KR200433759Y1 - Hot-water pipe having improved electric wire for heating - Google Patents

Abstract

An electrothermal hot water pipe with improved heating wire is disclosed. The present invention relates to an electrothermal hot water pipe in which a plurality of heating wires located inside a liquid heat storage medium filled inside the electrothermal hot water pipe are improved in order to prevent a fire caused by contact with each other. A heat transfer hot water pipe comprising: a pipe having a predetermined length and a heat storage medium embedded therein; a sealing means provided at both ends of the pipe; and a heating wire passing through the sealing means and wired inside the pipe. In the heating wire covered with the insulating coating is characterized in that the glass fiber is formed with a plurality of heating holes having a predetermined size so as to have a mesh shape along the outer peripheral surface in the longitudinal direction. Therefore, a mesh-shaped glass fiber is added to the outer circumferential surface of the heating wire to protect the insulation coating when the temperature of the heat storage medium rises, and the heating wire due to frequent shocks that may occur during the aging or construction of the heating water pipe. Even when contacting the liver prevents the overcurrent caused by the short circuit to prevent the occurrence of fire fundamentally, and the effect that can provide a smooth heat supply to the heat storage medium through a plurality of heating holes formed in the glass fiber.

Heating wire, electric heating water pipe, insulation coating

Description

Heated hot water pipe with improved heating wire {HOT-WATER PIPE HAVING IMPROVED ELECTRIC WIRE FOR HEATING}

1 is a view for explaining the structure of a conventional general electrothermal hot water pipe.

Figure 2 is a view showing the heating wire of the heat transfer water pipe according to the heat transfer pipe is improved heat transfer design of the present invention.

3 is a cross-sectional view taken along line AA ′ of FIG. 2.

FIG. 4 is a partially enlarged view of B shown in FIG. 2. FIG.

*** Brief description of the reference numerals for the main parts of the drawings ***

1: electrothermal hot water pipe

10 pipe 20 heat storage medium

30: heating wire 40: sealing means

50: power supply

300: insulation coating 310: glass fiber

320: heating hole

The present invention relates to a heating wire of a heating hot water pipe for heating, and more particularly, a plurality of heating wires located in a liquid heat storage medium filled in the inside of the heating hot water pipe are short-circuited by contact with each other, causing fire due to overcurrent. It relates to an electrothermal hot water pipe with improved heating wire in order to prevent.

In general, the electrothermal hot water pipe is a type of heating device for providing heating as a main type of the electrothermal hot water pipe. The electric heating device is to heat the heating pipe in which the liquid heat storage medium and the heating wire are embedded on the panel, and then supply electrical energy to the heating wire therein to heat the heating pipe.

The electric heating device is relatively simple in structure and inexpensive, and even though general electricity is used, the heat efficiency is increased due to various advantages such as low heating cost. This is followed by a large risk of fire, especially due to the large number of heating wires located inside the heating pipe.

As an example, the plurality of heating wires are supplied with electricity to generate heat, thereby heating the heat storage medium inside the heating pipe, where the plurality of heating wires are set to a predetermined tension at the time of manufacture. Although the contact between heating wires cannot be established, it is difficult to maintain the initial tension over time after the construction of the heating system, and the initial tension gradually becomes loose, and each heating wire eventually becomes in contact with each other in the interior. Due to the short circuit, the instantaneous overcurrent phenomenon may occur repeatedly, which may be a major cause of failure of the heating system, and the fire may be seriously damaged, which may cause damage to life.

In addition, as described above, not only the problem caused by the aging of the hot water heating pipe, but also the external shock of the hot water heating pipe that may occur during the construction of the heating system, or the sealing means inserted by the heating wire is assembled with the pipe and the screw. When the heating wire is rotated together, each wire is twisted inside the pipe may be a short circuit between each other, there is a problem that may cause a fire.

In order to solve the above problems, a conventional heating wire is covered with an insulating coating to prevent short circuits between the wires. However, this can be easily broken due to the aging of the hot water pipe or the high temperature of the heat storage medium. I did not find a solution.

Therefore, the heat transfer hot water pipes of the present invention having improved heating wires have been devised in view of the above problems. The purpose is to provide a hot water pipe that can prevent the risk of fire due to frequent short circuits.

In addition, in the case of a heating wire covered with an insulating coating, an object of the present invention is to provide an insulating hot water pipe that protects the insulating coating when heated to a high temperature due to heating of the heat storage medium, and enables smooth heat transfer from the heat generating wire to the heat storage medium.

