KR200360566Y1 - Structure of ladder type hypocaust pipe having measuring instrument and check valve for heating medium - Google Patents

Abstract

The present invention is a ladder-shaped equipped with a heat medium check valve and a meter It relates to an ondol pipe structure, and in the related art, by installing a check valve on a heat pipe of an ondol pipe, the heat pipe is often supplemented with a heat medium that is inherent in the heat pipe and is heated by latent heat by a heat source, so that the heat pipe loses heat medium and internal corrosion. Or, if it is unable to function due to damage due to a collision, the ondol pipe structure equipped with a heat medium check valve and a meter is provided so that maintenance can be performed with only a simple part construction without the whole ondol for heat medium replacement. .

The present invention improves the structure of the conventional on-pipe with a check valve and a meter, the horizontal pipe 12 is formed on both sides, the heat pipe 20 is formed between the ladder-shaped ondol pipe 10 is formed therebetween As a result, the heat pipe 20 has a slightly convex shape in the center, and produces a ladder-shaped ondol pipe having a gradient of about 1/100 of both horizontal pipes 12 so that the flow of hot water heated by a heat source is reduced. By making it possible in both cases, the heat medium is rapidly heated to provide a ladder-shaped ondol pipe structure having a large effect of thermal conductivity, thermal circulation and heating, and low heat loss.

Ladder-shaped ondol pipe structure is provided with a heat medium check valve and a meter of the present invention for achieving this object, the horizontal pipe 12 is configured to flow in both sides of the hot water heated by the heat source; A heat medium flow part 14 formed at an outer circumference of the horizontal tube 12; An ondol pipe 10 composed of a heat pipe 20 fixedly installed in communication with the heat medium flow part 14 and having a heat medium embedded therein in a vacuum state, the one side of the heat medium flow part 14, or the heat pipe 20. Each of the check valve (50) installed on one side of the; characterized in that consisting of a meter (52) that can be confirmed in real time the residual amount of the heat medium.

Description

Structure of ladder type hypocaust pipe having measuring instrument and check valve for heating medium}

The present invention relates to a ladder-shaped ondol pipe structure provided with a heat medium check valve and a meter, and improves the structure of the ondol pipe of the Utility Model Registration No. 325169 of the applicant. Conventional ondol pipes are provided with check valves on the heat pipes of the ondol pipes, which are inherent in the heat pipes, and make it possible to replenish the heat medium having a thermal function by the latent heat caused by the heat source from time to time, so that the heat pipes lose heat medium Ladder-shaped ondol pipe structure equipped with a heat medium check valve and a meter that enables maintenance by simple subconstruction without replacing the entire ondol to replace it when it cannot be functioned due to corrosion or damage due to collision. It is about.

In the above-mentioned ondol pipe, by additionally installing a meter connected to the heat pipe, the heat medium check valve and the meter are provided to check the remaining amount of the heat medium in the heat pipe in real time to determine whether there is an abnormality. It relates to an ondol pipe structure.

However, unlike the conventional U-shaped or zigzag circulating on-pipe structure, the present invention has a horizontal tube formed on both sides and a heat pipe formed therebetween, and the heat pipe 20 has a slight center portion. By making a convex shape, a ladder-shaped ondol pipe having a gradient about 1/100 of both horizontal pipes 12, and allowing the flow of hot water heated by a heat source to both sides, the heating medium is heated rapidly. The present invention relates to a ladder-shaped on-pipe pipe structure with excellent heat conductivity and heating effect and low heat loss compared to conventional products.

Some of China, including Korea, have been living with the habit of warming the floor and living in the ondol culture area.In the beginning, a bonfire was burned on the floor of a crypt or residence to heat the floor and remove moisture. It is a method of heating the ondol by laying an ondol plate (shoe) on the floor of a residential area and burning it with a firewood, and the fuel is changed from wood to coal, oil, and gas in order of high quality fuel. It is a situation that has been developed indirect heating method using circulating water that heats the ondol by circulating the heated hot water inside the ondol floor and circulating the heated hot water inside the ondol floor, away from the direct heating method, which is difficult to heat.

Recently, water pipes and drain pipes are piped to one side of the floor of a residential building, and heat insulation is firstly insulated with an insulation material that prevents heat loss, thereby minimizing heat loss. The underfloor was constructed in such a way that the pipes were spaced at an appropriate interval and the above-mentioned pipes were covered with a mortar layer to finish. When such problems occurred during the construction or when the ondol pipe was aged after a long time, the plastered floor was removed. Remove all and rebuild new ondol pipes.

