KR101957829B1 - Heating equipment with connecting line to keep spacing - Google Patents

Abstract

The present invention is to lower a defective rate of a sheath heater and to ensure economic efficiency in manufacturing. According to the present invention, heater equipment includes: at least two sheath heaters with intervals therebetween; a power supply line connected to the sheath heaters, and disposed only on one side of the sheath heaters so that the other side of the sheath heaters is free; and an interval maintaining connection means connecting the other side of the sheath heaters with constant intervals. According to the present invention, the heating equipment provides the following effects: (a) when a sealing housing is ultrasonic-welded, defects of products can be prevented by restricting the deflection of a damaged part on the power supply line due to a structure corresponding to the damage of a wire covering part of the power supply line, which is inevitable; (b) the decrease in durability can be prevented by preventing the sheath heaters in the sealing housing from being slightly shaken or from rotating; and (c) when only one side of the sheath heaters is connected by the power supply line, the problem of large work requirements for transportation and installation can be solved.

Description

HEATING EQUIPMENT WITH CONNECTING LINE TO KEEP SPACING INCLUDING EXPANSION LENGTH

The present invention relates to a heat transfer facility using a sheath heater. A typical example of application of the heating apparatus facility body according to the present invention is a heating facility body. The facility body is buried to perform a heating function.

However, the technical idea of the present invention is not limited to buried heat transfer devices. As will be described later, the present invention aims at lowering the defective rate of the sheath heater and securing the economical efficiency of the manufacturing process. All of the sheath heaters to which such a technical idea is applied belong to the technical category of the present invention. However, in order to simplify the invention, a buried heat transfer apparatus body to which the sheath heater of the present invention is applied will be described as an example.

A sheath heater is a typical electric heater, which is a tubular heater in which a heating wire is embedded in a metal protective tube in the form of a coil, and magnesium oxide, which is an insulating powder, is charged and charged together to insulate the heating wire and the protective pipe. It is robust against external physical impact, and efficiency of electric thermal energy is increased, and it is advantageous that it can be processed in various shapes to suit the usage and form of the user.

The buried heaters generally used in this type of sheath heater are installed on schools, houses, factories, road surfaces or airport runway surfaces to warm the floor, and the buried heaters are installed on the road surface or airport runway This is to prevent accidents by preventing snow from being accumulated on the road when snow falls in the winter, and by preventing rainwater or snow from melting on the road to prevent ice from forming.

The power supply line for supplying power to the sheath heater may be disposed on one side and the other side of the sheath heater, or may be disposed on only one side and the other side of the sheath heater may be freely movable. The other side that moves freely is referred to as a free end in this specification.

In the case of the sealed housing and the method of fabricating the buried-type electrothermal device using the same as described in Korean Patent Registration No. 1582596 (Patent Application No. 20140046968) by the inventor of the present application, as shown below, The power supply line is located.

(100: sheath heater, 110: power supply line, 200: sealed housing)

1 is a conceptual diagram showing an example in which power supply lines are disposed on both sides of a heat transfer apparatus body of the prior art. 1 shows an example in which a power supply line is drawn into an upper portion of a sealed housing, unlike the above-mentioned prior art.

On the other hand, in case of '000098214' (Application No. 20073623) 'Electric Ondol heater assembly', the power supply line is disposed on only one side of the sheath heater.

(112: primary hot wire, 120: metal pipe, 124: secondary hot wire, 130: terminal block, 132: terminal, 134: plural wires)

FIG. 2 is a conceptual diagram showing an example in which a power supply line is disposed only on one side of a heat transfer apparatus body of the prior art. (100: sheath heater, 110: power supply line, 200: sealed housing)

Reference numeral 101 in Fig. 2 denotes the other side of the sheathed heater, that is, the free end.

These two different systems are only due to the difference in the direction in which the current flows, and there is no difficulty in implementing the technology.