In order to achieve the above object, the heat transfer hot water pipe having the improved heating wire of the present invention has a predetermined length and has a pipe 10 having a liquid heat storage medium 20 embedded therein, and both sides of the pipe 10. An electric heating hot water pipe for heating consisting of a heating means (30) provided at an end and a heating wire (30), which is wired inside the pipe (10) through the sealing means (40) and covered with an insulating coating (300) on an outer circumferential surface thereof. In the insulating coating 300, the heating wire 30 is covered with a glass fiber 310 formed with a plurality of heating holes 320 having a predetermined size to have a mesh shape along the outer circumferential surface in the longitudinal direction thereof; It is characterized by.

In addition, the heating wire 30 covered with the insulating coating 300 may be coated with the glass fiber 310 by applying a predetermined adhesive means to the outer peripheral surface and thermal fusion.

Hereinafter, with reference to the accompanying drawings will be described in detail to be easily carried out by those of ordinary skill in the art with respect to the embodiment of the present invention. However, the present invention may be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. In the drawings, parts irrelevant to the description are omitted in order to clearly describe the present invention, and like reference numerals designate like parts throughout the specification. In addition, when a part is said to "include" a certain component, which means that it may further include other components, except to exclude other components unless otherwise stated.

Now with reference to the drawings with reference to the drawings the improved heating wire is improved heating wire according to an embodiment of the present invention are described in the following terms are defined in consideration of the function of the present invention as the user or operator intention or It may vary according to custom. Therefore, the definition should be made based on the contents throughout the present specification.

1 is a view for explaining the structure of a conventional general electrothermal hot water pipe (1). As shown in the drawings, a conventional general electrothermal hot water pipe (1) is provided with a pipe (10) having a liquid heat storage medium (20) embedded therein with a predetermined length, and provided at both ends of the pipe (10). Electrical energy is transferred to the heating means 30, the heating wire 30 penetrating the sealing means 40 and the inside of the pipe 10, and the heating wire 30 of the electrothermal hot water pipe 1 from the outside. It consists of an external power supply unit 50 for supplying.

The general electrothermal hot water pipe 1 receives power from the outside to convert electrical energy into thermal energy through a heating wire 30 to generate heat, and transfers heat to the heat storage medium 20 inside the pipe 10. It uses the principle that the temperature of) rises, and its structure is very simple, so it is inexpensive, it is widely used in the heating system, and it is easy to install.

First, since the length of the pipe 10 is determined according to the location and size of the heating system, the length of the pipe 10 varies considerably, and the heat storage medium 20 is filled therein. The sealing means 40 for sealing both ends of the pipe 10 may be a very important part of the heat transfer hot water pipe 1 by preventing leakage of the internal heat storage medium 20.

The heat storage medium 20 should receive heat from the heating wire 30 and have good heat transfer to transfer heat to the entire pipe 10 within a short time. The heat storage medium 20 should be non-toxic and chemically stable to be harmless to the human body. In addition, it is preferable to use a non-corrosive and non-explosive to prevent corrosion of the pipe (10).

In addition, the heating wire 30 penetrates the sealing means 40 and is inserted into the pipe 10 to transfer heat to the heat storage medium 20, and receives electrical energy from the external power supply unit 50. It generates heat and transfers heat to the heat storage medium 20, which also varies in length because it corresponds to the length of the pipe 10.

On the other hand, the external power source 50 for supplying electrical energy to the heating wire 30 is located outside the electrothermal hot water pipe (1) to supply electricity to the heating wire (30), but to the electrothermal hot water pipe (1) By installing a temperature sensor, you can stop the electricity supply when it is heated up to the set maximum temperature, or adjust the heat output by changing the electricity supply according to the user's temperature setting to adjust the heating temperature of the electrothermal hot water pipe (1). It will include a control unit.

Figure 2 is a view showing a heating wire of the heat transfer water pipe according to the heat transfer pipe is improved heating wire design of the present invention, Figure 3 is a view showing a cross-sectional view of AA 'shown in FIG. The enlarged partial view of B shown in FIG. 2, with reference to the drawings will be described in detail the electrothermal hot water pipe with improved heating wire according to the present invention.

The heating wire 30 shown in FIGS. 2 to 4 is a relatively low unit cost and high thermal conductivity in order to smoothly heat the liquid heat storage medium in the pipe of the electrothermal hot water pipe by receiving electric energy and generating heat. It is mainly used.

The metal heating wire 30 is inserted into the pipe at a plurality of predetermined distances from each other inside the pipe of the heat transfer hot water pipe, because the plurality of metallic heating wire 30 is short-circuited by frequent contact with each other (短 絡) Over current can cause a failure of the heating system, and even cause a fire that can cause serious injury.

