KR101435668B1 - Cooling-water heating type heater - Google Patents

Abstract

The present invention relates to a cooling water heating type heater, and it is possible to prevent the substrate temperature of the control part from being increased by using a case in which the first member of the metal material surrounds the second member, The present invention relates to a cooling water heating type heater capable of effectively heating cooling water by using a second pipe having a pipe and a second heating part.

Description

[0001] Cooling-water heating type heater [0002]

The present invention relates to a cooling water heating type heater, and it is possible to prevent the substrate temperature of the control part from being increased by using a case in which the first member of the metal material surrounds the second member, The present invention relates to a cooling water heating type heater capable of effectively heating cooling water by using a second pipe having a pipe and a second heating part.

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a coolant-heated heater, and more particularly to a coolant-heated heater that heats coolant for heating the vehicle interior.

Vehicles powered by engines powered by gasoline, diesel, and other energy sources are currently the most common forms of vehicles, but these automotive energy sources also require new sources of energy due to a variety of causes, such as environmental pollution as well as reduced oil reserves. One of the technologies that is near to the practical use stage is a vehicle driven by a fuel cell as an energy source.

However, in a vehicle using such a fuel cell, a heating system using cooling water can not be used unlike a conventional vehicle having an engine using oil as an energy source. That is, in the case of a conventional vehicle using an engine using an oil as an energy source as the driving source, a lot of heat is generated in the engine, a cooling water circulation system for cooling the engine is provided, . However, since a large amount of heat such as that generated by the engine does not occur in the driving source of the vehicle using the fuel cell, there has been a limit to such a conventional heating method.

Accordingly, in the fuel cell vehicle, various studies have been conducted, such as adding a heat pump to the air conditioning system and using it as a heat source, or providing a separate heat source such as an electric heater. Among them, the battery heater can heat the cooling water more easily without greatly affecting the air conditioning system, and the actual use is widely practiced at present.

Fig. 1 shows Japanese Patent Laid-Open No. 2008-056044 ("heating medium heating device and air conditioning device for a vehicle using the same, " 2008.03.13), which is one of conventional cooling water heating type heaters.

The cooling water heater of Japanese Laid-Open Patent Publication No. 2008-056044 has plate-shaped fins disposed on upper and lower portions of the PTC electrode plate causing heat generation, cooling water flowing through the plate-shaped fins, and heat transfer efficiency So that the cooling water can be heated more effectively.

However, such a coolant-heated heater has a problem that it is difficult to obtain a sufficient effect of heating the coolant, and the problem including this is described below again.

First, since the heat source (PTC electrode plate) is inserted into a separate component, the number of parts increases, and the volume and weight increase. Second, the heat generated from the PTC electrode plate can not be completely transferred to the cooling water, and a part of the heat is transferred to the outside to generate heat loss. Third, there exist various objects such as an insulating layer on the heat transfer path from the PTC electrode plate to the cooling water, thereby increasing the heat resistance and thus the heat transfer efficiency is inferior. Fourth, the design of the cooling water pipeline and the electric supply line circuit becomes complicated when the cooling water heater of this type is mounted on the vehicle. Moreover, since the size of the cooling water heater is large, actual mounting becomes difficult.

That is, there is a demand for a coolant-heated heater capable of effectively heating cooling water, increasing safety, making it easy to manufacture and mounting, and reducing volume, weight, and unit cost.

Japanese Patent Laid-Open No. 2008-056044 ("Heat medium heating apparatus and air conditioning apparatus for vehicle using the same, " 2008.03.13, 2008)

SUMMARY OF THE INVENTION The present invention is conceived to solve the problems as described above, and it is an object of the present invention to prevent a substrate temperature of a control unit from being increased by using a case in which a first member of a metal material is enclosed by a second member And a cooling water heating heater capable of effectively heating cooling water by using a first pipe having a first heating part in a cylindrical shape and a second pipe having a second heating part.

Particularly, an object of the present invention is to provide a method of heating (first heating area) while cooling water flowing through an inlet is moved inside a first pipe, heating (second heating area) while moving between the first pipe and a second pipe And a cooling water heating heater capable of heating the cooling water while it is moving between the second pipe and the case (third heating region) so as to quickly and effectively heat the cooling water.