In addition, the heating by the conventional wood fire or briquette fire, heating by the structure of the existing ondol pipe has a disadvantage in that only a part of the floor is particularly warm, and evenly as a whole. Therefore, conventionally, a method of evenly heating the entire floor has been disclosed, and such a method typically embeds a heating pipe that allows water to flow inside the floor, and heats the water flowing through the heating pipe with briquettes or oil. This is done by doing.

However, since the heating pipe is embedded for the entire floor area as described above, a large amount of water flowing over the heating pipe is required, and thus a large amount of heat source for heating a large amount of water is required. There is a big problem that energy consumption is necessarily accompanied.

In addition, the ondol pipe formed to circulate in a conventional U-shape or zigzag has to be installed horizontally on a horizontal floor so that the heating medium can be circulated evenly throughout, so that the floor is warmed as a whole. In the process of construction, the mortar layer is formed on the floor to maintain the level of the ondol pipe, but the ondol pipe formed to circulate in a U-shape or zigzag is inclined to either side due to the unevenness of the floor or mistakes in the construction process of the contractor. Because of the structure that can be lost, the heat medium did not circulate as a whole, there was a problem that only a part of the floor is heated. In addition, in the case of the U-shaped or zigzag-shaped ondol pipe, the heat medium was heated only on one side, so that the heat loss was large for heating the whole room, and there was a problem that the heat transfer was not good, and the material cost and labor cost had to be increased.

Thus, an ondol pipe was developed to reduce the energy consumption while increasing the effect of heat, which will be described based on FIG. 1 as follows.

The conventional ondol pipe 10 is configured such that hot water heated by a heat source flows only in one horizontal pipe 12.

In the horizontal tube 12, a heat medium flow part 14 is formed on the outer circumference of the flow part 16 of the hot water, and a heat pipe having a substantially 'U' shape on one side with respect to the flow part 14 of the heat medium ( 20 is fixed by welding so as to communicate with each other, and the heat medium 30 is embedded in the heat pipe 20.

That is, the heat pipe 20 and the heat medium flow part 14 are in a vacuum state, and the heat medium 30 is injected into the inside thereof and sealed by welding, as shown in FIG. 2, the heat pipe 20. ) And the inner wall of the heat medium flow part 14 is provided with a wick 22, which is a porous capillary tube to help heat transfer of the heat medium 30 and to smooth the flow.

Therefore, when hot water heated with energy such as briquettes or petroleum as a heat source flows through the horizontal tube 12, heat of water flowing through the horizontal tube 12 is transferred to the heat medium flow part 14 and the heat pipe 20. When the heat medium 30 is saturated in the liquid form by the wick 22 and heat is applied to the evaporation unit by the heat of the hot water, the heat medium 30 at the portion is immediately diffused and evaporated to transfer heat. It condenses and moves on the wick 22.

The heat pipe 20 is generally much faster than the copper pipe used for heating piping, and is capable of transporting a large amount of heat by latent heat and having a uniform temperature distribution. In addition, the weight is very light, there is little heat loss, there is an advantage that can be combined with cooling and heating.

However, the conventional heat pipe having the above configuration is fixed by welding to a horizontal tube in which hot water flows in a state in which a heat medium is embedded in a vacuum state at the time of initial installation as described above. There is a problem that the maintenance is difficult if the function is not easy because the loss is due to evaporation itself.

In addition, even if a part of the heat pipe or the heat medium flow portion is corroded or damaged, even if the heat medium leaks or leaks, the heat pipe or the heat medium flow part may not function properly. In this case, there is a problem in that maintenance is difficult.

That is, the ondol pipe is buried in the floor, and if the function is not properly performed, the entire floor is torn off, the entire ondol pipe is torn off, and then the leaked part is found and repaired or supplemented with heat medium. For this purpose, troublesome maintenance work such as the entire pipe is separated and fixed again by welding, or the whole ondol pipe needs to be replaced with a new one has been raised.