However, in the latter case, that is, when the power supply line is disposed only from one side, there are some problems. The biggest problem is that it takes a lot of work to arrange the heater in a straight manner at the time of construction. Therefore, the worker's workforce is increased and the construction cost is increased. In other words, in the case of electrons, that is, when a power supply line is connected to both sides of a sheath heater, a sheath heater, which is spread like a line ladder and spreads out at a construction site, is appropriately adjusted as necessary, That is, when the power supply line is connected to only one side of the sieve heater and the other end is free, the sieve heater is fixed at one side so that it is placed in an arbitrary direction in the field so that the operator has to adjust the direction all at once.

In addition, when transporting to the construction site, the two sides can be connected by the power supply line and can be rolled and rolled, but it is inconvenient that only one side is connected to the power supply line.

Related Prior Art Korean Patent Publication No. 2013-0122864 entitled " Method for manufacturing an electrothermal heating pipe "is also disclosed. (Application No.: Patent No. 2012-0045974)

Korean Intellectual Property Office Registration No. 1582596 Korean Patent Application Publication No. 2008-0098214 Korea Patent Application Publication No. 2013-0122864

The present invention proposes a structure corresponding to damage of a wire covering portion of a power supply line which is inevitably generated when an ultrasonic welding is applied to a sealed housing.

The present invention intends to propose a sheath heater type for preventing the sieve heater in the sealed housing from being slightly shaken or rotated to reduce durability.

The present invention proposes a configuration for solving the problem of a large workload in transportation and installation when only one side of a sheath heater is connected by a power supply line.

According to an aspect of the present invention, there is provided a power semiconductor device including a power supply line disposed at least two spaced apart from a sieve heater and connected to the sieve heater, wherein the power supply line is disposed only at one side of the sieve heater, Wherein the other side of the sheath heater is a free end, further comprising a gap maintaining connection means for connecting the other side of the sheath heater at regular intervals.

The gap keeping connection means for connecting the other side of the sheath heater at regular intervals may include a fixed cap fitted to the other side of the sheath heater and an interval maintaining extension line connecting the adjacent two fixed caps. .

The fixing cap may have a fitting groove formed inside the body of the fixed cap, and the fitting groove may be fitted with the other side.

And a frictional portion is formed on the other side of the present invention so that the other side is held in the fitting groove.

The wire inlet portion of the sealing housing into which the power supply line of the present invention is inserted may include a wire contact portion formed to closely contact the sealing housing and the power supply line so that the insulating material in the sealing housing does not leak to the outside, And a wire bending inducing portion formed to be adjacent to an outer periphery of the power supply line without touching the power supply line to the outside of the sealed housing.

And a jaw which is formed inwardly of the sealing housing and is spaced apart from the power supply line so that the insulating material can ride over the wire housing, Is filled tightly.

The jaw of the present invention may comprise a narrow portion for generating a load in the direction of injection of the insulating material and a filling portion for extending the insulating material in a direction of injection of the insulating material so that the insulating protection space is widened .

The power supply line side of the wire bending guide portion of the present invention may be formed as a curved portion and be chamfered outward.

The fixing groove may be formed on the outer circumference of one side of the sieve heater located inside the sealed housing of the present invention.

The fixing groove of the present invention may be characterized in that the fixing groove is radially and spatially formed on the outer circumferential surface of the tube body of the sheath heater.

In order to solve the above-described problems, the present invention has developed the above-described gap maintaining extension line, the sheath heater and the sealed housing.

According to the present invention, it is possible to prevent defects of the product by restricting the deflection of the damaged portion of the power supply line, as a structure corresponding to the damage of the wire covering portion of the power supply line which necessarily occurs when the sealing housing is ultrasonic welded.

According to the present invention, it is possible to prevent the sheath heater in the sealed housing from being slightly shaken or rotating, thereby preventing the durability from deteriorating.

According to the present invention, when only one side of the sheath heater is connected by the power supply line, it is possible to solve the problem that the operation time is considerably large at the time of transportation and installation.

