KR102163221B1 - Supporting apparatus of freezing protection heating cable inside the vertical pipe - Google Patents

Abstract

The present invention relates to a device for preventing freezing of vertically installed pipes, and in particular, in high-rise buildings such as apartment houses and buildings, a heating wire inserted to prevent freezing and freezing of low-rise drainage pipes and fire extinguishing pipes is installed in a vertical direction. It relates to a heating wire support device for preventing freeze inside a vertical pipe to support it.
To this end, the present invention has a structure in which a support hole is installed transversely to a vertical pipe installed vertically, and both sides of the support tool penetrating the vertical pipe are fastened and fixed by fasteners outside the vertical pipe. Support
It has a bar-shaped body, and at both sides of the body, fastening portions for screwing are formed from the outside of the vertical pipe, and at least one hot wire fitting hole is formed to penetrate in a radial direction at an approximately central portion of the body, and the body has A hot wire insertion hole is formed in the longitudinal direction and is configured to communicate with the hot wire insertion hole.

Description

Supporting apparatus of freezing protection heating cable inside the vertical pipe

The present invention relates to a device for preventing freezing of vertically installed pipes, and in particular, in high-rise buildings such as apartment houses and buildings, a heating wire inserted to prevent freezing and freezing of low-rise drainage pipes and fire extinguishing pipes is installed in a vertical direction. It relates to a heating wire support device for preventing freeze inside a vertical pipe to support it.

In winter, the fluid flowing through the pipe is frozen, and the volume increases during freezing, so that the pipe cannot withstand the increased volume of the fluid and is often damaged.

In order to prevent freezing of such a pipe, a number of freeze prevention devices have been proposed that prevent fluid from freezing by directly inserting a heating wire into the pipe to generate heat.

As an example, Patent Application Publication No. 10-2014-005255 (a freeze prevention device for piping) is provided with a pipe 102 through which a fluid flows inside, as shown in Figs. 1 and 2, and the pipe 102 A "T"-shaped T-shaped valve 104 is provided to be spaced apart from each other at a predetermined position of ).

In addition, a binding portion 110 is provided that is fixedly coupled to the T-shaped valve 104 provided in the pipe 102, and the binding portion 110 is attached to the T-shaped valve 104 coupled to the pipe 102. It is provided with a binding member 112 that is screwed and fixed.

In addition, between the binding member 112 and the connection valve 120, there is provided a leakage preventing unit 130 to prevent leakage of fluid remaining in the pipe 102, the binding member 112 and the connection valve 120 A pair of washers 132 positioned between the is provided, and a packing 134 is provided between the pair of washers 132.

A connection valve 120 coupled to and fixed to the binding member 112 is provided, and the connection valve 120 has a binding hole 122 formed therein, and is bound to pass through the binding portion 110 to be a pipe ( A heating unit 140 made of a hot wire for dissipating heat is provided after being positioned on the inside of 102).

Therefore, as shown in Fig. 2, after binding a pair of T-shaped valves 104 to the pipe 102 so that a predetermined distance is maintained, the T-shaped valve 104 bound to the pipe 102 is frozen for piping. The prevention device 100 is installed, but the heating unit 140 is installed so as to protrude to the outside of the binding portion 110 that is fixedly coupled to the T-shaped valve 104.

Therefore, by applying power to the heating unit 140 to dissipate heat, the fluid moving through the pipe 102 is prevented from being frozen.

However, the structure of the conventional pipe freeze prevention device is a structure in which a hot wire is mainly inserted into a pipe installed horizontally, and cannot be used for a pipe installed vertically.

In other words, in buildings such as apartments and buildings, a lot of icing occurs in the drainage pipe of the lower floor during winter. This is because the drainage accumulated in the lower part of the vertically installed drainage pipe freezes first, and gradually to the pipe of the lower floor by continuous drainage. It will freeze.

In the frozen state of the lower layer, there are many problems in that the drained water flows back to the lower layer due to continuous drainage from the upper layer.

