KR200271515Y1 - Device for preventing freeze of boiler pipe - Google Patents

Abstract

The present invention relates to a boiler pipe freezing prevention device, and more specifically, to the boiler pipe freezing prevention device installed on the outside of the boiler pipe exposed to the ground in the boiler room to prevent the pipe freezing phenomenon in winter. The purpose is to provide.

And, in order to achieve the above object, the present invention in the boiler tube freezing prevention device, when the power cord is supplied to each cord (4) via an integrated cord (5) connected to the plug (6) or outlet (7) heating wire ( It is to provide a boiler tube freezing prevention device, characterized in that configured to heat the outer peripheral surface of the boiler tube (b) while the heat is generated in 2).

Description

DEVICE FOR PREVENTING FREEZE OF BOILER PIPE}

The present invention relates to a boiler pipe freezing prevention device, and more particularly, to a boiler pipe freezing prevention device installed on the outside of the boiler pipe exposed to the ground in the boiler room to prevent the pipe freezing phenomenon in winter. It is about.

In general, household boilers installed for the purpose of heating in apartments or houses are installed in high places spaced apart from the floor by a certain height in order to secure space necessary for inspection, repair, operation, and valve installation. After the pipe is buried in the concrete floor or mortar, it is exposed to the ground bent at 90 ℃ from the installed boiler location to the plumbing and plumbing plumb vertically.

In addition, when the boiler operates, oxygen is sucked in and the gas exhausted after combustion flows out, so the intake / exhaust port communicating with the outside is installed, and in the winter, the cold air is in the boiler room through the intake port communicating with the outside. At the same time, the air generated during combustion is discharged to the outside through the exhaust port so that there is no external temperature difference, and when the boiler is not operated, water in the boiler tube exposed to the ground in the boiler room is frozen even for a short time.

Accordingly, in order to prevent such freezing, conventionally, the boiler tube exposed to the ground in the boiler room is wrapped with a separate heat insulating material. However, to wrap the boiler tube exposed to the ground in the boiler room with a heat insulating material, the cylindrical heat insulating material may have an arbitrary body portion vertically. Since it is cut and installed, and the exposed pipe is installed with a valve having a larger body diameter than the pipe, the whole outer circumferential surface of the pipe cannot be completely sealed and insulated so that the heat insulation effect is inevitably deteriorated. Because the bottom surface is not smooth and bumpy because the floor is finished with a mortar, etc. At the same time, due to the wind coming in and out through the air supply and exhaust If the position of the insulation to enclose the seam is deformed, the insulation of the insulation occurs and the insulation effect of the boiler tube is reduced.

And, since the thermal insulation material is not a device to increase the temperature of the protection material, and maintains the temperature, when a cold is transmitted to the tube through a gap between the thermal insulation materials, freezing starts from the point where the cold is delivered and gradually widens the range along the tube. Freezing is displaced around.

As a countermeasure to prevent the above-mentioned freezing phenomenon, the boiler should always be operated. However, in recent years, the boiler is automatically operated and stopped by the temperature control device, so that the boiler cannot be continuously operated and heat is generated by the power source. There is a method to increase the temperature of the water by wrapping the heating wire to the pipe, or to reduce the gap allowance of the insulation material to the maximum by wrapping the piping material in double or multiple, the heating wire method is difficult to wrap in the pipe due to the small diameter of the boiler tube, Construction of insulation keeps the boiler room area small, resulting in inconvenience in boiler inspection and repair.

The present invention was devised to improve such a conventional problem, and is provided outside the boiler tube exposed to the ground in the boiler room for connection with the boiler, and provides a boiler tube anti-icing device for preventing pipe freezing in winter. Has its purpose.

1 is a perspective view showing a boiler tube freezing prevention apparatus according to the present invention,

Figure 2 is a sectional view of the main part showing a boiler tube freezing prevention device according to the present invention,

Figure 3 is a perspective view showing another embodiment of the boiler tube freezing prevention apparatus according to the present invention,

Figure 4 is a use state showing another embodiment of the boiler tube freezing prevention apparatus according to the present invention,

Figure 5 is a perspective view showing another embodiment of the boiler tube freezing prevention apparatus according to the present invention,

Figure 6 is a perspective view showing an embodiment of the boiler tube freezing prevention apparatus according to the present invention.

<Description of the code | symbol about the principal part of drawing>

1: housing 2: heating wire 3: pipe holder 4: cord 5: integrated cord 6: plug 7: outlet

In order to achieve the above object, the present invention, in the boiler tube frost preventing device, is configured to heat the outer circumferential surface of the boiler tube when heat is generated when the power cord is supplied to each cord through an integrated cord connected to the plug or outlet It is to provide a boiler tube freezing prevention device characterized in that.

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

1 is a perspective view showing a boiler tube freezing prevention device according to the present invention, Figure 2 is a sectional view of the main part showing a boiler pipe freezing prevention device according to the present invention, Figure 3 is another embodiment of the boiler pipe freezing prevention device according to the present invention 4 is a perspective view showing another embodiment of the boiler tube frost preventing device according to the present invention, Figure 5 is a perspective view showing another embodiment of the boiler tube frost preventing device according to the present invention, Figure 6 is a perspective view showing an embodiment of the boiler tube freezing prevention apparatus according to the present invention.

Housing 1 according to the present invention is composed of a square plate of a predetermined length, the groove is formed in the longitudinal direction in the center of the inner surface in contact with the boiler tube (b), the heating wire (2) along the groove It is inserted.

