KR102031303B1 - heating pipe - Google Patents

Abstract

The present invention relates to a heat transfer excel pipe, which comprises: an excel pipe configured to form a terminal at a front end and a base end, and of which the inside is hollow; a heating material filled in a hollow portion of the excel pipe; a heating wire electrically connected to the terminal formed at the front end and the base end of the excel pipe to generate heat; and a partition wall configured to divide the hollow portion of the excel pipe for the heating material filled in the hollow portion of the excel pipe not to move. According to the present invention, heat can be uniformly released over the whole excel pipe.

Description

Heated Excel Pipe

The present invention relates to an electrothermal excel pipe, and the heat generating material that receives heat from the heated heating wire to the excel pipe does not flow inside the excel pipe so that no air gaps occur in the excel pipe to facilitate heat transfer. It is about the electrothermal Excel pipe.

In general, a hot water pipe connected to a heating device such as a boiler is used on the floor of an indoor room such as an ondol so that hot water is circulated therein for heating.

The heating device using such a hot water pipe is composed of a boiler for heating water by burning oil or gas, a pump for forcibly circulating the heated water, and a pipe of metal or PVC material in which the heated water is stored. The hot water supplied from the boiler is transferred to the inside of the pipe of the synthetic resin to transfer heat, and is usually buried in a lattice or radial shape.

The water heated to a predetermined temperature by such a boiler is heated by forcibly circulating by using a pump in a pipe buried at a position to be heated.

However, such a conventional heating apparatus using hot water has to install a separate boiler to heat water, and uses expensive oil or gas as a fuel of the boiler, which causes a high heating cost, and high density water is heated. Therefore, there is a problem that heat loss occurs due to not only takes a lot of preheating time but also circulates the heated water.

Therefore, as a prior art for solving the above problems, the heating using the "elsel pipe built-in heat-generating heat transfer hot water pipe" of the Republic of Korea Patent No. 10-1680776 and the gel-type heating material of Patent No. 10-1973476. Structure ".

The above-mentioned prior arts have a structure in which a heating material is generated by a heating wire that inserts a bead-type superabsorbent polymer or gel-type heating material into an Excel pipe and generates heat by receiving electrical energy.

However, the prior art as described above has a problem that the heat generating material inserted into the Excel pipe flows to create a void in the Excel pipe, and thus the heat movement is not easily achieved.

In particular, while wiring the Excel pipe, a part of the Excel pipe is bent, and a gap is generated between the heating materials filled in the Excel pipe. Thus, when the air gap is formed in the EL pipe, heat is generated by the voids even though the heating wire is heated. There is a problem that the heat is not transferred to the Excel pipe because the movement is blocked.

KR 10-1680776 B (2016.11.23) KR 10-1973476 B (2019.04.23)

The present invention is to solve the above problems, it is easy to move the heat does not occur in the Excel pipe by the heat generating material that receives the heat from the heated heating wire to transfer to the Excel pipe does not flow inside the Excel pipe is easy. The purpose is to provide a heat transfer Excel pipe that can be made.

According to the technical idea of the present invention for achieving the above object, the terminal is formed in the front end and the base and the inside of the Excel pipe hollow, the heating material filled in the hollow of the Excel pipe, the tip of the Excel pipe And a heating wire electrically connected to a terminal formed at a proximal end to generate heat, and a partition wall partitioning the hollow of the Excel pipe so that the heating material filled in the hollow of the Excel pipe does not flow.

Here, the partition wall is formed to protrude toward the hollow from the inner peripheral surface of the Excel pipe, it is preferable that the hot wire is embedded in the partition wall.

In addition, the hot wire is preferably embedded in the free end of the partition wall.

In addition, it is preferable that a plurality of the partition walls protrude toward the hollows at equal intervals on the inner circumferential surface of the Excel pipe.

In addition, the partition wall preferably has a thickness equal to or smaller than the thickness between the inner circumferential surface and the outer circumferential surface of the Excel pipe.

The partition wall may protrude from the inner circumferential surface of the Excel pipe toward the hollow, and the free end of the partition wall may have a shape in which the thickness thereof decreases toward the center of the hollow.

The partition wall is formed to protrude toward the hollow from the inner circumferential surface of the Excel pipe, and the partition wall has a semicircle shape and a hot wire is embedded in the center thereof.

The partition wall partitions the hollow of the Excel pipe in the form of a lattice, and the heating material is filled in every hollow partitioned by the lattice.

In addition, it is preferable that the steel pipe having flexibility is embedded between the outer circumferential surface and the inner circumferential surface of the Excel pipe.

According to the heat transfer Excel pipe according to the present invention, since the heating material filled in the hollow of the Excel pipe is partitioned by the partition wall so as not to flow, even if the Excel pipe is shaken or bent to block the heating material from moving to another place by the partition wall. The heat provided from the heating wire which does not generate heat can be easily moved through the heat generating material, and thus heat can be uniformly discharged throughout the Excel pipe.