Therefore, when the conventional pipe freeze prevention structure is applied as it is to such a vertical pipe, the heating wire is not located in the center of the pipe, but is located in either side of the pipe, so that the freezing situation cannot be efficiently resolved.

In addition, when the biased heating wire contacts the pipe from the inside of the pipe, the PVC pipe is damaged by heat, and the heating wire and the pipe frequently collide with the drained water, causing both the heating wire and the pipe to be damaged. Occurs.

Accordingly, the present invention is to provide a heating wire support device for preventing freeze inside a vertical pipe so as to effectively eliminate freezing and prevent damage to the heating wire and the pipe by allowing the heating wire to be arranged vertically in the center of the vertically installed pipe. There is this.

In order to achieve the above object, the heating wire support device for preventing freezing inside the vertical pipe according to the first embodiment of the present invention,

A support hole is installed transversely to a vertical pipe installed vertically, and both sides of the support hole penetrating the vertical pipe have a structure that is fastened and fixed by a fastener from the outside of the vertical pipe,

The support tool is

It has a bar-shaped body, and at both sides of the body, fastening portions for screwing are formed from the outside of the vertical pipe, and at least one hot wire fitting hole is formed to penetrate in a radial direction at an approximately central portion of the body, and the body has It characterized in that the heating wire insertion hole is formed in the longitudinal direction and configured to communicate with the heating wire insertion hole.

A groove portion is formed in the body to have a depth greater than or equal to the thickness of the heating wire, and the hot wire fitting hole is formed in the groove portion.

The body is in the form of a pipe, and a lengthwise incision is formed, and the width of the incision is greater than or equal to the thickness of the heating wire.

The body is characterized in that the body is in the form of a pipe from one side to the portion where the hot wire fitting hole is located in the longitudinal direction, and the inside of the body is blocked from the other side to the portion where the hot wire fitting hole is located.

The support is installed at a lower portion of the vertical pipe and an upper portion of the lower portion thereof, and is configured to support the upper portion and the lower portion of the heating wire in a vertical direction.

The present invention has the effect of preventing freezing and freezing of the vertical pipe by allowing the heating wire to be positioned in the vertical direction on the center of the vertical pipe, as well as preventing clogging of the vertical pipe of the lower layer by preventing such freezing.

1 and 2 are views showing the structure of a conventional freeze prevention device.
Figure 3 is a view showing the disassembled structure of the pipe freeze prevention device according to the first embodiment of the present invention.
Figure 4 is a diagram showing a cross-sectional structure of the present invention installed in a vertical pipe.
Figure 5 is a view showing a second embodiment of the present invention.
Figure 6 is a combined cross-sectional view of Figure 5;
Figure 7 is a view showing various forms of the support according to the present invention.

The above-described objects, features, and advantages will be described later in detail with reference to the accompanying drawings, and accordingly, one of ordinary skill in the art to which the present invention pertains will be able to easily implement the technical idea of the present invention.

In describing the present invention, if it is determined that a detailed description of known technologies related to the present invention may unnecessarily obscure the subject matter of the present invention, a detailed description will be omitted.

The terms used in the present invention have been selected from general terms that are currently widely used while considering functions in the present invention, but this may vary depending on the intention or precedent of a technician working in the field, the emergence of new technologies, and the like.

In addition, in certain cases, there are terms arbitrarily selected by the applicant, and in this case, the meaning of the terms will be described in detail in the description of the corresponding invention.

Therefore, the terms used in the present invention should be defined based on the meaning of the term and the overall contents of the present invention, not a simple name of the term.

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

However, the embodiments of the present invention exemplified below may be modified in various forms, and the scope of the present invention is not limited to the embodiments described below.

The embodiments of the present invention are provided to more completely describe the present invention to those of ordinary skill in the art.