It is also an object of the present invention to provide a method of manufacturing a flexible printed circuit board in which an uneven portion is formed in a certain region of a first member to increase the productivity and an extended portion is formed at both ends of a first corresponding portion, And a cooling water-heating heater capable of preventing leakage of the internal cooling water by forming a concave / convex portion in the extended portion.

It is another object of the present invention to provide a cooling water heating heater capable of ensuring durability even when the first and second heat generating parts include a coating layer including a carbon nanotube heating layer and a protective pipe, .

It is another object of the present invention to provide a pipe structure in which an inlet, a first pipe, and a first cover are integrally formed, and a second pipe and a second cover are integrally formed to simplify the components and assembly process, And a cooling water heater.

It is another object of the present invention to provide a pneumatic tire which has a first support portion for supporting a second pipe on an outer surface of a first pipe and a second support portion for supporting a case on an outer surface of the second pipe, The present invention provides a cooling water heating type heater that can be easily controlled by interlocking the temperature prevention means and the control unit and can further enhance safety by operating the overheat prevention unit separately from the operation of the control unit.

The cooling water heater 1000 according to the present invention includes a first space portion 100a and a second space portion 100b which are partitioned from each other in the interior of the cooling water heater 1000 for heating the room, A case 100 having an inlet 110 through which the cooling water flows and a discharge port 120 through which the internal cooling water is discharged, are formed in the space 100a at the center of one end in the longitudinal direction. The first space portion 100a of the case 100 communicates with the inlet 110 and is spaced apart from the inner surface of the other end portion of the case 100, A first pipe 200 having a first pipe 200a formed therein; The first pipe 200 is formed to have a diameter larger than the diameter of the first pipe 200 and extend from the inner surface of the other end of the case 100, A second pipe 300 having a second heat generating part 300a having a predetermined distance from the first pipe 300 in a longitudinal direction; And a substrate 410 provided in the second space portion 100b of the case 100. The first heat generating portion 200a of the first pipe 200 and the second heat generating portion 200b of the second pipe 300, A control unit 400 for controlling the operation of the unit 300a; And a control unit.

The case 100 may include a first corresponding portion 131 that is made of a metal and has an inner surface forming a predetermined region of the first space 100a and a second corresponding portion 131 that is formed on the outer surface of the first corresponding portion 131, A first member 130 protruding toward the space portion 100b and integrally formed with a second corresponding portion 132 on which the substrate 410 is mounted; And a second member 140 formed to surround the outer surface of the first corresponding portion 131 of the first member 130 to form a first space portion 100a and a second space portion 100b .

The case 100 is formed with an extension 134 in which the first member 130 protrudes outward from both ends of the first corresponding portion 131, And is formed so as to surround the extension portion 134.

The case 100 is characterized in that the concave and convex portions 133 are formed in a predetermined region of the first member 130 in contact with the second member 140.

In addition, the case 100 is characterized in that a predetermined region of the second member 140 forming the second space portion 100b is openable and closable.

The cooling water heating type heater 1000 may further include a first heating region 130 which is heated while the cooling water flowing through the inlet 110 moves inside the first pipe 200 in the first space 100a, A1); The cooling water that has passed through the first heating zone A1 is returned from the other end of the case 100 to be heated while moving in a region between the first pipe 200 and the second pipe 300, (A2); And a third heating zone (300) which is heated while the cooling water passing through the second heating zone (A2) is returned from one end of the case (100) and moving in the region between the second pipe (300) and the case A3, and is discharged through the discharge port 120. [0033] FIG.

The first heating portion 200a includes a first insulating layer 211 formed on a predetermined region of the first pipe 200 and a second insulating layer 211 formed on the upper surface of the first insulating layer 211, A first carbon nanotube heating layer 213 formed on an upper surface of the first insulating layer 211 to be electrically connected to the first electrode 212, A first coating layer 210 including a first protective layer formed on an upper surface of the first insulating layer 211 so as to surround the first electrode 212 and the first carbon nanotube heating layer 213; A first protective pipe 220 which is in close contact with the first coating layer 210 and has an end welded to the first pipe 200; The second heat generating portion 300a includes a second insulating layer 311 formed on a predetermined region of the second pipe 300 and a second insulating layer 311 formed on the upper surface of the second insulating layer 311, A second carbon nanotube heating layer 313 formed on the upper surface of the second insulating layer 311 to be electrically connected to the second electrode 312, And a second protective layer formed on an upper surface of the second insulating layer 311 to surround the second electrode 312 and the second carbon nanotube heating layer 313. ; And a second protective pipe (320) which is in close contact with the second coating layer (310) and has an end welded to the second pipe (300); And the second electrode is formed.

