with reference to the accompanying drawings for the configuration and operation of the embodiments of the present invention, the present invention may have various changes and may have various forms, and the following examples will describe the present invention in detail It is to be understood that the present invention is not intended to be limited to the specific disclosed form, and includes all modifications, equivalents and substitutes included in the spirit and scope of the present invention.

In addition, in each drawing, components are exaggerated in size or thickness in consideration of convenience of understanding, or expressed in a simplified manner, but the protection scope of the present invention should not be construed as being limited thereby, and perform the same function. In this case, the same reference numerals will be used as much as possible. In addition, the terms used in the present invention are only used to describe the following examples, and are not intended to limit the present invention, and the singular expression includes a plural expression unless the context clearly indicates otherwise.

1 to 4, in the boiler provided with the air removal means of the present invention, when air is generated in the heating water circulating in the heating region, the heating water repeatedly circulates the heating region, but only the generated air By removing it, it is possible to implement without a separate air vent for air removal, so that the piping facility is simplified and the lifespan of the equipment item is extended. 310), the boiler-side outlet pipe 320, the circulation heating pipe 330, the circulation pump 400, the boiler-side inlet pipe 340 and the excess water supply pipe (350).

First, the heating boiler 100 is a member consisting of a heat exchange unit 120 that heats water by absorbing heat through the heating unit 110, and is based on various combustion sources such as gas boilers, oil boilers, or firewood boilers. You can choose to use a heating boiler.

The first drain valve 130 is connected to the heat exchange unit 120 side of the heating boiler 100 that performs this function, and performs a function of draining the circulating water.

The auxiliary water tank 200 is disposed at a higher position than the heating boiler 100, and is a member in which water is accommodated.

Through this, when air is introduced and discharged from the water supply pipe 310 which will be described later, the volume of the discharged air is discharged through the excess water supply pipe 350 due to the water level difference of the circulation pump 400 to be described later. It performs the function of guiding the supply immediately before.

Accordingly, the auxiliary water tank 200 is provided with an air outlet 210 through which air is discharged, and is provided at a higher level than the water level stored in the auxiliary water tank 200 .

On the other hand, the auxiliary water tank 200 is applied to a pressurized water tank whose internal pressure, which is an internal pressure, is higher than atmospheric pressure, which is a boiler-side inlet pipe 340, which will be described later, through which water circulated from a heating pipe 330 for circulation, which will be described later, is communicated. ), the water flowing out through the boiler-side inlet pipe 340 does not flow toward the auxiliary water tank 200 higher than atmospheric pressure, but flows toward the heating boiler 100 .

In other words, only the air contained in the water flowing out through the boiler-side inlet pipe 340 rises and flows toward the auxiliary water tank 200 , and the water flows toward the heating boiler 100 .

The internal pressure of the auxiliary water tank 200 performing this function is 1.5kgf/cm ² ~ 2kgf/cm ² .

In addition, the auxiliary water tank 200 is provided with a boiler water supply pipe 220 for supplying water from the outside, provided at a higher level than the water level stored in the auxiliary water tank 200, and the supplied water is hot water can be supplied.

Here, in the method of supplying water to the auxiliary water tank 200 , water is supplied to the inside of the auxiliary water tank 200 through a water level control valve connected to a pressure member provided for pressurizing the auxiliary water tank 200 . When the internal pressure is low, the water level control valve is opened and supplied, a water level sensor is provided in the auxiliary water tank 200 to supply whenever a preset water level is reached, or various means are selected, such as manually supplying through visual inspection. can be used by

The air outlet combined water supply pipe 310 has an upper end in communication with the auxiliary water tank 200 and a lower end in communication with one end of the heat exchange unit 120 provided in the heating boiler 100, that is, the auxiliary water tank 200 and the heating boiler. It is a member that is vertically communicated between the 100 and supplies the circulated water to the heating boiler 100 . Here, the circulated water is introduced through a boiler-side inlet pipe 340 to be described later.

In addition, a first opening/closing valve 311 is provided in the water supply pipe 310 for both air outflow and for opening and closing the water supply pipe 310 for both air outflow and cleaning for repair or cleaning of the heating boiler 100 . The first on/off valve 311 performing this function may use a ball valve.

In addition, a second drain valve 312 is connected to the air outlet and water supply pipe 310 to perform a function of draining the circulated water.

The boiler-side outlet pipe 320 is located below the auxiliary water tank 200, one end communicates with the other end of the heat exchange unit 120 provided in the heating boiler 100, and is a member through which heated water flows out. .

In addition, a second opening/closing valve 321 is provided in the boiler-side outlet pipe 320 to open and close the boiler-side outlet pipe 320 for repair or cleaning of the heating boiler 100 . The second on/off valve 321 performing this function may use a ball valve.