1 is a conceptual diagram showing an example in which power supply lines are disposed on both sides of a heat transfer apparatus body of the prior art.
FIG. 2 is a conceptual diagram showing an example in which a power supply line is disposed only on one side of a heat transfer apparatus body of the prior art.
FIG. 3 is a view showing an interval maintaining connection means made up of a fixed cap and an extension line according to an embodiment of the present invention.
FIG. 4 is an enlarged view of 'A' circled in FIG.
FIG. 5 illustrates an exterior of a sealed housing according to an embodiment of the present invention. FIG. 6 is a side view showing the upper part and the lower part of the sealed housing, which is one embodiment according to the prior art.
FIG. 7 is a view showing a wire fragile portion after separating an upper portion and a lower portion of a sealed housing according to an embodiment of the present invention. FIG. 8 is an enlarged view of the 'B' portion indicated by a circle in FIG.
9 is a view showing an inner side of a sealed housing according to an embodiment of the present invention. FIG. 10 is an enlarged view of the circle 'C' portion in FIG. 9, and FIG. 11 is an enlarged view of a circle 'D' portion in FIG.
FIG. 12 is an enlarged view of a portion of the sheath heater according to the present invention, which is an enlarged view of the circle 'E' portion in FIG.

Hereinafter, one embodiment of the present invention will be described in detail with reference to the accompanying drawings. It is to be understood that both the foregoing general description and the following detailed description are exemplary and explanatory and are not to be construed as limiting the invention to the precise form disclosed. It is provided to let you know.

In the present invention, first, the heat transfer apparatus body includes a power supply line disposed at least two spaced apart from each other and connected to the sheath heater, wherein when the power supply line is disposed only on one side of the sheath heater, As already mentioned above, in case of a sieve heater in which only one side is connected to a power supply line, it provides a means for solving the problem that it is difficult to work at installation and at a construction site.

The means for solving this problem further comprises a gap maintaining connection means for connecting the other side of the sheath heater at regular intervals in the heat transfer apparatus body having the free side of the other side of the sheath heater.

FIG. 3 is a view showing an interval maintaining connection means made up of a fixed cap and an extension line according to an embodiment of the present invention.

The present invention is characterized in that the apparatus further includes gap maintaining connection means (500) for connecting the other side of the free sheath heater (101) at regular intervals, wherein the gap maintaining connection means for connecting the other side of the sheath heater A fixed cap fitted to the other side of the sheath heater, and an interval maintaining extension line connecting the adjacent two fixed caps.

A fitting groove is formed in the body of the fixed cap, and a free end of the sheath heater is inserted into the fitting groove.

On the other hand, a frictional portion is formed on the other side so that the other side is held in the fitting groove.

This will be described with reference to FIG. FIG. 4 is an enlarged view of 'A' circled in FIG. The spacing connection means 500 includes a fixed cap 510 and a spacing extension extension 520 which is fitted on the other side (free end, 501). The fixed cap may be of a resilient material and may be of a structure that is forcibly fitted on the other side. In the fixed cap, the fitting groove 511 is formed inside the body, and the other side can be forcibly inserted into the fitting groove. The other side 101 of the sheath heater, which is fitted into the fitting groove 511 of the fixing cap 510, is formed in a state where the other side 101 It is good to avoid falling asleep.

The spacing maintaining and connecting means 500 allows the sheath heater to be easily spoken during transportation and can be easily positioned in a ladder shape while being laid out in the work space at the time of installation.

In addition, the present invention improves the internal structure of the sealed housing as well as the above-described space maintaining connection means, in order to prevent the power supply line covering and the sheath heater from being moved or rotated finely. This will be described in detail below.

FIG. 5 illustrates an exterior of a sealed housing according to an embodiment of the present invention. FIG. 6 is a side view showing the upper part and the lower part of the sealed housing, which is one embodiment according to the prior art. 5 is an example in which power supply lines are connected to both sides of a sheath heater. When a power supply line is connected only to one side, four power supply lines are drawn into the upper portion of the sealed housing, do.)

The sealing housing 200 is a means for sealing a portion connecting the sheath heater 100 and the power supply line 110 with an insulating material.