In addition, the U-shaped ondol pipe is formed with a horizontal tube through which hot water can flow only on one side, which requires a lot of heat to heat the heating medium, resulting in a long time. When the construction of the ondol pipe is slightly inclined, the heat medium is not smoothly moved, and thus the heat transfer efficiency is low, resulting in low overall thermal efficiency and increased heat loss. Because of this phenomenon, there was a problem that the new ondol pipe had to be replaced sooner than the life of the ondol pipe. In addition, there was a problem in that labor costs and material costs separately when replacing.

Accordingly, the present invention has been devised to solve the above problems, by installing a check valve on the heat pipe of the ondol pipe, it is possible to replenish the heat medium having a thermal function by the latent heat by the heat source inherently in the heat pipe If the heat pipe fails to function due to the loss of heat medium or corrosion due to internal corrosion or collision, the heat medium check valve enables maintenance by simple part construction without the whole ondol for replacement. The purpose is to provide a ladder-shaped ondol pipe structure provided with.

In addition, the present invention, by installing a meter connected to the heat pipe additionally, ladder-shaped ondol pipe equipped with a meter to determine the presence or absence of abnormality by checking the remaining amount of the heat medium in the heat pipe in real time The purpose is to provide a structure.

Unlike the conventional U-shaped ondol pipes, the present invention has a ladder-shaped ondol pipe structure that forms horizontal pipes on both sides to heat the heat medium by hot water in both horizontal pipes, thereby efficiently heating the heat medium. It provides fast heating, and the heat medium heated on both sides circulates to give an even warm heating effect overall, good thermal circulation, labor cost and self-consumption cost, and a ladder-shaped ondol pipe structure that can shorten the construction period. The purpose is to provide.

In addition, since the horizontal pipes formed on both sides serve as a balance support and are constructed while balancing ondol pipes on the floor, the heat medium can be freely circulated and heat can be maintained better than the conventional U-shaped ondol pipes. The purpose is to provide an improved ondol pipe that can eliminate the problem of having to replace the ondol pipe due to this more efficient and thermal circulation problem.

1 is a cross-sectional view showing a conventional ondol pipe.

2 is a partial cutaway view of the heat pipe structure;

Figure 3 is a cross-sectional plan view of a ladder-shaped ondol pipe with a heat medium check valve and a meter according to the present invention.

Figure 4 is a side cross-sectional view of a ladder-shaped ondol pipe is a heat pipe according to the present invention is a slightly convex shape in the center, the gradient is about 1/100 than both horizontal pipes.

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

10: ondol pipe 12: horizontal pipe

14: heat medium flow portion 20: heat pipe

22: Week 30: heat medium

50: check valve 52: meter

The ondol pipe structure 10 of the present invention for achieving the above object, the horizontal pipe 12, the hot water heated by the heat source flows, and the heat medium flow portion 14 formed on the outer periphery of the horizontal pipe 12 And a heat pipe 20 composed of a heat pipe 20 in which the heat medium 30 is embedded in a vacuum state while being fixedly installed in communication with the heat medium flow part 14, the horizontal pipe 12 through which hot water flows. Is formed at both ends of the heat pipe 20, characterized in that the ladder configuration, characterized in that the check valve 50 is installed on one side of the heat medium flow portion 14 or the heat pipe (20).

In addition, the meter connected to the heat medium flow unit 14 or the heat pipe 20 to measure the heat medium pressure in the flow unit 14 or the heat pipe 20 of the heat medium to check the remaining amount in real time ( 52) further comprises.

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

The same parts as in the prior art will be described with the same reference numerals, and repeated description thereof will be omitted.

3 is a view schematically illustrating a ladder-shaped ondol pipe structure 10 according to the present invention, and as shown, a check valve 50 is installed at one side of the heat pipe 20.

The check valve 50 may be installed on one side of the heat pipe 20 or the heat medium flow part 14.

On the other hand, a meter 52 for measuring the heat medium pressure in the heat medium flow part 14 and the heat pipe 20 and displaying the value thereof is connected to and installed with the heat medium flow part 14 or the heat pipe 20. .

Therefore, when the ondol pipe 10 does not perform its function properly, only a very small portion corresponding to the vicinity of the position where the check valve 50 is installed may be peeled off, and the heating medium may be supplied through the check valve 50.

In particular, it is possible to determine the residual amount of the heat medium through the meter 52, if it is measured in real time lower than the set pressure, it is necessary to supplement the heat medium through the check valve 50 as described above . The meter 52 may measure the pressure in the heat pipe 20 to confirm whether the remaining amount of the heat medium 30 is insufficient.

