KR101568674B1 - Heater Rod For Pipe Bending - Google Patents

Abstract

The present invention relates to a heater rod for bending a wire pipe which, more particularly, enables a user to insert a heat wire into the wire pipe and to bend the wire pipe by heating a desired location of the wire pipe. The heater rod includes: an insulation body; a heat wire body installed to have multiple stages to cover the insulation body; a thermo-conductive pipe which is installed to cover the heat wire body, is inserted in the wire pipe, receives conduction of heat of the heat wire body, and provides heat to the wire pipe; and a control body which is joined to a rear end portion of the insulation body and adjusts a heating location and a heating temperature of the heat wire body. According to the present invention, the heater rod is inserted ino the wire pipe, heats a desired location, and consequently can bend the wire pipe. Therefore, the heater rod can safely bend the wire pipe.

Description

{Heater Rod For Pipe Bending}

The present invention relates to a heater bar for bending a conduit tube, and more particularly, to a heater bar for bending a conduit tube by inserting a hot wire inside a conduit tube and bending the conduit tube by applying heat to a desired position.

Generally, conduits are installed at the construction site to insulate the insulated wires or cables inside the building. At this time, it is necessary to bend the conduit according to the installation location and location. Usually, the bending work of the conduit proceeds by directly heating the conduit with the gas torch.

In this case, not only is there a risk of fire, but also there is a problem of safety accidents that may occur when handling a gas torch.

In addition, since the conduit is located in the same place as the insulation material including the styrofoam, when the multi-layered building is constructed, the insulation material is first applied, the reinforcing bars are arranged, and the conduit work is started before the concrete is poured. When the insulation is melted, the shape of the conduit is deformed, or the part of the pipe is burnt, it is very weak to the impact, and there is a risk of damage when the concrete is added.

In addition, there is also a problem that the radius of curvature is in violation of the regulation because the curvature of the inside of the conduit is not constant.

On the other hand, there is a problem in that it is very dangerous to bend the conduit by directly applying heat to the conduit during direct piping work in a closed space such as a part of the construction site.

An object of the present invention is to provide a heater rod for bending a conduit which can be inserted into a conduit to bend the conduit by applying heat to the conduit.

It is another object of the present invention to provide a heater rod for bending a conduit which can form a plurality of heat lines and bend the conduit at a desired position.

It is also an object of the present invention to provide a heater rod for bending a conduit applicable to conduits of various diameters.

Further, it is an object of the present invention to provide a heater rod for bending a conduit which can be temperature-controlled to be heated.

It is another object of the present invention to provide a heater rod for bending a conduit which can bend a conduit while uniformly transmitting heat.

Another object of the present invention is to provide a heater rod for bending a conduit which can have a certain curvature radius inside the curved conduit.

The present invention relates to a heater for bending a conduit, comprising: an insulation body (100); A heat ray body 200 installed at multiple stages so as to surround the insulating body 100; A heat conduction pipe 300 installed to surround the heat ray body 200 and inserted into the conduit 10 to receive heat from the heat ray body 200 to supply heat to the conduit 10; And a control body (400) coupled to a rear end of the insulating body (100) to adjust a heating position and a heating temperature of the heating body (200); And a control unit.

The heat ray body 200 according to the present invention includes a first heat ray 210 surrounding the upper portion of the insulating body 100, a second heat ray 220 surrounding the central portion, a third heat ray 230 surrounding the lower portion, Wherein the control body 400 controls one of the first heat line 210, the second heat line 220 and the third heat line 230 to be heated and the first heat line 210, And the heating temperature of the second heating line 220 and the third heating line 230 is controlled.

In addition, an inner side of the heat conduction pipe 300 of the present invention is formed with an insertion portion 310 inserted into the heat conduction body 200 to be in close contact with the outer side of the heat conduction body 200,

The outer side of the heat conduction pipe 300 is inserted into the conduit 10 so as to be closely contacted with the heat conduction pipe 300, and the conduits of the heat conduction body 200 are transferred to the conduit 10.