On the other hand, the sealed housing is formed by combining the upper portion 201 of the sealed housing and the lower portion 202 of the sealed housing formed by injection molding. The power supply line and the sheath heater are disposed inside the upper portion of the sealed housing 201 and the lower portion of the sealed housing 202. The upper portion of the sealed housing and the lower portion of the sealed housing are fixedly bonded to each other, To complete the sealed housing.

The upper portion of the sealed housing and the lower portion of the sealed housing must be firmly fixed to each other so that the pressure-injected insulating material can be filled tightly in the sealed housing. For this purpose, first, the fitting protrusion 203 formed on one of the upper portion of the sealing housing or the lower portion of the sealing housing and the fitting groove 204 formed on the other side are physically fitted. (The fitting groove in Fig. 6 is seen through the opening), and ultrasonic bonding is performed. A fused portion 205 protrudes from the upper surface of the sealed housing or / and the lower surface of the sealed housing for ultrasonic bonding. In Fig. 6, ' h ' indicates the height of the fused portion.

However, the problem is that the sealing housing and the power supply line must be in close contact with each other so that the insulating material does not leak into the electric wire inlet 220 into which the power supply line is inserted into the sealed housing. In the step of ultrasonic welding, A flaw is formed in the outer surface of the power supply line, which becomes a weak portion (V). When the power supply line is bent or bent in the process of being carried or installed later, the weak portion is defective. Therefore, it is necessary to prevent the vulnerable portion from bending even if the power supply line is bent in order to protect the vulnerable portion, which is necessarily inevitable when considering the ultrasonic bonding and the insulation material pressure injection.

FIG. 7 is a view showing a wire fragile portion after separating an upper portion and a lower portion of a sealed housing according to an embodiment of the present invention. FIG. 8 is an enlarged view of the 'B' portion indicated by a circle in FIG.

7, the sheath heater 100 includes a rod-shaped connection terminal 120, a packing 160, a heating member 180, a heating wire 170, and a tube 150. More specifically, the sheath heater 100 includes: a tube 150 having a predetermined length; A heating line 170 disposed inside the tube 150; A rod connection terminal 120 connected to an end of the heating wire 170; A packing 160 sealing the inside of the tube 150 while fixing the rod connection terminal 120 to the tube 150 so that a part of the rod connection terminal 120 is exposed to the outside; And a heat transfer material (180) filled in the inner space of the tube (150) comprising the tube (150) and the packing (160). The connection of the power supply line 110 and the sheath heater 100 may be realized by connecting the power supply line 110 to the rod connection terminal 120 which is a medium for connecting the power supply line 110 and the heating line 170 . Meanwhile, in order to solve the above-described weak portion (V) problem, the present invention has improved the power supply line inlet portion.

The portion into which the power supply line is inserted into the sealed housing is referred to as a wire inlet portion 220. The electric wire inlet part 220 is provided with a wire contact part formed to closely contact the sealing housing and the power supply line so that the insulating material in the sealing housing does not leak to the outside, And a wire bending inducing portion formed adjacent to an outer periphery of the power supply line without being contacted with the wire bending inducing portion.

9 is a view showing an inner side of a sealed housing according to an embodiment of the present invention. FIG. 10 is an enlarged view of the circle 'C' portion in FIG. 9, and FIG. 11 is an enlarged view of a circle 'D' portion in FIG.

When the electric wire infeed part 220 has the above-described configuration, the electric wire is bent at the electric wire bending induction part 222 rather than at the wire tight contact part 221 when the electric power supply wire is bent at the outside of the sealed housing between the transportation or installation Defects can be prevented by preventing deflection in the wire weak portion (V) which is inevitably generated at the time of ultrasonic bonding. This is because the wire weak portion is generated in the wire tight contact portion, and the wire is prevented from being bent at the wire tight contact portion in the wire warp induction portion outside the wire tight contact portion. 11 shows an example in which a wire bends by a dotted line in the upper part of FIG. 11. However, even if the wire is curved, the wire from the outside of the wire flexure inducing part can not exceed the degree shown in the wire tightening part. This is because it is caught at the wire bending induction part.

