KR101602127B1 - Heater for Pipe - Google Patents

Abstract

The present invention relates to a heater for a pipe, comprising: an insulation layer unit formed in a tube-shape and having a pair of separated surfaces over the entire longitudinal section; an envelope combined with the outer surface of the insulation layer unit to enclose the insulation layer unit; a heating layer unit having a heat line conductor installed within the insulation layer unit; an inner skin installed within the heating layer unit to enclose the heating layer unit; and power lines having a pair of power line conductors, and electrically connecting the heat line conductor to a power by means of the power line conductor. The heat line conductor is divided into a plurality of things and the divided heat line conductors are referred to as as a divided heat line conductor respectively. The divided heat line conductor is installed to disclose both ends of each divided heat line conductor to the outside of the envelope. A heater for a pipe includes: a support body having the divided heat line conductor and the power lines in order to fix both ends of the divided heat line conductor and one end of the power line conductor; and a selection controller which electrically connects both ends of the divided heat line conductor to, among ends of the power conductor, one end fixed on the support body in order to electrically connect the each divided heat line conductor to the power line conductor in a parallel with other divided heat line conductors by a user′s operation; to electrically connect the each divided heat line conductor to the power line conductor in series with other divided heat line conductors; or to connect the each divided heat line conductor to the power line conductor in a combination of parallel with series connection with other divided heat line conductors. Accordingly, a selection range of heat emitted from the heat lines can be increased.

Description

Heater for Pipe

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a heater for piping, and more particularly, to a heater installed to surround a piping and used for heating piping.

Resistance heating devices such as piping heaters, heaters for air conditioners, electric mats, and electric mats that use heat generated when a current flows in a heating line are widely used.

Although the heat generated from the heating wire is constantly produced by the resistance heating device, it is necessary to heat a plurality of objects having different target heating temperatures or a target heating temperature of the heating object during the heating operation by using one resistance heating device In order to achieve this, a resistance heating device capable of selecting the amount of heat radiated from the heating wire has been used.

Figs. 13 and 14 are diagrams showing a conventional installation state of the heater for the air conditioner, and Fig. 15 is a circuit diagram of the conventional heater for the air conditioner.

The conventional heater for the air conditioner is installed in the cabinet 201 and includes three heating lines 121 and switching means 191 interposed between the heating line 121 and the power source 194 A fuse 192 interposed between the switching means 191 and the heating wire 121 and a control unit 193 for controlling the switching operation of the switching means 191. [

The heating line 121 is connected to the power source 194 in parallel. The resistance values of the respective heating lines 121 may be the same or different.

The switching means 191 is composed of a relay 191a connected to each heating wire 121 one by one.

One fuse 192 is provided between each relay 191a and each heating wire 121.

The control unit 193 controls the on / off operation of the relay 191a according to a control signal input from the outside.

According to the conventional heater for the air conditioner having the above-described configuration, the power source 194 is connected to the heating wire 121 connected to the relay 191a turned on by the control unit 193, and current flows.

The amount of heat radiated from the entire heating line 121 may vary depending on which of the heating lines 121 is connected to the power source 194 or how many heating lines 121 are connected to the power source 194. [

The user can select the amount of heat emitted from the entire heating line 121 by varying the control signal of the control unit 193. [

However, according to the conventional heater for an air conditioner, since each of the plurality of divided heating lines 121 is connected only to the other heating lines in parallel, the selection width of the amount of heat emitted from the heating line 121 becomes small The number of cases that can be selected is small).

Related Prior Art Korean Patent Application Publication No. 2002-0088805 (published on Nov. 29, 2002, entitled " Variable Capacity Heater Device for an Air Conditioner ") discloses a prior art air conditioner A technique relating to a heater is disclosed.

Accordingly, it is an object of the present invention to provide a heater for piping which can increase a selection width of a heat amount radiated from a heating wire.