The circulation heating pipe 330 has one end communicating with the other end of the boiler-side outlet pipe 320, and the other end communicating with the lower end of the boiler-side inlet pipe 340, which will be described later, to the heating area through circulation of heated water. A piping member that provides heating.

Here, the heating area is increased or decreased according to the installed furniture, and in this embodiment, it is exemplified by a room, a kitchen, a living room 1 and a living room 2 .

The circulation pump 400 is located below the auxiliary water tank 200, and one side is provided in the boiler-side outlet pipe 320, and a heating pipe for circulating water heated from the heating boiler 100 by the pumping driving force. It is a member for guiding the circulation by forcibly introducing it toward the (330).

The boiler-side inlet pipe 340 has a lower end in communication with the other end of the heating pipe 330 for circulation, and a branching communication with the upper end of the water supply pipe 310 for air outflow, and the water circulated from the circulation heating pipe 330 . It is a pipe member that guides the inflow toward the other end of the heat exchange unit 120 provided in the heating boiler 100 via the air outlet and water supply pipe 310 .

At this time, a heating water filter 500 for filtering out foreign substances contained in water flowing through the boiler-side inlet pipe 340 is inserted into the boiler-side inlet pipe 340 .

Through this, in the process in which the heated water is circulated through the heating pipe 330 for circulation, there is a case where foreign substances including corroded pieces of the circulation heating pipe 330 or water moss are mixed with the water, and these foreign substances are the boiler It functions as a factor causing a malfunction of the boiler by blocking the pipe of the circulating pump 400 or blocks the harmful effects that cause a decrease in the driving efficiency of the circulation pump 400 in advance.

The extra water supply pipe 350 has a lower end in communication with the other end of the boiler-side outlet pipe 320 located just before the circulation pump 400, and the upper end of the boiler side is branched to the air outlet and water supply pipe 310 It is a pipe member in branch communication with the air outlet and water supply pipe 310 higher than the inlet pipe 340 .

Through this, in the boiler provided with the air removal means of the present invention, the air generated from at least one of the water supply pipe 310 for air outflow, the heating pipe 330 for circulation, and the inlet pipe 340 on the boiler side is discharged. As much as possible, when the excess water accommodated in the auxiliary water tank 200 due to the water level difference is supplied immediately before the circulation pump 400 through the excess water supply pipe 350, the circulation pump 400 is pumped by the pumping driving force to the heating boiler 100 ), including the extra water supplied through the extra water supply pipe 350 along with the heated water from the circulating water is increased to force circulation.

For this reason, the air generated in at least one of the air outlet and water supply pipe 310, the circulation heating pipe 330, and the boiler-side inlet pipe 340 is pushed due to the increased amount of water and the increased water and It flows together, and flows to the water supply pipe 310 for air outflow.

Thereafter, the air flowing with the increased water rises and flows toward the auxiliary water tank 200 in communication with the air outlet and water supply pipe 310, and the increased water does not flow toward the auxiliary water tank 200 higher than the atmospheric pressure, but at atmospheric pressure It is introduced toward the heating boiler 100 maintained as , and is heated through the heat exchange unit 120 to be repeatedly circulated.

At this time, the process of supplying water of about the volume of air that has ascended and flowed toward the auxiliary water tank 200 is supplied immediately before the circulation pump 400 through the extra water supply pipe 350 from the auxiliary water tank 200 due to the water level difference. When air is generated from at least one of the air-outflow water supply pipe 310, the circulation heating pipe 330, and the boiler-side inlet pipe 340, it rises and flows toward the auxiliary water tank 200, and at the same time, the upward and outflow It provides the advantage of preventing repeated circulation by including air in the circulating water by directly supplying water equivalent to the volume of air.

On the other hand, the extra water supply pipe 350 is provided with a third on-off valve 351 , and performs a function of opening and closing the extra water supply pipe 350 for repair or cleaning of the heating boiler 100 . The third on-off valve 351 performing this function may use a ball valve.

Although the present invention has been shown and described in relation to specific embodiments in the above description, it is common knowledge in the art that various modifications and changes are possible without departing from the spirit and scope of the invention as defined by the claims. Anyone who has it will know it easily.