Figure 4 is a side cross-sectional view of the heat pipe 20 according to the present invention is a convex shape of the center portion, the ladder-shaped ondol pipe with a gradient about 1/100 than both horizontal tubes 12. The horizontal pipe 12 consists of both sides, and the heat pipe 20 is comprised between them, and the heat pipe 20 has a slightly convex shape in the center part, and is graded about 1/100 of the horizontal pipes 12 of both sides. It is formed of a ladder-shaped ondol pipe structure 10, and hot water warmed by a heat source can heat the heat medium 30 on both sides, thereby heating the heat medium 30 more quickly, and both horizontal tubes (12) serves as a support, it can be installed as a whole horizontal ondol pipe (10) without inclination, so the overall free circulation of the heat medium (30) is possible to increase the thermal efficiency, the heating is made in a quick time, Heating costs, labor costs, material costs can be significantly reduced compared to the conventional. In addition, the heat pipe 20 is convex and has a gradient of about 1/100 of the horizontal pipes 12 on both sides. The reason is that the heat pipe is not well circulated when the heat pipe is completely horizontal. Is the structural shape required because the cooled heat medium circulates down to improve thermal circulation as a whole.

As described above, according to the ladder-shaped ondol pipe structure provided with a heat medium check valve and a meter of the present invention, a horizontal pipe through which hot water heated by a heat source flows, a heat medium flow part formed on the outer circumference of the horizontal pipe, And a heat pipe fixedly installed in communication with the heat medium flowing part, the heat pipe configured to dissipate heat by evaporation and condensation of the heat medium present therein by the heat of hot water flowing through the horizontal tubes of the both sides. When the check valve is provided in the heat pipe or the heat medium flow section through which the heat medium flows, the check valve when the ondol pipe fails to function due to evaporation or loss of the heat pipe and the heat medium in the heat medium flow part. It is possible to easily refill the heat medium through the bar. By removing the entire duct, removing the entire ondol pipe, and repairing or replacing the entire ondol pipe, by removing only the area where the check valve is located and refilling the heating medium, the maintenance is very simple and the maintenance cost is greatly reduced. .

On the other hand, the meter is connected to the heat medium flow portion or the heat pipe to check the remaining pressure of the heat medium remaining therein to determine the remaining amount, anyone can easily determine whether the appropriate pressure value, the measurement If the value falls below the set pressure, it is also possible to quickly grasp this to compensate for the heat medium in the same way as above to maintain a constant thermal effect.

In addition, unlike the conventional ondol pipe, the horizontal pipe is composed of both sides, and the heat pipe is formed between them, which is a ladder shape. It is a shape formed by the ladder-shaped ondol pipe structure with a gradient of about 100 degrees. In other words, unlike conventional pipes, water is heated in both horizontal pipes to heat the heat medium, so heating is faster. Ondol pipes are generally horizontal, so the thermal circulation is free, and thermal efficiency is good. In addition, when the center portion of the heat pipe is inclined slightly convex, it is difficult to circulate the heat medium when the heat medium is completely horizontal, but the heat medium that is warmed up is easy to circulate to the bottom, and the overall heat circulation is improved. In addition, due to the balanced ladder-shaped pipe structure, the heat circulation is good, the heat loss is low, the material cost and labor cost are reduced, and the construction period is shortened. Such ondol pipes can be used in various sizes, such as floors, saunas, houses, baths, etc., which require ondol.

Claims (1)

A horizontal tube 12 through which hot water heated by a heat source flows; A heat medium flow part 14 formed at an outer circumference of the horizontal tube 12; A heat pipe 20 fixedly installed in communication with the heat medium flow part 14 and having a heat medium embedded therein in a vacuum state; A check valve 50 provided at one side of the heat medium flow part 14 or at one side of the heat pipe 20; Meter 52 connected to the heat medium flow unit 14 or the heat pipe 20 to measure the pressure of the heat medium in the flow unit 14 or the heat pipe 20 of the heat medium to check the remaining amount of the heat medium in real time 52 In the ondol pipe 10 composed of The on-pipe pipe 10 has a ladder shape in which horizontal pipes 12 are formed on both sides, and a heat pipe 20 is formed therebetween, and the heat pipes 20 are convex in the middle, and both horizontally Ladder-shaped ondol pipe structure provided with a heat medium check valve and a meter, characterized in that the ladder has a gradient of about 1/100 of the pipe (12).