3 is a diagram showing the structure of a support device 300 of a hot wire support device for freeze protection inside a vertical pipe according to the first embodiment of the present invention, wherein the support tool 300 has a bar-shaped body 310 However, such a body 310 may have various shapes such as a circular rod or pipe, a square rod or pipe, a hexagonal rod or pipe.

3 shows an example of the structure of the body 310 in the form of a circular rod.

As shown in FIG. 4, the length of the body 310 has a length that penetrates the vertical pipe 400 so that both sides of the body 310 can be exposed to the outside of the vertical pipe 400, and at least the exposed portions have a thread shape. Fastening portions 311 and 312 are formed, respectively.

The body 310 has a rod shape made of a metal material or synthetic resin material that is resistant to corrosion such as stainless steel, aluminum, etc., and a hot wire insertion hole 313 is formed from one side to the other side of the fastening part 312, and such a hot wire insertion hole 313 has a diameter larger than the thickness of the heating wire.

In addition, the body 310 is formed side by side by passing through one or more heat wire fitting holes 315 and 316 in the width direction in a lengthwise direction at a substantially central portion, and the diameter of the heat wire fitting holes 315 and 316 is formed larger than the diameter of the heat wire , This has a structure in which the hot wire insertion hole 313 and the hot wire fitting holes 315 and 316 communicate with each other.

At this time, the body 310 at the portion where the hot wire fitting holes 315 and 316 are located is formed with a groove 314 that is dug in the width direction, so that the inside of the intermediate portion of the body 310 is opened through the groove 314, It is a structure in which hot wire fitting holes 315 and 316 are formed at the bottom.

Such support tool 300 may have various shapes as shown in Figs. 7(a) to 7(d), in which (a) a heating wire fitting hole is formed in a pipe-shaped body, and the heat wire fitting hole is circular or elliptical It shows the structure formed in (long hole form).

In the case of (b), the pipe-shaped body has a lengthwise cut in the lengthwise direction, and a hot wire fitting hole is formed at the bottom of the body facing the cut part.

In the case of (c), one side of the body is blocked, and the other is a pipe-shaped heating wire insertion hole.After the body is cut in the longitudinal direction, a heating wire insertion hole is formed at the bottom of the heating wire insertion hole. .

In the case of (d), a groove is formed in the central portion of the body in the form of a pipe, and a hot wire fitting hole is formed in the bottom portion of the body facing the groove.

4 is a cross-sectional view of a structure in which the present invention is installed in a vertical pipe 400, and the support 300 illustrates the structure shown in FIG. 3 as an example, and as mentioned above, FIG. 7 ( As shown in a) to 7(d), various forms may be applied.

Through holes 410 and 420 horizontally penetrating the vertical pipe 400 are formed, and support holes 300 are inserted through the through holes 410 and 420 so that both sides of the support holes 300 are Each is exposed to the outside.

The sizes of the through holes 410 and 420 have a size into which the support 300 can be inserted.

At this time, in the support hole 300, the heating wire 500 is inserted into the vertical pipe 400 in a state where the heating wire 500 is inserted into the heating wire insertion hole 313 and the heating wire fitting holes 315,316, and two heating wire fitting holes 315,316 ), the heating wire 500 is bent and mounted on the support 300, so that the heating wire does not easily come out even if it is pulled from the outside or the lower side of the vertical pipe 400.

In the portion where the support 300 is exposed to the outside of the vertical pipe 400, that is, the portion of the fastening portions 311 and 312, the nut-shaped fasteners 320 and 330 are screwed together with the packings 321 and 331, so that the vertical pipe 400 It is stably fixed to

In addition, the portion of the hot wire insertion hole 313 into which the hot wire 500 is inserted is also waterproofed by a separate airtight member. Such airtight members can use various forms such as a crown nut, and this is not necessarily expressed in the present invention. .

The support tool 300 is installed on the upper side and the lower side of the point where freezing of the vertical pipe 400 is expected, and the heating wire 500 is routed into the vertical pipe 300 through the support hole 300 at the upper side. After drawing in, it has a structure in which the heating wire 500 is drawn out through the lower support.