According to the present invention, the above objects can be accomplished by providing a heat insulating layer portion in the form of a tube having a pair of separating surfaces formed over a full length section, a sheath joined to an outer surface of the heat insulating layer portion so as to surround the heat insulating layer portion, And a heating wire connected to the heating wire through a power line conductor having a pair of power line conductors electrically connected to the power source through the power line conductor, Wherein the heating wire conductor is divided into a plurality of portions, and when the divided heating wire conductors are respectively referred to as split heating wire conductors, both ends of the split heating wire conductors are exposed to the outside of the envelope Installed; A support body on which the split heating wire conductor and the power line are provided so that both ends of the split heating wire conductor and one end of the power line conductor are fixed and a support body provided on the support body, The plurality of split heating wire conductors are electrically connected to the power line conductor in a parallel connection form with respect to the other split heating wire conductors, or each of the split heating wire conductors is electrically connected to the power line conductor in series connection with other split heating wire conductors, Between the ends of both ends of the divided heating wire conductors and one end of the end of the power conductor which is fixed to the support so as to be electrically connected to the power line conductor in the form of a combination of series connection and parallel connection with respect to other split heating wire conductors, And a selection operation portion for connecting the pipe It is achieved by the emitter.

Wherein the split heating wire conductors are arranged to form a plurality of layers so as to increase the number of split heating wire conductors that can be installed without increasing the length of the pipe heater; Preferably, the heating layer portion includes a heating wire conductor supporting layer for supporting each layer of the split heating wire conductor.

When the number of the divided heating wire conductors is N, the number of both ends belonging to each of the divided heating wire conductors is formed to be N or less so that the amount of heat radiated from the heating wire (heating wire conductor) can be easily selected, Wherein one end of the power source fixed to the support is termed a power source conductor fixed end, and the power source conductor fixed end is formed not more than N; And the selection operation portion includes a heating wire conductor concave-convex coupling terminal formed one by one at the end of the split heating wire conductor, a power line uneven coupling terminal formed one by one at the power line conductor fixed end, and a cord line having a structure in which the insulator and the conductor intersect concentrically, Wherein the pair of cord convexo-concave coupling terminals are coupled to the heating wire conductor concave-convex coupling terminal and the power line concave-convex coupling terminal, respectively, one by one, And a jumper cord electrically connecting both ends of the split heating line conductor and the power line conductor fixed terminal.

Therefore, according to the present invention, the heating wire conductor is divided into a plurality of parts, and a support for fixing both ends of the split heating wire conductors and one end of the power conductor is fixed to the split heating wire conductors, Or each split heating wire conductor is electrically connected to the power supply conductor in the form of a series connection to another split heating wire conductor or each split heating wire conductor is electrically connected to the other split heating wire conductor It is possible to increase the selection width of the amount of heat radiated from the heating wire by including the selection operating portion for operating to be electrically connected to the power line conductor in the form of a combination of a series connection and a parallel connection The number of cases increases).

1 is a perspective view of a heater for piping according to an embodiment of the present invention,
FIG. 2 is a perspective view of a selection operation region of a heater for piping according to an embodiment of the present invention,
3 is an exploded perspective view of a region of a selection operation portion of a heater for piping according to an embodiment of the present invention,
4 and 5 are sectional views of a heater for piping according to an embodiment of the present invention,
6 is a view illustrating a state in which a heating wire is installed on an unfolded thermal conductive support layer of a heater for piping according to an embodiment of the present invention;
FIG. 7 and FIG. 8 are views showing a connection form of the heating wire conductor and the power line conductor by the selection operation portion of the heater for piping according to the embodiment of the present invention, respectively;
9 is a sectional view of a heater for piping according to another embodiment of the present invention,
10 is a view showing a state where a heating wire is installed on a deployed heating preheating support layer of a heater for piping according to another embodiment of the present invention,
11 and 12 are views showing a connection form of the heating wire and the power line conductor by the selection operation part of the heater for piping according to another embodiment of the present invention,
Figs. 13 and 14 are diagrams showing a conventional installation state of a heater for an air conditioner, Fig.
15 is a circuit diagram of a conventional heater for an air conditioner.