Further, the outer side of the heat conduction pipe 300 according to the present invention is formed to have various diameters according to the inner diameter of the conduction pipe 10, and is detachably attached to the heat conduction body 200.

Meanwhile, the insulation body 100 of the present invention is separated from the control body 400, and is electrically connected in a separated state.

The control body 400 further includes a connection line reel 500 incorporated in the control body 400. The connection line 510 incorporated in the connection line reel 500 may connect the insulation body 100 and the control body 400 are electrically connected to each other, and the insulating body 100 is detached from the control body 400.

The present invention is inserted into a conduit tube to heat a desired position, thereby performing a bending operation of the conduit tube, thereby effectively bending the conduit tube.

In addition, the present invention has the effect of bending a conduit of various diameters with one bending heater bar.

In addition, the present invention has an advantage that bending work can be smoothly performed even in a narrow space.

Further, the present invention can bend the conduit while uniformly applying heat to the conduit, and the heat is uniformly applied to the conduit, so that the temperature of the conduit is lowered, thereby preventing the conduit from hardening during bending.

1 is a front view of a heater rod for bending a conduit according to an embodiment of the present invention;
2 is a perspective view of a heater rod for bending a conduit according to an embodiment of the present invention;
3 is a perspective view illustrating a heat conduction pipe 300 in a heat pipe bending heating rod according to an embodiment of the present invention.
4 is a perspective view illustrating a heat pipe 300 having different diameters from a heater bar for bending a conduit according to an embodiment of the present invention.
5 is an exploded perspective view of a heater bar for bending a conduit according to an embodiment of the present invention.
6 is a perspective view illustrating the use of a heater bar for bending a conduit according to an embodiment of the present invention;

Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings so that those skilled in the art can easily carry out the present invention.

FIG. 1 is a front view of a heater bar for bending a conduit according to an embodiment of the present invention, FIG. 2 is a perspective view of a heater bar for bending a conduit according to an embodiment of the present invention, and FIG. 3 is a perspective view of a heater bar for bending a conduit according to an embodiment of the present invention. FIG. 4 is a perspective view illustrating a heat pipe 300 having different diameters from a heater bar for bending a conduit according to an embodiment of the present invention. FIG. 5 is a perspective view of the heat pipe 300 according to an embodiment of the present invention. FIG. 6 is a perspective view illustrating the use of a heater bar for bending a conduit according to an embodiment of the present invention. FIG. 6 is a perspective view illustrating a heater bar for bending a conduit according to an embodiment of the present invention.

In FIG. 1, the position indicator 422 and the temperature indicator 432 are shown in detail only in FIG. 1, but are omitted in FIG. 2 to FIG. 6. In the case of FIG.

The heater bar for bending a conduit according to an embodiment of the present invention includes an insulating body 100, a heat ray body 200, a heat conduction tube 300, and a control body 400.

The insulation body 100 includes a circular bar-shaped insulator 110 on its upper portion and a hollow cylindrical connection portion 120 on its lower portion.

The insulator 110 is formed of a material that blocks the transmission of heat or electricity and is formed into a soft round bar shape. The material to be used herein may be glass, ebonite, rubber, lime, titanium, paraffin, polyethylene, stearate, scum, mica, etc. However, it is not limited thereto and it is possible to use a soft material desirable.

The heating wire body 200 is spirally wound on the outer circumference of the insulator 110 over the entire length. The insulator 110 serves to support the winding state of the heat ray body 200 and prevents the heat generated from the heat ray body 200 from being conducted to the insulator 110 and is transmitted only to the heat ray tube 300 As well.

At this time, it is appropriate that the heat ray body 200 is wound at a position separated from the end of the insulator 110 by 4 to 5 cm.

In addition, at least two coupling protrusions 112 are protruded from the lower portion of the insulator 110 in the outer direction.