In addition, the location of the heating wire fitting holes 315 and 316 is approximately located above the center of the vertical pipe 400, and the heating wire 400 is formed by the heating wire fitting holes 315 and 316 formed in the support holes 300 at the upper and lower sides, respectively. Since it is fixed in a vertical state, when water is drained, the heating wire 400 is not shaken and can maintain a vertical state.

5 is a view showing a second embodiment of the present invention, a structure in which a through hole 410 is formed only on one side of the vertical pipe 400, and a support tool 700 is inserted and fixed inside. The fixture 800 coupled with the 700 is fixed to the outside of the through hole 410 of the vertical pipe 400 to fix the support tool 700.

This fixture 800 may be fixed by a clamp 600 as shown in the drawing, and has a structure that can be fixed in various forms without being limited to the clamp 600.

The clamp 600 is for stably fixing the fixture 800 to the vertical pipe 400, and the one side body 610 surrounding one side circumference of the vertical pipe 400, and the other side circumference of the vertical pipe 400 Consisting of the other side body 620 that wraps.

One side body 610 has a curved portion formed on one side to surround the curved surface of one side of the vertical pipe 400, and each protruded to both sides of the other side body 610, and bolt holes 613 and 614 are formed in the extended portion. have.

In addition. A fastening part 611 protruding to one side is formed in the middle of the body 610, and this fastening part 611 has a through hole, and a screw part 612 is formed inside the through hole. .

The other side body 620 is a structure facing the one side body 610, and is a structure surrounding the other side of the vertical pipe 400, protruding and extending to both sides, respectively, bolt holes 621 and 622 are formed in the extended portions.

Therefore, after forming the through hole 410 for inserting the heating wire 500 into the vertical pipe 400, the heating wire 500 is inserted, and the fastening part 611 of the one side body 610 is connected to the vertical pipe 400 ) To match the through hole 410.

In this case, a packing for waterproofing may be mounted between the fastening part 611 and the through hole 410.

When one side body 610 is mounted, the other side body 620 is placed on the other side of the vertical pipe 400, and bolts 630, 640 are inserted through bolt holes 613,614,621,622, and firmly fastened by nuts 631,641.

When the clamp 600 is fastened in this way, the fastener 800 is fastened to the fastening part 611. The fastener 800 has a columnar shape and a heated wire through hole 814 penetrating in the vertical direction, A stopper 812 protruding outward is formed outside the middle portion, and one side fastening portion 811 in the form of a thread is formed on one side of the stopper 812, and a threaded form is formed on the other side of the stopper 812. The other side fastening part 813 of is formed.

The stopper 812 has a hexagonal or octagonal shape in order to easily rotate the fastener 800 by a tool such as a spanner to fasten or release the fastening.

In addition, a screw fastening portion 815 is formed inside the hot wire through hole 814 to screw the support 700.

Since the support member 700 has a pipe-shaped body 710, a heating wire insertion hole 720 is formed through the longitudinal direction, and the body 710 has one or more, preferably two heating wire insertion holes 740,750 ) Is formed through the width direction of the body 710, so that a total of four hot wire fitting holes 740,741,750,751 are formed.

In addition, it is a structure in which the fastening part 730 is formed only on one side to be fastened to the fixture 800.

The support 700 is not installed through the vertical pipe 400 as in the first embodiment of the present invention, but is located only inside the vertical pipe 400 to support the heating wire 500.

In addition, the support member 700 may have various shapes as shown in FIGS. 7(e) to 7(g).

Figure 6 is a cross-sectional structure of the coupling, and the support 700 is an example of the structure shown in Figure 5, as mentioned above, as in Figures 7(e) to 7(g). You will be able to apply the form.