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

FIG. 1 is a perspective view of a piping heater according to an embodiment of the present invention, FIG. 2 is a perspective view of a selection operation region of a heater for piping according to an embodiment of the present invention, and FIG. FIGS. 4 and 5 are cross-sectional views of a heater for piping according to an embodiment of the present invention, and FIG. 6 is a cross-sectional view of a heater for piping according to an embodiment of the present invention. 7 and 8 are views showing a connection form of the heating wire conductor and the power line conductor by the selection operation portion of the heater for piping according to the embodiment of the present invention. Fig.

As shown in these drawings, a heater for piping according to an embodiment of the present invention includes a tubular heat insulating layer 11 having a pair of separation surfaces 11a formed over a whole length thereof, A heat generating layer portion 20 having a heating wire provided inside the heat insulating layer portion 11 and a heat insulating layer portion 20 surrounding the heat generating layer portion 20 so as to surround the heat insulating layer portion 11, A power supply line 70 for electrically connecting the heating wire to the power supply, a supporting body 50 on which the power supply wire 70 and the heating wire are provided, 50, and a restricting portion 45 which is coupled to the outer skin 42. As shown in Fig.

The heat insulating layer 11 may be formed of an aramid felt or the like.

The envelope 42 is formed using an insulating material such as polytetrafluoroethylene (PTFE).

The heating layer portion 20 has a heating wire conductor supporting layer 22 for supporting a heating wire in addition to a heating wire.

The heating line may have a structure in which the heating layer conductor surrounds the insulating layer. However, when the insulating layer portion 11 and the heating wire conductor supporting layer 22 are provided with an insulating function, the heating wire can be realized in a bare wire shape.

The heating line and the heating line conductor are divided into three. Hereinafter, the divided heating wire conductors are referred to as split heating wire conductors 31, 32, and 33, respectively.

Each of the divided heating wire conductors 31, 32, and 33 is formed so as to have three ends at each end (the number N of divided heating wire conductors is 3). The termination of each of the heating line conductor ends 31a, 32a, and 33a may be performed by printing a conductive material on the PCB 53.

Resistance values of the divided heating wire conductors 31, 32, and 33 may be the same or different.

Each of the divided heating wire conductors 31, 32, 33 having such a configuration is installed such that both ends are exposed to the outside of the envelope 42. Each heating line is fixed to the heating line supporting layer 22 by a sewing chamber 23 made of a heat resistant material such as silica or the like.

The heating wire support layer 22 can be manufactured using a heat resistant material such as a glass fiber cloth or the like.

The inner skin 41 is connected to the outer skin 42 through a pair of end fingers 43.

The inner film 41 is formed by using an insulating material such as polytetrafluoroethylene (PTFE).

The power line 70 has a pair of power line conductors 71.

Each power line conductor 71 is formed to have one power line conductor fixed terminal end 71a. Here, the power line conductor fixed termination 71a means one end fixed to the support body 50 during termination of the power line conductor 71. [

The power line conductor fixing terminal 71a may be printed by printing a conductive material on the PCB 53.

The power line 70 functions to electrically connect the split heating line conductors 31, 32, and 33 to the power source through the power line conductor 71.

The support body 50 has a concave support body part 51 and a lid 52 coupled to the upper end of the support body part 51. The support body part 51 includes a space 52 between the support body part 51 and the lid 52, And a PCB 53 (PCB).

The support body portion 51 includes a line passage hole 51a for guiding the split heating wire conductors 31, 32 and 33 and the power supply wire 70 to the space between the support body portion 51 and the lid 52, Respectively.

The lid 52 is formed with a terminal exposing hole 52a for exposing the heating wire conductor concave-convex coupling terminal 62 and the power line concave-convex coupling terminal 63 to the outside.

The lid 52 is coupled to the support body portion 51 so that the terminal exposure hole 52a is aligned with the heating wire conductor concave-convex coupling terminal 62 and the power line concave-convex coupling terminal 63. [ Accordingly, the heating wire conductor concave-convex coupling terminal 62 and the power line concave-convex coupling terminal 63 are exposed to the outside through the terminal exposure hole 52a.

The PCB 53 is installed in the space between the support body portion 51 and the lid 52 through the support pillars 54. [

The divided heating wire conductors 31, 32, and 33 and the power supply line 70 are introduced into the space between the support body portion 51 and the lid 52 through the through-hole 51a in the package 53 having this configuration. The split heating wire conductors 31, 32, and 33 and the power line conductor 71 are fixed by a method such as soldering.