Therefore, the heating wire 30 is characterized in that the insulating coating 300 is covered on the outer peripheral surface in the longitudinal direction of the heating wire 30 in order to prevent the above problems in advance.

In this case, the insulating coating 300 is preferably used for the PVC (polyvinyl chloride) material or Teflon (Teflon) material for the normal insulation, not limited to this, various insulating materials may be used.

However, even if the heating wire 30 is covered with the insulating coating 300, in the use of the electrothermal hot water pipe, the appearance change of the coating is made due to the high temperature of the heat storage medium, and in severe cases, the insulating coating 300 is peeled off In addition, a short circuit may occur between the heating wires 30.

Therefore, the heating wire 30 according to the present invention primarily covers the insulating coating 300 on the outside of the heating wire 30 and additionally covers the glass fiber 310 having excellent heat resistance on the outside thereof. The glass fiber 310 forms a plurality of heating holes 320 having a predetermined size so as to have a mesh shape along the outer circumferential surface of the heating wire 30 in the longitudinal direction thereof, thereby smoothly supplying heat from the heating wire 30 to the heat storage medium. It was possible to provide, and was able to fundamentally solve the fire caused by a short circuit between each heating wire (30).

Here, to briefly describe the characteristics of the glass fiber 310 formed with a plurality of heating holes 320, because it withstands high temperature and does not burn, the appearance changes even when the temperature of the heat storage medium rises in the heat transfer pipe. Not at all.

In addition, since it is chemically durable, it does not corrode, and in particular, has excellent tensile strength, and is widely used as an insulating material because of its high electrical insulating property, even if the insulation coating 300 which is primarily covered on the heating wire 30 is peeled off. Insulation is secondary.

Therefore, the heating wire 30 according to the present invention penetrates inside the insulation coating 300 covered on the outer circumferential surface of the heating wire 30 so that the two functions, that is, the function of insulation and heat generation at the same time, and the net Covering the glass fiber 310 is formed with a plurality of heat generating holes 320 to have a shape.

That is, the present invention is characterized in that it can smoothly provide heat to the heat storage medium with the function of insulation through a plurality of heat generating holes 320 of the glass fiber 310.

At this time, the tip of the heating wire 30, that is, the portion to be bonded to the external power source so as not to cover the insulating coating 300 and the glass fiber 310 to receive electricity from the external power source.

On the other hand, the heating wire 30 covered with the insulating coating 300 according to the present invention may be manufactured by additionally covering the mesh-like glass fiber 310 in the manufacturing process of the product, on the outer peripheral surface of the insulating coating 300 It is characterized in that a predetermined adhesive means is applied and the mesh-like glass fiber 310 may be coated on the heating wire 30 covered with the insulating coating 300 by using a heat fusion method.

In addition, as shown in FIG. 4, the outer circumferential surface of the heating wire 30 covered with the insulating coating 300 is covered with a mesh-like glass fiber 310 or coated through thermal fusion, thereby forming the mesh shape. Although a plurality of heating holes 320 are shown in a rectangular form in the embodiment according to the present invention, the present invention is not limited thereto and may be formed in various shapes such as a rhombus shape and a circular shape.

Therefore, the present invention as described above has been described in detail only for the specific examples described, but it is apparent to those skilled in the art that various modifications and changes are possible within the technical scope of the present invention, and such modifications and modifications belong to the appended utility model claims. Is a matter of course.

The electrothermal hot water pipe with improved heat transfer wire of the present invention having the configuration as described above forms a mesh-like glass fiber on the outer circumferential surface of the heating wire to protect the insulation coating when the temperature of the heat storage medium in the heat transfer hot water pipe rises, It prevented over current due to short circuit even when contacting heating wires due to frequent shocks that may occur during aging or construction of electric heating water pipes, thereby preventing fires. The effect is to provide a smooth heat supply to the medium.

Claims (2)

A pipe 10 having a liquid heat storage medium 20 embedded therein with a predetermined length, a sealing means 40 provided at both ends of the pipe 10, and penetrating the sealing means 40. In the electrothermal hot water pipe for heating consisting of a heating wire 30 wired inside the pipe 10 and covered with an insulating coating 300 on the outer peripheral surface, The heating wire 30 covered with the insulating coating 300 is The heat-transfer hot water pipe with improved heating wire, characterized in that the glass fiber 310 is formed with a plurality of heating holes 320 having a predetermined size so as to have a mesh shape along the outer peripheral surface thereof in the longitudinal direction. According to claim 1, wherein the insulation coating 300, the heating wire 30 is covered Electrothermal hot water pipe with improved heating wire, characterized in that the glass fiber 310 is coated by applying a predetermined adhesive means to the outer peripheral surface and heat fusion.

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