100: heating boiler 100: heating unit
120: heat exchange unit 130: first drain valve
200: auxiliary water tank 210: air outlet
220: water supply pipe for boiler 310: water supply pipe for air outflow
311: first on-off valve 312: second drain valve
320: boiler side outlet pipe 321: second on-off valve
330: circulation heating pipe 340: boiler side inlet pipe
350: extra water supply pipe 351: third on-off valve
400: circulation pump 500: heating water filter

Claims (4)

delete a heating boiler 100 having a heat exchange unit 120 for heating water by absorbing heat through the heating unit 110;
an auxiliary water tank 200 in which water is accommodated therein, which is disposed at a higher position than the heating boiler 100;
The upper end communicates with the auxiliary water tank 200 , and the lower end communicates with one end of the heat exchange unit 120 provided in the heating boiler 100 to supply circulated water to the heating boiler 100 . a supply pipe 310;
a boiler-side outlet pipe 320 positioned below the auxiliary water tank 200, one end communicating with the other end of the heat exchange unit 120 provided in the heating boiler 100, through which heated water flows out;
a circulation heating pipe 330 having one end in communication with the other end of the boiler-side outlet pipe 320 to provide heating to the heating area through the circulation of heated water;
It is located below the auxiliary water tank 200 and is provided in the boiler-side outlet pipe 320 to force water heated from the heating boiler 100 by a pumping driving force toward the circulation heating pipe 330 . a circulation pump 400 for introducing;
The lower end communicates with the other end of the heating pipe 330 for circulation, and the upper end is branched to the air outlet and water supply pipe 310 so that the water circulated from the circulation heating pipe 330 is the air outlet water. A boiler-side inlet pipe 340 that guides the inflow toward the other end of the heat exchange unit 120 provided in the heating boiler 100 via a supply pipe 310; A water supply pipe that communicates with the other end of the boiler-side outlet pipe 320 located in At least one of the air outlet and water supply pipe 310, the circulation heating pipe 330, and the boiler-side inlet pipe 340, including; The excess water accommodated in the auxiliary water tank 200 by the water level difference is supplied just before the circulation pump 400 through the excess water supply pipe 350 so that the air generated from the circulating pump 400 flows out. ) is the amount of circulated water including the excess water supplied through the extra water supply pipe 350 along with the water heated from the heating boiler 100 by the pumping driving force is increased and forced to circulate, so that the air outflow is combined Air generated in at least one of the water supply pipe 310, the circulation heating pipe 330, and the boiler-side inlet pipe 340 is pushed and flowed together due to the increased amount of water, so that the air-outlet combined water The excess water supply pipe ( 350) is supplied just before the circulation pump 400,
The auxiliary water tank (200) has an air outlet (210) through which air is discharged;
a heating boiler 100 having a heat exchange unit 120 for heating water by absorbing heat through the heating unit 110;
an auxiliary water tank 200 in which water is accommodated therein, which is disposed at a higher position than the heating boiler 100;
The upper end communicates with the auxiliary water tank 200 , and the lower end communicates with one end of the heat exchange unit 120 provided in the heating boiler 100 to supply circulated water to the heating boiler 100 . a supply pipe 310;
a boiler-side outlet pipe 320 positioned below the auxiliary water tank 200, one end communicating with the other end of the heat exchange unit 120 provided in the heating boiler 100, through which heated water flows out;
a circulation heating pipe 330 having one end in communication with the other end of the boiler-side outlet pipe 320 to provide heating to the heating area through the circulation of heated water;
It is located below the auxiliary water tank 200 and is provided in the boiler-side outlet pipe 320 to force water heated from the heating boiler 100 by a pumping driving force toward the circulation heating pipe 330 . a circulation pump 400 for introducing;
The lower end communicates with the other end of the heating pipe 330 for circulation, and the upper end is branched to the air outlet and water supply pipe 310 so that the water circulated from the circulation heating pipe 330 is the air outlet water. A boiler-side inlet pipe 340 that guides the inflow toward the other end of the heat exchange unit 120 provided in the heating boiler 100 via a supply pipe 310; A water supply pipe that communicates with the other end of the boiler-side outlet pipe 320 located in At least one of the air outlet and water supply pipe 310, the circulation heating pipe 330, and the boiler-side inlet pipe 340, including; The excess water accommodated in the auxiliary water tank 200 by the water level difference is supplied just before the circulation pump 400 through the excess water supply pipe 350 so that the air generated from the circulating pump 400 flows out. ) is the amount of circulated water including the excess water supplied through the extra water supply pipe 350 along with the water heated from the heating boiler 100 by the pumping driving force is increased and forced to circulate, so that the air outflow is combined Air generated in at least one of the water supply pipe 310, the circulation heating pipe 330, and the boiler-side inlet pipe 340 is pushed and flowed together due to the increased amount of water, so that the air-outlet combined water The excess water supply pipe ( 350) is supplied just before the circulation pump 400,
The auxiliary water tank 200 is a boiler equipped with an air removal means, characterized in that the internal pressure is a pressurized water tank higher than atmospheric pressure.
4. The method of claim 2 or 3,
The heating water filter 500 is inserted into the boiler-side inlet pipe 340 to filter out foreign substances contained in the water flowing through the boiler-side inlet pipe 340; Air removal means further comprising: Boiler equipped with this.

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