KR100590482B1 - a heating water returning pipe of a gas boiler - Google Patents

Abstract

The present invention relates to a heating return pipe installed in a gas boiler, and more particularly, in order to be able to block the flow of bubbles circulated in the heating water again into the heating pipe again, having a simpler structure,

In the gas boiler, a return portion connected to the heating pipe is formed therein so as to circulate the heating water by the circulation pump, and in the outer return tube of the return portion, a heating return pipe having a water outlet and a recovery port, wherein the water outlet is a main pipe It is formed on the lower side of the, the recovery port is formed on the lower side of the main body pipe, the return portion is inside the main body of the return space and the water outlet to the heating water is returned from the heating pipe and the outlet water outlet It relates to a heating return pipe of the gas boiler, characterized in that formed by the partition member of a predetermined height so as to partition into a space.

Description

A heating water returning pipe of a gas boiler

1 is a perspective view of main parts schematically showing the present invention.

Figure 2 is a perspective view of the main incision according to Figure 1;

3 is a main view schematically showing a state in which the present invention is installed in the gas boiler.

Figure 4 is a perspective view of the main cutaway schematically showing another embodiment of the present invention.

5 is a main view schematically showing a state in which a conventional heating return pipe is installed in a gas boiler.

Figure 6 is a perspective view of the main cutaway schematically showing a conventional heating return pipe according to FIG.

Explanation of symbols for the main parts of the drawings

1: gas boiler

   2: water tank 3: heat exchanger

   4: hot water heat exchanger 5: three-way valve

10: return part

   12,102: Return pipe

20: partition plate

   22: return space 24: exit space

100: heating return pipe

   104: exit port 106: recovery port

The present invention relates to a heating return pipe installed in a gas boiler, and more particularly, has a simpler structure of the heating return pipe and can block the circulation of bubbles circulated in the heating water when heated or hot water is circulated again. It is about a heating return pipe of a gas boiler.

In general, a gas boiler using both heating and hot water heats water circulating in the heat exchanger, thereby circulating the heated water to a heating pipe to obtain a heating output, and optionally to a hot water heat exchanger side. It is also used to circulate the hot water output.

In other words, the water heated in the heat exchanger is divided into heating use and hot water use through a hot water circulation circuit so that heat exchange can be selectively performed, thereby serving as both heating and hot water use.

The hot water circulation circuit of the gas boiler using both heating and hot water is used in various ways. However, Utility Model Registration No. 300621, "Heating return pipe structure of a combined hot water and heating gas boiler," which is filed and filed by the applicant. The bar has been designed to improve the efficiency of the gas boiler by forming different heating flow paths during heating and hot water operation in the gas boiler, which will be described in more detail with reference to FIGS. 5 and 6. The explanation is as follows.

As shown in the drawing, the conventional heating return pipe 100 installed in the gas boiler 1 is connected to the heating pipe 200 at the inner center of the return pipe to which the heating water circulated through the heating pipe is returned to the water tank 2 ( 102 is formed to protrude to the inside of the water tank, the outlet port 104 is connected to the water tank on the outside of the return pipe to discharge the heating water in the water tank to the heat exchanger (3) by the circulation pump (P) ) Is formed, and is formed in the form of a double pipe consisting of a main body pipe 110 formed so that the recovery port 106 is connected to each other so that the heating water passing through the hot water heat exchanger 4 is introduced to the lower side of the outlet.

In the above, the projecting pipe is projected to the inside of the water tank, the bubble contained in the heating water flowing from the heating pipe is directly introduced into the water tank is removed, and only pure heating water is circulated in the circulation of the heating water by the circulation pump. To make it possible.

In the case of the conventional heating return pipe 100 configured as described above, the heating water is circulated through the water tank 2 as a dashed line when the heating operation is performed by the three-way valve 5 when the heating or hot water is selected. Quickly remove the bubbles in the pipe, when using hot water has the advantage of reducing the hot water tapping time is made by directly returning from the body pipe 110, which is the heating return pipe 100 without passing through the water tank.

However, in the conventional heating return pipe used for the gas boiler as described above, the return water formed in the center of the main body pipe to protrude to the inside of the water tank in order to remove the bubbles contained in the heating water so as not to be re-introduced On the contrary, the problem is that the heating water flow is not made smoothly by the pipe.

That is, when the circulation of the heating water due to the operation of the circulation pump by the return pipe formed to have a predetermined volume and the height protruding to the inside of the water tank in the center of the main tube occurs a lot of interference between the return pipe and the heating water As a result, there was a problem that the flow of the heating water was not smooth, and in order to solve such a problem, it was necessary to use a large capacity of the circulation pump, resulting in a problem of raising the overall manufacturing cost of the gas boiler. .

And, in the conventional heating return pipe is circulated in the state that the bubble contained in the heating pipe is removed by the structure of the return pipe when circulating the heating water for heating, when circulated for the purpose of using hot water On the heating pipe side, the closed passage is formed by the three-way valve, and the heating water introduced through the recovery port through the hot water heat exchanger is directly circulated through the outlet water by the pump as shown in the bold arrow of FIG. 5. In this case, bubbles remaining in the hot water heat exchanger are circulated in a state included in the heating water.