The selection operation portion 60 includes a heating wire conductor concave-convex coupling terminal 62 formed one by one at the ends of the divided heating wire conductors 31, 32 and 33, a power line uneven coupling terminal 63 formed one by one at the power line conductor fixed end 71a, And a jumper cord 61 for electrically connecting both ends of the divided heating wire conductors 31, 32, and 33 and the power supply conductor fixed end 71a.

The heating wire conductor concave-convex coupling terminal 62 is formed in a concave shape and is fixed to the PCB 53 so that the opening faces the terminal exposing hole 52a.

The power line uneven coupling terminal 63 is formed in a concave shape and is fixed to the PCB 53 so that the opening faces the terminal exposing hole 52a.

Each jumper cord 61 has a cord line 61a and a pair of cord-concave-convex coupling terminals 61b formed at both ends of a conductor constituting the cord line 61a.

The code line 61a is formed by a conventional wire structure, that is, a structure in which an insulator and a conductor are concentrically formed.

Each cord-concave-convex coupling terminal 61b is formed in a convex shape.

The jumper cord 61 having such a configuration has a configuration in which a pair of cord-concave-convex coupling terminals 61b are connected to the heating line conductor concave-convex coupling terminal 62 and the power line concave-convex coupling terminal 63 It is possible to electrically connect the ends of the divided heating wire conductors 31, 32, and 33 and the power line conductor fixed terminal 71a by a method of concave-convex coupling. In Fig. 7, the resistance values of the divided heating wire conductors 31, 32, and 33 are represented by R1, R2, and R3, respectively.

That is, the user can use the jumper cord 61 to electrically connect the split heating wire conductors 31, 32, and 33 to the power line conductor 71 in parallel to other split heating wire conductors, (31, 32, 33) are electrically connected to the power line conductor (71) in the form of a series connection to other split heating wire conductors, or when each of the split heating wire conductors (31, 32, 33) And to be electrically connected to the power line conductor 71 in the form of a combination of series connection.

Figs. 2 and 8 are respectively shown corresponding to the parallel connection type shown in Fig.

The divided heating wire conductors 31, 32, and 33 are formed in accordance with the connection type (parallel connection type, serial connection type, combination of parallel connection and series connection) between the divided heating wire conductors 31, The total composite resistance value and the voltage applied to each of the split heating wire conductors 31, 32, and 33 can be changed, thereby allowing the user to select the amount of heat radiated from the heating wire conductors 31, 32, and 33.

The restricting portion 45 can be realized by attaching a male and female velcro tape to the outer skin 42.

On the other hand, in the above-described embodiment, the split heating wire conductors 31, 32 and 33 are formed as one layer, but the present invention can be implemented by forming two or more layers as shown in FIG.

FIG. 9 is a cross-sectional view of a heater for piping according to another embodiment of the present invention, and FIG. 10 is a view showing a state where a heating line is installed on a deployed heating preheating support layer of a heater for piping according to another embodiment of the present invention.

In the case of the heater for piping according to another embodiment of the present invention, the heating wire conductor supporting layer 22 is composed of three pieces to support the respective layers of the split heating wire conductors 31, 32 and 33.

In the above-described embodiment, N ends of the divided heating wire conductors 31, 32, and 33 are N. However, as shown in FIG. 11, the power line conductor fixed ends of the power line conductors 71 are N The present invention can be practiced.

11 is a view showing a connection form of a heating wire conductor and a power line conductor by a selection operation part of a heater for piping according to another embodiment of the present invention.

Although the two ends of each of the divided heating wire conductors 31, 32, and 33 are formed of N in the above embodiment, the ends of the divided heating wire conductors 31, 32, And the number of power line conductor fixed ends of each power line conductor 71 is less than N, and the present invention can be implemented.

12 is a view showing a connection form of a heating wire conductor and a power line conductor by a selection operation part of a heater for piping according to another embodiment of the present invention.