A through hole 410 horizontally penetrating the vertical pipe 400 is formed, and the clamp 600 is fastened to the outside of the through hole 420, and the support 700 is first inserted into the heated wire through hole of the fixture 800 It is screwed to 814 and fastened. By this fastening, the hot wire insertion hole 720 and the hot wire through hole 814 communicate with each other.

Therefore, the heating wire 500 is inserted into the heating wire insertion hole 720 and the heating wire through hole 814, and then inserted into the heating wire fitting holes 740,750 and 751 in a state of being inserted into the inside of the vertical pipe 400, Thereafter, the fixture 800 is fastened to the fastening part 611 of the clamp 600.

The clamp 600, the support 700, and the fixture 800 are installed above and below the point where freezing of the vertical pipe 400 is expected, respectively.

As described above, specific parts of the present invention have been described in detail, and for those of ordinary skill in the art, it is obvious that these specific techniques are only preferred embodiments, and the scope of the present invention is not limited thereby. something to do.

Accordingly, it will be said that the substantial scope of the present invention is defined by the appended claims and their equivalents.

300: support 310: body
311,312: fastening part 313: hot wire insertion hole
314: groove 315,316: hot wire fitting hole
400: vertical pipe 410: through hole
500: heating wire

Claims (8)

A support tool having a length penetrating in the transverse direction is installed in a vertical pipe installed vertically, and both sides of the support tool passing through the vertical pipe have a structure that is fastened and fixed by fasteners outside the vertical pipe,
The support tool is
It has a bar-shaped body, and at both sides of the body, a fastening part for screwing is formed on both sides of the body that are exposed to the outside through the vertical pipe, and at the center of the body, at least two heating wires are bent and fitted. A hot wire support device for freeze protection inside a vertical pipe, characterized in that the fitting hole is formed by passing through in a radial direction, and a heat wire insertion hole is formed in the body in a longitudinal direction to communicate with the heat wire fitting hole.
The apparatus of claim 1, wherein a groove portion is formed in the body to have a depth equal to or greater than the thickness of the heating wire, and the heating wire fitting hole is formed in the groove portion.
The apparatus of claim 1, wherein the body has a pipe shape, and a lengthwise cutout is formed, and the width of the cutout is greater than or equal to the thickness of the heat wire.
The method of claim 1, wherein the body is in the form of a pipe from one side in the longitudinal direction to the part where the hot wire fitting hole is located, and the inside of the body is in the form of a blocked bar from the other side to the part where the heat wire fitting hole is located. Heated support device.
The heating wire for freeze protection inside a vertical pipe according to claim 1, wherein the support is installed at the lower part of the vertical pipe and at an upper part of the lower part thereof to support the upper part and the lower part of the heating wire in a vertical direction. Support device.
It has a structure of a fixture that penetrates one side of a vertical pipe installed vertically and is located in a horizontal direction inside, and is fixed outside the penetrating part of the vertical pipe to fasten and fix one side of the support,
The support tool is
It has a bar-shaped body, and at one side of the body, a fastening part for screwing in the fastener is formed so that the other side of the body is inserted into the inside of the vertical pipe while being fastened with the fastener, and the other side of the body At least two heating wire fitting holes are formed to be bent and inserted in a portion spaced apart from the inner wall surface of the vertical pipe, and a heat wire insertion hole is formed in the body in the longitudinal direction to communicate with the heating wire fitting hole. Is configured to
A heat wire support device for preventing freezing inside a vertical pipe, wherein a through hole is formed in the fixture in a longitudinal direction so that the heat wire is inserted while the fastening part of the support is fastened to communicate with the heat wire insertion hole of the support.
The freezing wave inside a vertical pipe according to claim 6, wherein the support tool and the fixture are installed at the lower side of the vertical pipe and at the upper side of the lower side, respectively, to support the upper and lower parts of the heating wire in a vertical direction. Heated wire support device for prevention.
[7] The apparatus of claim 1 or 6, wherein the heating wire fitting hole has a long hole shape.

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