Accordingly, due to the air bubbles contained in the heating water, the heat exchange efficiency of the heat exchanger decreases due to heat exchange in the circulation tube on the heat exchanger side, that is, the heat exchange of the heating water is not properly performed as compared with the high combustion caused by the heat exchange. In addition, the circulation of the heating water is also a problem that is not made smoothly.

Accordingly, the present invention is to improve the utility model registration No. 300621 "Heating return pipe structure of the combined use hot water and heating gas boiler" by the present applicant to solve the conventional problems as described above, the purpose of the gas boiler The heating return pipe has a simpler structure so that the air bubbles contained in the heating water during heating or hot water can be blocked from being circulated again.

Another object of the present invention is to make it easier to manufacture due to the simple structure.

According to the present invention for achieving the above object, a return portion connected to the heating pipe is formed inside the gas boiler so as to circulate the heating water by the circulation pump, and the outlet body and the outlet of the outer body tube of the return portion In the formed heating return pipe, the outlet port is formed on the lower side of the main body pipe, the recovery port is formed on the lower side of the main body pipe, the return portion is the inside of the main body pipe is the heating water flowing from the heating pipe is returned Characterized in that the partition member of a predetermined height so as to partition the water discharge space and the water outlet space to the water outlet to the water outlet.

The height of the dividing member is characterized in that the bubble contained in the heating water returned to the return space portion during the circulation of the heating water by the circulation pump on the outlet side is formed to a height that does not exit through the outlet.

The partition member is characterized in that formed in the shape of a partition plate partitioned from one side of the inner peripheral surface of the body tube to the other side.

The dividing member is formed in a tubular shape from the bottom of the main tube.

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

1 is a perspective view schematically illustrating a main part of the present invention, FIG. 2 is a perspective view illustrating a main part cutaway according to FIG. 1, and FIG. 3 is a main view schematically illustrating a state in which the present invention is installed in a gas boiler.

As shown in the drawing, the heating water is circulated through the water tank (2) during the heating operation by the three-way valve (5) according to the user's choice by the circulation pump (P) in the gas boiler (1). In addition, when hot water is used, a return part connected to the heating pipe is formed therein so that the return water can be directly returned from the heating return pipe without passing through the water tank, and the outlet body 104 and the recovery port (outlet 104) are formed at the outer main body pipe 110 of the return part. In the heating return pipe 100 formed 106,

According to the present invention, the outlet port 104 which discharges the heating water to the heat exchanger 3 side during the use of hot water or heating is formed on the lower side of the main body tube 110, and the heat exchanger exchanges heat through the heat exchanger 3 when the hot water is used. The recovery port 106 is formed in the lower side of the main body tube 110, the heating water is recovered through the hot water heat exchanger (4), the heating water passing through the heat exchanger (3) and the heating pipe (200) during heating The return portion formed to return the inside of the pipe 110 to the return space (12) and the outlet port 104 is the return of the heating water flowing from the heating pipe 200 to the inside of the main body 110 It shows that the heating water is formed by the partition member 10 of a predetermined height (H) to partition into the water outlet space portion 14 to be discharged.

The height H of the dividing member 10 is the heating water returned to the return space 12 during the circulation of the heating water through the water tank and the heating pipe for heating by the circulation pump on the outlet 104 side. Bubbles contained in are preferably formed to a height that does not exit through the outlet.

The partition member 10 is preferably formed in the shape of a partition plate partitioned from one side of the inner peripheral surface of the body tube 110 to the other side.

As configured as described above, a recovery port for circulating and recovering the heating water is formed on the upper side of the main body tube and connected to the hot water heat exchanger, and a separate outlet when connecting with the circulation pump is formed on the lower side. The condition is that the circulation pump can be directly connected without using a long hose.

Accordingly, when the hot water is used, the heating water that is heat-exchanged in the heat exchanger is recovered through a recovery port formed on the upper side of the main body tube after passing through the hot water heat exchanger while the heating side is closed by a three-sided heating circuit. The bubbles remaining inside are recovered together with the heating water, and since the recovery port through which the heating water is recovered is formed on the upper side of the main body, the bubbles contained in the heating water are buoyant to the upper water tank. Removed after injury.

In addition, the heating water according to the use of hot water is continuously discharged through the outlet of the lower side by the operation of the circulation pump, the heating water is discharged only to the heating water in which the bubble is completely removed from the upper water tank while entering the recovery port As it is circulated like a bubble remaining in the conventional hot water heat exchanger to solve the problem by the recovery port formed on the upper side of the main tube.

On the other hand, when the heating is not hot water, the circulated heating water is heat-exchanged in the heat exchanger and then circulated in the heating pipe by the three-way valve and then returned to the return space space partitioned by the internal partition member of the main body pipe and included in the heating pipe. Bubbles are also floated to the water tank side and removed.