As described above, according to the embodiment of the present invention, the heating wire conductors 31, 32, and 33 are divided into a plurality of portions, and both ends of the divided heating wire conductors 31, 32, 32, and 33 are electrically connected to the power line conductor 71 in parallel connection with other divided heating line conductors by a user's operation, and the divided heating line conductors 31, Or each of the divided heating wire conductors 31, 32 and 33 is electrically connected to the power line conductor 71 in the form of a series connection with respect to the other divided heating wire conductors, And the selection operation portion 60 for operating the heating wire conductor so as to be electrically connected to the power line conductor 71 in the form of a combination of a series connection and a parallel connection with respect to the heating wire conductor so that the selection width of the amount of heat radiated from the heating wire Can be increased (by heating line) The number of cases where the amount of heat to be radiated can be selected).

By providing the split heating wire conductors 31, 32, and 33 as a plurality of layers, it is possible to increase the number of split heating wire conductors 31, 32, and 33 that can be installed without increasing the length of the pipe heater . When the number of the split heating wire conductors 31, 32, 33 which can be installed is increased, the selection width of the heat quantity radiated from the heating wire (heating wire conductor) can be further increased.

It is also possible to form each of the ends of the divided heating wire conductors 31, 32 and 33 at N or less (the number of the divided heating wire conductors) and N or less of the power supply conductor fixing ends 71a, (Heat generating conductor) can be easily selected by configuring the selection operating section 60 by employing the heat generating line 61.

11: heat insulating layer portion 20: exothermic layer portion
30, 121: heating wire 22: heating wire supporting layer
31, 32, 33: split heating wire conductor 41:
42: sheath 50: support
51: support body part 52: cover
53: Fee ratio 60:
61: jumper cord 62: heating wire conductor uneven coupling terminal
63: Power line uneven coupling terminal 70: Power line
71: Power supply conductor 191: Switching means
193:

Claims (3)

A heat insulating layer portion having a pair of separating surfaces formed over the entire length of the heat insulating layer portion; an outer sheath coupled to the outer surface of the heat insulating layer portion so as to surround the heat insulating layer portion; and a heat generating layer conductor provided on the inside of the heat insulating layer portion, A heating wire having a pair of power conductors and a power line for electrically connecting the heating wire conductors to the power source through the power line conductor with a pair of power line conductors, In this case,
Wherein the heating wire conductor is divided into a plurality of divided heating wire conductors, and the divided heating wire conductors are respectively disposed so that both ends of the divided heating wire conductors are exposed to the outside of the envelope;
A support body on which the split heating wire conductor and the power line are provided so that both ends of the split heating wire conductor and one end of the power line conductor are fixed and a support body provided on the support body, The plurality of split heating wire conductors are electrically connected to the power line conductor in parallel connection form with respect to the other split heating wire conductors, or each of the split heating wire conductors is electrically connected to the power line conductor in the form of a series connection with another split heating wire conductor, Between two end terminals of the split heating wire conductors and one end terminal fixed to the support among the terminals of the power supply conductor so that conductors can be electrically connected to the power line conductor in a combination of series connection and parallel connection with respect to other split heating wire conductors And a selection operation portion for electrically connecting A heater for pipe. The method according to claim 1,
The split heating wire conductor is installed to form a plurality of layers;
Wherein the heating layer portion includes a heating wire conductor supporting layer for supporting each layer of the split heating wire conductor. 3. The method according to claim 1 or 2,
Wherein when the number of the split heating wire conductors is N, both ends belonging to each of the split heating wire conductors are formed to be N or less, and one end terminated to the support during the termination of the power conductor is referred to as a power conductor fixed end The power supply conductor fixing termination is formed to be N or less;
And the selection operation portion includes a heating wire conductor concave-convex coupling terminal formed one by one at the end of the split heating wire conductor, a power line uneven coupling terminal formed one by one at the power line conductor fixed end, and a cord line having a structure in which the insulator and the conductor intersect concentrically, Wherein the pair of cord convexo-concave coupling terminals are coupled to the heating wire conductor concave-convex coupling terminal and the power line concave-convex coupling terminal, respectively, one by one, And a jumper cord electrically connecting both ends of the split heating wire conductors to the power line conductor fixed terminals.

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