KR100694543B1 - Pipe arrangement structure for heat - Google Patents

Abstract

A heating pipeline structure for is provided to uniformly heat the entire floor by shortening the circulation distance of the hot water passing a pipe. In a heating pipeline structure, a first distributor(110) firstly distributes hot water. The hot water distributed from the first distributor passes a main pipe(111). A second distributor(120) secondly distributes the hot water having passed though the main pipe. A plurality of branch pipes(121) is installed on the floor to allow the hot water distributed from the second distributor to circulate in a parallel type. A first water collector(130) firstly collects the hot water circulating through the branch pipes. The hot water collected in the first water collector passes through a water collecting pipe(131). A second water collector(140) secondly collects the hot water having passed through the water collecting pipe.

Description

Heating piping structure {PIPE ARRANGEMENT STRUCTURE FOR HEAT}

1 is a conceptual diagram showing a conventional heating piping structure.

2 is an embodiment in which the conventional heating piping structure is applied to a floor of a predetermined area or more.

3 is a conceptual diagram showing a heating piping structure according to the present invention.

4 is an embodiment in which the heating pipe structure according to the present invention is applied to a floor of a predetermined area or more.

Figure 5 is an example of a fastening method of the divider / collector applied to the present invention.

* Explanation of symbols for main parts of the drawings

100: boiler 101: supply pipe

110: primary distributor 111: heating main pipe

120: secondary distributor 121: branch pipe for heating

130: primary water collector 131: water collection pipe

140: secondary collector 141: recovery pipe

The present invention relates to a pipe structure, and more particularly, to a pipe structure capable of heating by circulating heated hot water.

In general, as shown in FIG. 1, in a heating system for indoor heating of a house or apartment, hot water heated by a boiler 10 or the like is first supplied to a distributor 20 through a supply pipe 11. The hot water supplied to the distributor 20 heats the indoor floor through the heating pipe 21 installed on the indoor floor, and the hot water circulated through the heating pipe 21 is recovered to the water collector 30 for recovery. It is returned to the boiler 10 through the pipe 31 and recirculated after being reheated.

As described above, in the conventional general heating piping structure, the heating pipe 21 connected between the distributor 20 and the water collector 30 and installed in the indoor floor is laid in a single strand form. However, such a heating piping structure has the following problems.

First, the bottom of the heating pipe side in which the heating pipe 21 is zigzag in the form of one strand and the circulating distance of the hot water passing along the heating pipe 21 is increased, thereby allowing the hot water to flow through the distributor 20. There is a problem that the floor of the heating pipe side is relatively cold and relatively hot and the hot water is leaked, so that the entire room is not evenly heated.

Second, the circulation distance of the hot water passing through the heating pipe 21 is increased to return to the boiler 10 through the collector 30 in a relatively low temperature state to heat the hot water in the low temperature state again to a set temperature. Therefore, there was a problem that the energy consumption efficiency is low.

Third, the circulation distance of the hot water passing through the heating pipe 21 is long, the corresponding time according to the set heating conditions is relatively long, there is a problem that the energy consumption efficiency is lowered.

Fourth, the direct connection of the heating pipe 21 to the distributor 20 has a problem that the diameter of the pipe is relatively large and the space of the pipe is large so that the room cannot be uniformly heated.

Fifth, there is a problem that the installation cost is high because the diameter of the pipe is relatively large as the pipe diameter 21 for heating is directly connected to the distributor 20 so that the bottom thickness covering the pipe becomes thick.

Sixth, in the case of installing the heating pipe 21 on the indoor floor having a predetermined area or more as shown in FIG. 2, by dividing the room into several zones (1 zone, 2 zones) due to the limitation of the length of the heating pipe, There was a problem in that the connection structure at the time of connecting the divider for the actual temperature control by installing the.

Accordingly, the present invention is to solve the above problems, it is possible to evenly heat the indoor floor where the heating pipe is installed, not only to increase the energy consumption efficiency, but also to reduce the cost of installation construction and easy to control the temperature of the room heating pipe The purpose is to provide a structure.

In order to achieve the above object, according to the present invention, a piping structure for circulating hot water for heating comprises: a primary distributor for distributing incoming hot water primarily; A heating main pipe through which hot water dispensed from the primary distributor passes; A secondary distributor for secondarily distributing hot water flowing through the heating main pipe; A plurality of strands for heating branch pipes installed on the floor to circulate the hot water distributed in the secondary distributor in a parallel manner; A primary collector for firstly recovering hot water introduced by circulating the branch pipes; A water collecting pipe through which hot water collected in the primary water collector passes; Characterized in that it comprises a secondary collector for secondary recovery of the hot water flowing through the collecting pipe. Here, the secondary distributor and the sump may be an individual component connection type or an integral type.

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

3 is a conceptual diagram showing a heating piping structure according to the present invention, Figure 4 is an embodiment in which the heating piping structure according to the present invention is applied to a floor of a predetermined area or more, Figure 5 is a fastening method of the distributor / water collector applied to the present invention Yes.