The coupling protrusion 112 is used as a means for fixing the heat conduction tube 300 when the heat conduction tube 300 is attached to and detached from the insulator 110. And the coupling protrusion 112 is fixed to the coupling groove 320 formed in the lower portion of the heat conduction pipe 300. The thermal conduction tube 300 is coupled to the insulator 110 and the thermal conduction tube 300 is separated from the insulator 110 when the coupling protrusion 112 is rotated with the coupling protrusion 112 inserted in the coupling groove 320 .

The coupling protrusion 112 also prevents the coupling part 120 from entering the inside of the conduit 10.

The engaging portion 120 is fixed to the lower end of the insulating body 100 to support the lower portion of the insulator 110. The coupling part 120 has a thermal wire receiving part 124 in which a connection wire 510 can be received and at least two coupling protrusions 122 protruding from the outer side.

The coupling protrusion 122 protrudes outward and is used as a fixing means when the insulating body 100 is detached from the control body 400. The coupling protrusion 122 is fixed to the handle 410 of the control body 400 by inserting the coupling protrusion 122 into the coupling groove 412. When the coupling protrusion 122 is rotated with the coupling protrusion 122 inserted into the coupling groove 412, Is coupled to the control body 400 and is rotated in the opposite direction to be removed, the insulating body 100 is separated from the control body 400.

The electric power can be continuously supplied through the connection line 510 of the connection reel 500 even when the insulation body 100 and the control body 400 are separated from each other.

The heat ray body 200 includes a first heat ray 210 and a second heat ray 220 and a third heat ray 230 as heat rays wound in multiple stages over the entire length of the outer periphery of the insulator 110, (300) to supply heat to the heat conduction pipe (300). At this time, the heat-conducting body 200 can be a constant-temperature electric wire, nichrome wire, silicon hot wire, one kind of nickel chrome, two kinds of nickel chrome, one kind of iron chrome and two types of iron chrome.

The first heating line 210 is wound on the upper part when the insulating body 100 is divided into third parts and the central heating part 220 and the third heating line 230 are wound on the lower part so that the heating can be independently controlled . The first heating line 210, the second heating line 220 and the third heating line 230 are connected to the heating position adjusting switch 420 of the control body 400 and the heating position adjusting switch 420 Each power on / off is controlled by operation.

The heating body 200 can be heated to a temperature of 60 to 80 degrees with a temperature control switch 430. The heating temperature is preferably 60 to 70 degrees in the summer and 70 to 80 degrees in the winter.

On the other hand, in a state where the heat ray body 200 is wound on the outer circumference of the insulator 110, the heat conductor material 20 is coated over the entire surface of the heat ray body 200. The heat conduction member 20 is made of a material having a high thermal conductivity and is formed by coating a gap in the insulating body 100 where the heat ray body 200 is not wound and having the same thickness as the wound portion.

When the heat conduction tube 300 is inserted into the insulator 110, the heat conduction body 200 is brought into close contact with the inner circumference of the heat conduction tube 300 and the heat of the heat conduction body 200 is easily transferred to the heat conduction tube 300 It allows us to be evangelized. On the other hand, as the material used for the heat conduction material 20, a thermal grease, a thermal compound, a heat conduction tape, a heat conduction sheet, a heat conduction silicone, a heat conduction grease and the like can be used.

The heat conduction tube 300 has a hollow circular rod shape with a closed end, and the fitting portion 310 is formed inside. The fitting portion 310 is in contact with the heat conductive body 200 and the heat conductive material 20 to receive heat when the heat conductive body 200 is wound and inserted into and detached from the insulated body 110 coated with the heat conductive material 20 . The material of the heat conduction pipe 300 is formed of a soft copper plate, a copper alloy, an aluminum alloy or the like with excellent thermal conductivity.

In addition, a coupling groove 320, which can be fitted and fixed to the coupling protrusion 112 protruding from the lower portion of the insulator 110, is formed at the lower outer peripheral edge of the heat conduction pipe 300, At this time, the engaging groove 320 is formed to correspond to the size and position of the engaging projection 112.

The heat conduction tube 300 is inserted into the conduit 10 and the outer circumference of the heat conduction tube 300 is in contact with the inner circumference of the conduit 10. The heat conduction pipe 300 receives the heat of the heat conduction body 200 and supplies the heat to the inner circumference of the conduit 10.