1 is a cross-sectional view showing a first embodiment of a heat transfer Excel pipe according to the present invention.
Figure 2 is a cross-sectional view showing a second embodiment of the heat transfer Excel pipe according to the present invention.
3 is a cross-sectional view showing a third embodiment of the heat transfer Excel pipe according to the present invention.
Figure 4 is a cross-sectional view showing a fourth embodiment of the heat transfer Excel pipe according to the present invention.
5 is a cross-sectional view showing a fifth embodiment of the heat transfer Excel pipe according to the present invention.
6 is a cross-sectional view showing a sixth embodiment of the heat transfer Excel pipe according to the present invention.

The terms or words used in this specification and claims are not to be construed as being limited to the common or dictionary meanings, and the inventors can appropriately define the concept of terms in order to explain their invention in the best way. Based on the principle, it should be interpreted as meaning and concept corresponding to the technical idea of the present invention.

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

1 is a cross-sectional view showing a first embodiment of the heat transfer Excel pipe according to the present invention, Figure 2 is a cross-sectional view showing a second embodiment of the heat transfer Excel pipe according to the present invention.

Referring to the drawings, the heat transfer Excel pipe of the first embodiment and the second embodiment according to the present invention, the inside of the hollow Excel pipe 110, the heating material 120 filled in the hollow, the Excel pipe 110 The heat wire 130 is wired in the interior, the heat generating material 120 filled in the hollow of the Excel pipe 110 is composed of a partition wall 140 for partitioning the hollow.

In other words, the Excel pipe 110 is a plastic pipe made of polyethylene (PE), which has flexibility and is used for boiler piping. The Excel pipe 110 forms a hollow along the length direction, and the terminals and the proximal ends of the Excel pipe 110 are respectively formed to supply electrical energy.

In this way, the terminals respectively formed at the front end and the proximal end of the Excel pipe 110 are electrically connected to the heating wire 130 so that the heating wire 130 generates heat by the electric energy supplied through the terminal.

In addition, the hollow of the Excel pipe 110 is filled with a heat generating material 120 for transferring heat from the heating wire 130 to the heat generated by the Excel pipe 110. The heating material 120 may be, for example, a super absorbent resin polymer, and the superabsorbent resin polymer has a property of absorbing and confining water in its physical properties, thereby making it a superabsorbent resin polymer. Since the heat generating material 120 has a property of being gelated while expanding and absorbing water at least several tens of its own weight, the heat provided from the heating wire 130 is transferred to the Excel pipe 110 through the heat generating material 120. The heat is transferred to the outside of the Excel pipe 110.

In particular, the heat transfer Excel pipe according to the present invention is formed with a partition wall 140 for partitioning the hollow of the Excel pipe 110 so that the heating material 120 filled in the hollow of the Excel pipe 110 does not flow. As shown in FIGS. 1 and 2, the partition wall 140 protrudes toward the hollow from the inner circumferential surface of the Excel pipe 110 such that the heat generating material 120 is positioned between the partition wall 140 and the partition wall 140. .

At this time, the heating wire 130 is embedded in the partition wall 140 so that the heat provided from the heating wire 130 is moved to the partition wall 140 first, and the heat moved to the partition wall 140 is the heating material 120 again. Will be moved to. In particular, since the heating wire 130 is embedded in the partition wall 140 as described above, the heating wire 130 positioned inside the Excel pipe 110 may always be in a constant position, so the Excel pipe 110 ), The heat released from) can always be constant.

That is, when the heating wire 130 has a structure in which the heating wire 130 is located in the hollow together with the heating material 120 so that the heating wire 130 is not buried in the partition wall 140 and directly contacts the heating material 120, the heating material 120 is disposed. The heating wire 130 may be disconnected when the heating wire 130 is changed in position by the heating material 120 or the heating material 120 is injected into the hollow at an excessive pressure during the manufacturing process of filling the hollow.

However, as described above, when the heating wire 130 is manufactured in a structure embedded in the partition wall 140, even though the heating material 120 is filled in the hollow, the position of the heating wire 130 does not change and is emitted from the Excel pipe 110. The heat to be made can be always constant, and the hot wire 130 is prevented from being broken.

In addition, when the heating wire 130 has a structure embedded in the partition wall 140 as described above, the heating wire 130 is embedded in the free end of the partition wall 140 so that the heating wire 130 from the outer circumferential surface of the Excel pipe 110. ) Is far away and the shock is applied to the Excel pipe 110, the impact is not transmitted to the heating wire 130 to prevent the heating wire 130 is disconnected.

As such, when the partition wall 140 protrudes toward the hollow from the inner circumferential surface of the Excel pipe 110 and the heat generating material 120 is positioned between the partition wall 140 and the partition wall 140, the heat generating material 120 in the hollow is formed. ) Prevents flow and does not form voids inside the hollow.

That is, since the present invention is partitioned by the partition wall 140 so that the heating material 120 filled in the hollow of the Excel pipe 110 does not flow, even if the Excel pipe 110 is shaken or bent, the heating material 120 is partitioned ( 140 is blocked to not move to another place, so that no gap is generated, so that the heat provided from the heating wire 130 that generates heat is easily moved through the heat generating material 120, and from there, to the entire excel pipe 110. It can evenly dissipate heat over.