As shown in FIG. 3, the heating piping structure of the present invention is configured to circulate a primary distributor 110 and a secondary distributor 120 for distributing hot water step by step and a circulated hot water in a parallel manner. A plurality of strands of heating branch pipes 121 installed in the floor, and a primary collector 130 and a secondary collector 140 for recovering step-by-step hot water circulated through the branch pipes 121 are provided.

The primary distributor 110 firstly distributes the hot water introduced through the supply pipe 101 after being heated in the boiler 100. In addition, the secondary distributor 120 secondly distributes the hot water introduced through the heating main pipe 111. At this time, the hot water dispensed by the secondary distributor 120 is circulated in a plurality of strands for heating branch pipe 121 is installed in the indoor floor in a parallel manner. In this way, the plurality of strands branch pipe 121, such as two strands, three strands, four strands, etc. are installed on the indoor floor for heating to circulate the hot water in a parallel manner.

The primary collector 130 circulates the plurality of branch line pipes 121 to recover the hot water introduced in a primary manner. In addition, the secondary water collector 140 may recover the hot water introduced through the water collecting pipe 131 to the boiler 100 through the recovery pipe 141.

Referring to the operation when applying the heating pipe structure of the present invention as follows.

First, the hot water heated by the boiler 100 or the like is supplied to the primary distributor 110 through the supply pipe 101, and the hot water supplied to the primary distributor 110 is secondary to the heating main pipe 111. Supplied to the dispenser 120. The hot water supplied to the secondary distributor 120 uniformly heats the indoor floor while circulating the plurality of stranded branch pipes 121 for heating in a parallel manner installed in the indoor floor. The hot water circulated through the branch heating pipe 121 for heating is recovered to the primary water collector 130, and recovered to the secondary water collector 140 through the water collecting pipe 131, and finally, the collecting pipe 141 is collected. It is returned to the boiler 100 and recirculated after being reheated.

As such, the heating piping structure of the present invention is provided with primary and secondary distributors 110 and 120 for gradually distributing hot water so as to uniformly heat the entire indoor floor, and parallel to the secondary distributor 120. A plurality of strands for heating branch pipe 121 is installed in the manner is connected, and is provided with a primary and secondary collector 130, 140 for recovering the circulated hot water in stages.

When the heating pipe structure of the present invention is applied, as shown in FIG. 4, even when the indoor floor has a predetermined area or more, it is possible to cover the entire indoor floor by using a plurality of strands for heating branch pipes 121 for connection. This simple and room temperature control is easy.

The secondary distributor 120 and the primary collector 130 may be integrally manufactured as shown in FIG. 5A. Alternatively, as shown in FIG. 5B, a plurality of individual parts may be screwed together or may be manufactured by combining the individual parts by press fitting.

On the other hand, although the heating piping structure according to the present invention has been described in accordance with a limited embodiment, the scope of the present invention is not limited to the specific embodiment, various within the scope obvious to those skilled in the art related to the present invention. Alternatives, modifications and variations of the branches may be implemented.

As described above, applying the heating pipe structure according to the present invention has the following effects.

First, the circulation distance of the hot water passing through the pipe is shortened so that the entire floor can be uniformly heated. Second, as the circulation distance of the hot water passing through the pipe is shortened, the temperature of the hot water returning to the boiler is relatively higher than in the case of the conventional piping structure, thereby improving the energy consumption efficiency when the hot water is heated again so that the hot water is at the set temperature. Can be. Third, as the circulation distance of the hot water passing through the pipe is shortened, the corresponding time according to the set heating condition is relatively shortened, thereby increasing the energy consumption efficiency.

Fourthly, by using a heating pipe with a relatively small diameter it can reduce the pipe installation interval to heat the room more uniformly. Fifth, it is possible to use a relatively small diameter heating pipe to reduce the installation cost by reducing the thickness of the floor covering the pipe. Sixth, even in a room having a predetermined area or more, it is possible to install without dividing into several compartments, thereby simplifying the connection structure when connecting the distributor.

Claims (3)

Piping structure for circulating hot water for heating, A primary distributor 110 for distributing hot water primarily; A heating main pipe 111 through which hot water dispensed from the primary distributor 110 passes; A secondary distributor 120 for secondaryly distributing hot water introduced through the heating main pipe 111; A plurality of strands for heating branch pipes 121 installed at the bottom to circulate the hot water distributed in the secondary distributor 120 in a parallel manner; A primary water collector 130 for firstly recovering hot water introduced by circulating the branch pipe 121; A water collecting pipe 131 through which hot water collected by the primary water collector 130 passes; Heating pipe structure characterized in that it comprises a secondary collector (140) for secondary recovery of the hot water flowing through the collecting pipe (131). The method of claim 1, The secondary distributor 120 and the water collector 130 is a heating piping structure, characterized in that the individual component connection type. The method of claim 1, The secondary distributor 120 and the collector 130 is a heating piping structure, characterized in that the one-piece.

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