When the heat conduction tube 300 is bent at this time, the conduit tube 10 is bent according to the shape of the heat conduction tube 300.

Meanwhile, as shown in FIG. 4, the heat conduction pipe 300 has a constant inner diameter for use with the conduit 10 of various diameters, but its outer thickness becomes thicker and larger. The diameter of the fitting part 310 inserted into the heat wire body 200 in the heat conduction tube 300 is the same but the external thickness is changed according to the inner diameter of the conduit tube 10.

For example, the present invention can be applied to a conduit 10 having a diameter of 16, 22, 28, 36 mm or more. The outer diameter of the conduit 300 is thickened according to the inner diameter of the conduit 10, (Not shown). Thus, the heat conduction pipe 300 can be easily replaced according to the diameter of the conduit 10.

The control body 400 includes a handle 410 held by a user, a heating position adjustment switch 420 for adjusting the heating position of the heat ray body 200, a temperature adjustment switch 430 for adjusting the heating temperature, A connecting line reel receiving groove 440 for receiving the reel 500, a battery receiving groove 450 for accommodating the battery 600, and a battery lid 460.

The handle 410 has a hollow cylindrical shape, a partition wall is formed at an inner center portion thereof, a connecting line reel receiving groove 440 is formed at an upper portion, and a battery receiving groove 450 is formed at a lower portion.

An engaging groove 412, which can be fitted and fixed to the engaging protrusion 122 of the engaging portion 120, is formed in the outer peripheral upper end of the handle 410 by being cut into an 'a' shape. At this time, the engaging groove 412 is formed to correspond to the size and position of the engaging projection 122.

The heating position adjustment switch 420 is installed on the lower outer side of the handle 410 and controls power on / off of the heater body 200. On the side surface of the heating position adjusting switch 420, a position indicating portion 422 marked OFF, lower, upper, and upper is formed.

The heating position adjustment switch 420 can be operated by independently operating the upper, lower, and lower switches, or by superimposing the upper, lower, and lower ends of the upper, lower, and lower switches in a state in which the power on the OFF side is turned off by each individual switch. That is, when the upper end and the break switch are pressed, power is simultaneously applied to the first heating line 210 and the second heating line 220. Accordingly, the first heating line 210 and the second heating line 220 are heated and the inside of the conduit 10 is heated.

Here, the detailed wiring of the heating wire body 200 according to the operation of the heating position adjusting switch 420 will be omitted.

The temperature control switch 430 is installed on the upper side of the knob 410 to adjust the temperature of the heating wire body 200 selected by the heating position adjusting switch 420. A temperature display portion 432 having 60 °, 70 °, and 80 ° marks is formed on the upper portion of the temperature control switch 430.

The heating temperature of the heating wire body 200 can be adjusted by moving the temperature control switch 430 in the vertical direction. The temperature control switch 430 is applied in a variable resistance manner.

The connecting line reel receiving groove 440 is a space in which the connecting line reel 500 is fixedly received at the lower end.

The battery receiving groove 450 is a space in which the battery 600 for supplying power to the heat-conducting body 200 is accommodated.

The battery cover 460 is a cover that prevents the battery 600 housed in the battery receiving recess 450 from being pulled out. The battery cover 460 is detached from the rear end of the handle 410 by screwing, tight fitting, or the like.

The connecting line reel 500 is fixed to the connecting line reel receiving groove 440, and the connecting line 510 is incorporated therein. One end of the connecting line 510 is connected to the battery 600 and the heating position adjusting switch 420 and the temperature adjusting switch 430 and the other end of the connecting line 510 is connected to the heat conducting body 420 through the connecting portion 120 of the insulating body 100. [ (Not shown).

When the insulated body 100 and the control body 400 are separated from each other, a spring (not shown) is built in the connection line 510. When the insulated body 100 and the control body 400 are separated from each other, The connection line 510 is automatically wound.