As such, the partition wall 140 partitioning the hollow of the Excel pipe 110 may have a uniform interval on the inner circumferential surface of the Excel pipe 110 so that the heating material 120 filled in the hollow of the Excel pipe 110 does not flow. A dog is formed to protrude toward the hollow to make the wiring of the heating wire 130 more uniform, thereby dissipating heat uniformly throughout the Excel pipe 110.

In addition, the partition wall 140 is formed to have a thickness equal to or smaller than the thickness between the inner circumferential surface and the outer circumferential surface of the excel pipe 110 so that the excel pipe 110 can be bent smoothly, thereby wiring the wire of the excel pipe 110. To facilitate.

That is, when the partition wall 140 is larger than the thickness between the inner circumferential surface and the outer circumferential surface of the excel pipe 110, the excel pipe 110 is easily bent by the thick partition wall when the excel pipe 110 is bent for use as a boiler pipe. If the thickness of the partition wall 140 is smaller than the thickness between the inner circumferential surface and the outer circumferential surface of the excel pipe 110, the excel pipe 110 may be smoothly bent, so that the excel pipe 110 may be easily wired to have excellent construction properties. do.

Meanwhile, as shown in FIGS. 3 and 4, the partition wall 140 protrudes toward the hollow from the inner circumferential surface of the Excel pipe 110, and the free end of the partition wall 140 is gradually moved toward the center of the hollow. The partition wall 140 may have a semicircular shape and may have a structure in which the heating wire 130 is buried in the center thereof.

In the heat transfer Excel pipe according to the third and fourth embodiments, the area of the free end of the partition wall 140 occupies in the hollow is smaller than that of the first and second embodiments, so that the Excel pipe 110 may be easily formed. Can bend.

That is, the partition wall 140 of the heat transfer Excel pipe according to the third embodiment and the fourth embodiment has the shape that the thickness of the free end decreases toward the hollow center or the shape of the semi-circle. When the c) is bent to minimize interference between the free ends of the partition wall 140, the Excel pipe 110 can be smoothly bent.

Meanwhile, as shown in FIG. 5, the partition wall 140 partitions the hollow of the Excel pipe 110 in the form of a lattice, and the heating material 120 is filled in every hollow partitioned by the lattice. It may be made of.

At this time, the thickness of the partition wall 140 partitioning the hollow into a grid is formed to have a thickness equal to or smaller than the thickness between the inner circumferential surface and the outer circumferential surface of the Excel pipe 110 as described above, so that the Excel pipe 110 is smoothly bent. It is possible to facilitate the wiring of the Excel pipe 110.

The heat transfer Excel pipe according to the fifth embodiment shown in FIG. 5 has a structure in which the partition wall 140 partitions the hollow in the form of a lattice and the heating material 120 is filled in each hollow partitioned by the lattice. In order to prevent the flow of the heat generating material 120 so that no gap is generated, heat provided from the heating wire 130 that generates heat is easily moved through the heat generating material 120, and from there, the entire excel pipe 110. The heat can be released uniformly.

Meanwhile, the present invention is not limited to the above-described embodiments, but may be modified and modified without departing from the scope of the present invention, and such modifications and variations should be regarded as belonging to the technical spirit of the present invention. .

For example, as in the sixth embodiment illustrated in FIG. 6, the steel pipe 150 having flexibility is embedded between the outer circumferential surface and the inner circumferential surface of the Excel pipe 110. In this case, the steel wire 150 embedded between the outer circumferential surface and the inner circumferential surface of the Excel pipe 110 may be, for example, a piano string.

As such, as the steel wire 150 having flexibility is embedded between the outer circumferential surface and the inner circumferential surface of the Excel pipe 110, the rigidity of the Excel pipe 110 may be further improved to prevent the Excel pipe 110 from being disconnected. have.

110: Excel pipe 120: heating material
130: hot wire 140: bulkhead
150: steel wire

Claims (4)

An excel pipe forming a terminal at a tip and a base and having a hollow inside thereof;
A heating material filled in the hollow of the Excel pipe;
A heating wire electrically connected to a terminal formed at a front end and a base end of the Excel pipe to generate heat; And
And a partition wall partitioning the hollow of the Excel pipe so that the heating material filled in the hollow of the Excel pipe does not flow.
The partition wall
Protruding from the inner circumferential surface of the Excel pipe toward the hollow, the hot wire is embedded in the partition wall,
The partition wall
Equally spaced at the inner circumferential surface of the Excel pipe and a plurality of protrusions are formed toward the hollow,
The partition wall
The free end of the partition wall is spaced apart from the hollow center of the Excel pipe and has the flexibility to be different from each other,
The partition wall has a shape in which the thickness of the free end decreases toward the center of the hollow, or is made of any one of a semicircle shape in which the heating wire is embedded in the center,
The Excel pipe is a heat transfer Excel pipe, characterized in that the steel wire having flexibility is embedded between the outer peripheral surface and the inner peripheral surface. delete delete delete

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