The pipe holders 3 are fixed to upper and lower ends of the inner surface of the housing 1, and the pipe holders 3 are configured so that two semi-circular tubes are elastically stretched in a pair.

At this time, the pipe holder 3 is elastically fitted to the outer circumferential surface of the boiler tube (b) to be in close contact with the outer circumferential surface of the boiler tube (b).

In addition, the heating wires 2 respectively inserted into the inner grooves of the housing 1 are connected to the cords 4 by connecting to the end ground wires on one side thereof, and the cords 4 are integrated cords 5. The plug 6 is connected to the end of the integrated cord 5, and when the plug is connected to an outlet, the power is supplied to four cords simultaneously. This can improve the problem that the outlet is required.

Here, the four housings 1 are respectively installed in the hot water supply pipe, the hot water supply pipe, the hot water supply pipe, and the hot water return pipe connected to the boiler to prevent freezing of the pipe.

In detail, when the housing 1 is fitted to the boiler tube (b) (hot water pipe, hot water pipe, hot water supply pipe, hot water return pipe) vertically by the pipe holder (3), the heating wire (2) is the boiler pipe ( It comes in close contact with the outer circumferential surface of b), and heat is generated when power is supplied to the heating wire 2 through the plug 6, the integrated cord 5, and the cord 4, and the heat of the heating wire is the boiler tube (b). Heat the outer circumferential surface of) to heat the water in the tube, thereby preventing the water in the tube from freezing.

In particular, the heating wire (2) is formed of two wires in the center of the cover again wrapped with a plastic body that generates heat, and covered with a copper bread, and finally has a multi-layer structure that is covered with a jacket, the radius of curvature is limited Since only the product is allowed, it is difficult to wind and install the boiler tube (b) having a relatively small diameter (16mm, 22mm, 28mm), and even if the heating wire (2) is bent and wound by force, the outer circumferential surface and the heating wire ( 2) is in close contact with the construction is difficult, this may cause heat loss of the heating wire (2) may cause a risk of pipe freezing, and if the bending of the heating wire (2) severely may cause a problem that the bending part is broken. Since the heating wire is inserted into the inner groove of the housing 1, the heating wire may be constructed to be in close contact with the outer circumferential surface of the boiler tube b. In addition, the heating wire may be connected to the heating wire 2 of the housing 1 to an arbitrary length. Independent The four cords (4) start at the bottom of the boiler room and are vertically piped so that the four boiler tubes (b) are spaced apart from each other so that they can be easily connected to the distributed boiler tubes (b) at such intervals. 4 cords (4) are of arbitrary length and then merged into one integrated cord (5) from any length to install one plug (6) at the end of the integrated cord (5). This is because it is inconvenient to have a plug for each cord (4). Furthermore, when power is connected to the integrated cord (5), heat is generated in the heating wire (2) in close contact with the boiler tube (b). This heat transfers the heat to the boiler tube (b) in close contact with the heating wire (2) to increase the temperature of the boiler tube (b), the temperature of the boiler tube (b) is the temperature of the water in the boiler tube (b) To prevent freezing of the water in the tube. On the other hand, the inner surface of the housing 1 The pipe holders 3 respectively provided at the upper and lower ends are formed by means of closely fixing the housing 1 to the boiler tube b, but as shown in FIGS. 3 and 4, the housing 1 without the pipe holder 3 is shown. The housing 1 and the boiler tube b can be wound and fixed by using a string or adhesive tape a after the housing 1 is brought into close contact with the boiler tube b. , In the present invention, the heating wire (2) is built into the housing (1) is heated to the boiler tube (b) while the housing (1) acts as a thermal insulation when the heating wire (2) in close contact with the boiler tube (b) generates heat Is a means for increasing the thermal efficiency, as shown in FIG. 5, the four heating wires 2 are formed to have a predetermined length upright, and are connected to one end of the heating wire 2, respectively, and have an arbitrary length of cord (4). ) Is integrated into the integrated cord (5), the plug 6 is formed at the end of the integrated cord (5), axially on the outer peripheral surface of the boiler tube (b) After contacting the heating wire (2) of a predetermined length in close contact with a string or tape can be fixed, but the installation method as described above will reduce the efficiency of the heating wire (2) but the heating wire (2) of the boiler pipe (b) By lengthening the length in proportion to the low thermal efficiency can be compensated for the lower thermal efficiency.

In addition, although the plug 6 may be installed at the end of the integrated cord 5 according to the method of connecting the power source, the outlet 7 may be installed as shown in FIG.

The present invention provides an effect that can prevent in advance the operation of the boiler by preventing the wave in the boiler tube during the cold winter.

Claims (4)

In the boiler tube freezing prevention device, When power is supplied to each cord 4 through an integrated cord 5 connected to a plug 6 or an outlet 7, heat is generated in the heating wires 2, and the heater circumference of the boiler tube b is heated. Boiler tube freezing prevention device characterized in that. The method of claim 1, The heating wire 2 itself is fixed to the outer circumferential surface of each boiler tube (b) by a string or adhesive tape (a), or inserted into the inner groove of the housing (1) to the string or adhesive tape (a) or the Boiler tube anti-freezing device, characterized in that the pipe holder (3) respectively installed in the upper and lower ends of the housing (1) in close contact with the outer peripheral surface of each boiler tube (b). delete delete