On the other hand, the insulating material must be securely released to the inside of the wire tight contact portion for insulation. To this end, the wire inlet portion is formed inside the sealing housing rather than the wire tight contact portion, and includes a jaw which is spaced apart from the power supply wire and can pass over the insulating material. So that the insulating material can be tightly filled into the sealing housing through the wire tight contact portion.

More specifically, a jaw 223 is formed on the inner side of the wire inlet part 220 to the inside of the sealing housing 22 rather than the wire tight contact part. The jaw 223 generates a load in the direction of injection of the insulating material And a charging part 223b formed to gradually expand the insulating protection space filled with the narrow force part 223a and the insulating material through the narrow force part 223a in the direction of injection of the insulating material after the load is applied. The jaws 223 may be formed to have a sawtooth structure on the inner wall of the wire inlet 220. This jaw structure applies a load to the injection of the insulating material so that the inside of the sealed housing can be filled tightly.

Further, it is preferable that the power supply line side of the wire bending inducing portion is formed by the curved portion 222a and the chamfer 222b is formed outwardly. Even if it is not the weak wire portion, that is, So that it is possible to prevent defects in the wire covering by preventing the wires from being bent while being carried or installed. (Especially, it is possible to prevent the occurrence of scratches on the wire coating in the winter.)

On the other hand, the present invention also discloses an improved part which is different from the above-mentioned one, which is intended to grasp the sheath heater.

FIG. 12 is an enlarged view of a portion of the sheath heater according to the present invention, which is an enlarged view of the circle 'E' portion in FIG. More specifically, the fixing groove (103) is formed on the outer periphery of one side of the sieve heater located inside the sealed housing.

The sealing housing is formed to have an inner insulating protective space 300 for positioning the binding portion of the sheath heater 100 and the power supply line 110 and filling the insulating material as the insulating sealing material therearound. Is intended to prevent the sheath heater from slightly rotating or shaking in the insulating protection space.

The fixing groove 103 formed in the sheath heater 100 scratches the outer circumferential surface of the tube 150 of the sheath heater 100. As a result, the insulating material is charged in such scratches, and the sheath heater is rotated or shaken, so that a more robust product can be produced. 12 shows the radial shape of the fixing groove 103 by forming a groove in four places along the outer circumference. The fixing groove may be formed in a plurality of rows along the sheath heater. In this embodiment, the fixing groove is formed in five rows.

Although the present invention has been described with reference to specific embodiments, the present invention is not limited thereto. It is needless to say that modifications and variations are possible within the scope of the technical idea of the present invention.

100: Sheath heater
101: other side (free end)
102:
103: Fixing groove
110: Power supply line
V: Wire weakness
120: rod connection terminal
130: Two-end sleeve terminal
150: tubular body
160: Packing
170: Heating line
180: Heat transfer material
200: Sealed housing
201: sealing housing upper part
202: sealing housing bottom
203:
204:
205: Fused portion
210: Insulating material inlet
220:
221:
222:
222a:
222b: chamfer
223: chin
223a:
223b:
300: Insulation protection space
400: Heating device facility body
500: Spacing maintenance extension line
510: fixed cap
520: Spacing maintenance extension line

Claims (12)

delete At least two sheathed heaters are arranged at intervals,
And a power supply line connected to the sheath heater,
The power supply line is disposed only on one side of the sheath heater,
Wherein the other side of the sheath heater is a free end,
Further comprising gap keeping connection means for connecting the other side of the sheath heater at regular intervals,
The gap maintaining connection means
A fixed cap fitted to the other side of the sheath heater, and an interval maintaining extension line connecting the adjacent two fixed caps.
Electric heating facility facility.
3. The method of claim 2,
A fitting groove is formed inside the body of the fixed cap,
And the other side is fitted in the fitting groove.
Electric heating facility facility.
The method of claim 3,
And a friction portion is formed on the other side so that the other side is held in the fitting groove.
Electric heating facility facility.
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