And, withdrawal of the heating water according to the heating and withdrawal is also made through the withdrawal space portion and the outlet water by the circulation pump, wherein the bubbles contained in the heating water returned to the return space portion is withdrawn by the partition member It will not flow into the space side.

In other words, the height of the dividing member is the air bubbles contained in the heating water returned to the return space during the circulation of the heating water through the water tank and the heating pipe for heating by the circulation pump on the outlet side is not discharged through the outlet. Since it is formed at a predetermined height, bubbles introduced into the return space portion, such as return, are lifted and removed from the water tank and are not circulated again through the outlet.

Therefore, even when hot water is used or heated, the bubbles remaining in the hot water heat exchanger or the heating pipe are not circulated again in the process of circulating the heating water, thereby eliminating the problems caused by circulating bubbles in the heating water, thereby increasing heat exchange efficiency. Of course, the circulation of the heating water can also be made smoothly.

In addition, since the partition member is not formed in the entire interior of the main body tube, but is formed in a shape such as a partition plate having a low height, interference is minimally generated in the process of returning and extracting the heating water through the heating return pipe. The circulation of the heating water is made more smoothly, and as a result, the capacity of the purified pump also has a condition that a small capacity enough to circulate the heating water can be used.

In addition, as the partition member is formed in a plate shape instead of a pipe shape, the structure of the heating and return pipe is more simply configured as well as having a condition that can be easily made accordingly.

Figure 4 is a perspective view of the main cutaway schematically showing another embodiment of the present invention.

As shown in the above configuration, the return portion formed inside the main body tube is not formed in the form of a partition plate as described above, but is formed in the form of a return port that protrudes to the height of the conventional water tank, but the height is described above. As the water outlet formed in the main body pipe on the lower side, the recovery port is formed on the upper side, the problems caused by the bubbles contained in the hot water and the heating water during heating can be removed due to the principle as described above. To have only a certain height inside the main body tube,

The dividing member 10 is formed in the form of a tube from the bottom of the main body pipe connected to the heating pipe. At this time, the height (H) of the tubular partition member 10 also has a height at which the above-mentioned heating water is returned and at the same time, bubbles contained in the returned heating water are not introduced into the outlet when the water is discharged through the outlet.

Accordingly, it is not formed to the height of the water tank in the inside of the main body tube, but can be minimized to interfere with the recovery or withdrawal of the heating water in the main body tube by the tubular partition member having a predetermined height of a low height will be.

Therefore, the height of the conventional water tank is formed in the inside of the main body tube, and thus has a low height in which air bubbles are not discharged from the inside of the main body tube, which is not smoothly circulated due to a lot of interference during the recovery and exit of the heating water. In addition to minimizing interference due to the recovery and withdrawal of the heating water, the structure of the heating and return pipe can be configured more simply.

As described above, the present invention, in the process of recovering and returning the heating water in the heating return pipe provided in the gas boiler for providing hot water and heating, the return air bubbles formed in the heating water at a low height inside the main body pipe By being able to be removed without being discharged again by the negative partition member, not only can increase the heat exchange efficiency during heat exchange due to the heating water circulation, but also minimizes the interference caused by the circulation of the heating water, with the effect of smooth circulation. Due to the smoothly circulated heating water, the circulating pump can also smoothly circulate the heating water with a minimum capacity, so that the manufacturing cost of the gas boiler can also be reduced.

In addition, by forming the partition member of the return portion formed in the main body tube in the form of a plate or a tube having a low height of the structure of the heating return pipe more simply, as well as the effect that can be made easily accordingly also To have.

On the other hand, the heating return pipe described as an example of the open type provided with a water tank in the gas boiler, it can be used to apply the same to the hermetic gas boiler is provided with a known expansion tank.

Claims (4)

In the gas boiler, a return portion connected to the heating pipe is formed in the inside so as to circulate the heating water by the circulation pump, and the outer body tube of the return portion includes a heating return pipe having a water outlet and a recovery port, The outlet port 104 is formed on the lower side of the main body tube 110, the recovery port 106 is formed on the lower side of the main body tube 110, the return portion is the inside of the main body tube 110 Characterized in that it is formed of a partition member 10 of a predetermined height (H) so as to partition into a water return space portion 12 for receiving the heating water flowing from the heating pipe and the water outlet space 14 to the water outlet to the water outlet Heating return pipe of gas boiler. According to claim 1, the height (H) of the partition member 10 is a bubble contained in the heating water returned to the return space during the circulation of the heating water by the circulation pump on the outlet side is not withdrawn through the outlet. Heating return pipe of the gas boiler, characterized in that the height is not formed. 3. The heating and return pipe of a gas boiler according to claim 1 or 2, wherein the partition member (10) is formed in the shape of a partition plate partitioned from one side of the inner circumferential surface of the main body tube to the other side. 3. The heating and return pipe of the gas boiler according to claim 1 or 2, wherein the dividing member is formed in a tubular shape from the bottom of the main tube.

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