The battery 600 is accommodated in the battery receiving groove 450 and supplies power to the heat-conducting body 200. The battery 600 may be replaced by a general power source or may be used as a battery 600 and a general power source.

6 is a perspective view illustrating the use of a heater bar for bending a conduit according to an embodiment of the present invention. Referring to FIG. 6, the use of a heater bar for bending a conduit according to an embodiment of the present invention will be described.

6 shows an example in which the first heating wire 210 is selected (in a state in which only the top switch is turned on by the heating position adjusting switch 420) and heated to 60 DEG C, and then the conduit 10 is bent. And the configuration related thereto is mainly shown.

The heat conduction pipe 300 corresponding to the inner diameter of the conduit 10 is fitted into the heat conduction body 200. The heat conduction tube 300 is inserted into the conduit 10 to be bent. At this time, the user can selectively apply the heat conduction pipe 300 corresponding to the diameter of the conduit 10 as shown in FIG.

After inserting the heat conduction pipe 300, the position of the conduit 10 to be heated is confirmed, and the heating position is adjusted by operating the heating position adjustment switch 420. Then, the temperature control switch 430 is operated to adjust the heating temperature.

The heating wire designated by the heating position adjustment switch 420 among the first heating wire 210, the second heating wire 220 and the third heating wire 230 is heated and the heat conduction tube 300 at the corresponding position is also heated, Heat is transmitted to the conduit 10 in contact with the conduit.

The heat conduction conduit 10 is softened so that it can easily bend as it is heated. In this state, the user bends the heat conduction tube 300 at a desired angle. Then the conduit 10 is bent accordingly.

10: conduit 20: heat conduction material
100: Insulation body
110: insulator 112: engaging projection
120: engaging portion 122: engaging projection
124:
200: heat conductor body
210: first heating line 220: second heating line 230: third heating line
300: heat conduction tube 310: fitting portion 320:
400: control body
410: handle 412: engaging groove
420: heating position adjustment switch 422: position display section
430: Temperature control switch 432: Temperature display
440: Connecting line reel receiving groove 450: Battery receiving groove
460: Battery cover
500:
510: Connecting cable
600: Battery

Claims (6)

A heater for bending a conduit,
An insulating body (100);
A heating wire body 200 installed to surround the insulating body 100;
A heat conduction pipe 300 installed to surround the heat ray body 200 and inserted into the conduit 10 to receive heat from the heat ray body 200 to supply heat to the conduit 10; And
A control body 400 coupled to a rear end of the insulating body 100 to adjust a heating position and a heating temperature of the heating body 200; And a heater rod for bending the conduit.
The method according to claim 1,
The heat ray body (200)
A first heating wire 210 surrounding the upper portion of the insulating body 100; a second heating wire 220 surrounding the central portion; and a third heating wire 230 surrounding the lower portion of the insulating body 100,
The control body (400)
The first heating wire 210, the second heating wire 220 and the third heating wire 230 are heated so that the first heating wire 210, the second heating wire 220 and the third heating wire 230 Wherein the heating temperature of the heater bar is adjusted.
3. The method of claim 2,
An inner side of the heat conduction tube 300 is inserted into the heat conduction body 200 to form an insertion portion 310 which can be in close contact with the outer side of the heat conduction body 200,
Wherein the outer side of the heat conduction pipe (300) is closely inserted into the conduction pipe (10), and the heat of the heat conduction body (200) is received and supplied to the conduit pipe (10).
The method of claim 3,
The outside of the heat conduction pipe (300)
And is formed to have various diameters according to the inner diameter of the conduit (10)
And the heat sink body (200) is detachably attached to the heating wire body (200).
The method according to claim 1,
The insulation body 100 is separated from the control body 400,
Wherein the first and second electrodes are electrically connected to each other in a separated state.
5. The method of claim 4,
Further comprising a line reel (500) embedded in an upper portion of the control body (400)
The insulated body 100 is electrically connected to the control body 400 by a connection line 510 incorporated in the reel 500 and the insulated body 100 is detached from the control body 400 Heater rods for conduit bending.

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