The cooling water heating type heater 1000 is further characterized in that a radiating fin 500 is further formed around the first pipe 200 and the second pipe 300.

The case 100 includes a first cover 101 having both end portions formed integrally with the inlet 110 and the first pipe 200 and a second cover 101 integrally formed with the second pipe 300. [ And are each closed by a cover (102).

The cooling water heating heater 1000 includes a first support part 610 provided on the other side of the first pipe 200 to support the first pipe 200 and the second pipe 300, And a second support part 620 provided on one side of the second pipe 300 to support the second pipe 300 between the case 100 and the second pipe 300.

The cooling water heater 1000 further includes a temperature sensor 700. The controller 400 controls the first heating unit 200a and the second heating unit 200a using the information sensed by the temperature sensor 700, And controls the operation of the heat generating portion 300a.

In addition, the coolant-heated heater 1000 may include overheat preventing means 800 for shutting off power supplied to the first heat generating portion 200a and the second heat generating portion 300a when the coolant temperature rises above a reference temperature. Is further provided.

Accordingly, the coolant-heated heater of the present invention can prevent the temperature of the substrate of the control unit from being increased by using a case in which the second member encases the first member made of a metal, and the first member having the first heat- The cooling water can be effectively heated by using the second pipe having the pipe and the second heat generating unit.

Particularly, in the cooling water heating type heater of the present invention, the cooling water introduced through the inlet is heated (first heating region) while moving inside the first pipe, and heated while moving between the first pipe and the second pipe ), And is heated (third heating region) while moving between the second pipe and the case, so that the cooling water can be heated quickly and effectively.

In addition, the cooling water heater of the present invention can increase the productivity by forming concavo-convex portions in a certain region of the first member, and can extend at both ends of the first counterpart, which is the connecting portion of the first member and the second member, There is an advantage that leakage of the internal cooling water can be prevented by forming the concave portion in the extension portion.

In addition, the cooling water heating type heater of the present invention is characterized in that the first heating portion and the second heating portion are formed by including the coating layer including the carbon nanotube heating layer and the protective pipe, thereby being easy to manufacture and securing the durability even if they are in direct contact with the cooling water .

In addition, the cooling water heater of the present invention is characterized in that the inlet, the first pipe, and the first cover are integrally formed, and the second pipe and the second cover are integrally formed to simplify the component and assembly process, There is an advantage to increase.

In addition, the cooling water heating heater of the present invention further includes a first support portion provided on the outer surface of the first pipe to support the second pipe, and a second support portion provided on the outer surface of the second pipe to support the case, The temperature control means and the control unit are interlocked with each other to facilitate the control, and the overheat prevention means is operated separately from the operation of the control unit, thereby enhancing the safety.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a view showing a conventional cooling water heater; FIG.
FIGS. 2 to 6 are a perspective view, an exploded perspective view, a cross-sectional view in the AA 'direction, a cross-sectional view in the BB' direction, and a cooling water flow diagram, respectively, showing the cooling water heater according to the present invention.
FIGS. 7 to 9 are an exploded perspective view, a partially cutaway perspective view, and a cross-sectional view showing a first pipe of a coolant-water-heated heater according to the present invention;
10 is another sectional view showing a first pipe of a coolant-water heater according to the present invention.
11 is a cross-sectional view showing a second pipe of a cooling water heating heater according to the present invention.
12 is a view showing operation of the overheat preventing means of the cooling water heater according to the present invention.
13 is a sectional view showing still another example of the coolant-water heater according to the present invention.

Hereinafter, a vehicle heater 1000 of the present invention having the above-described features will be described in detail with reference to the accompanying drawings.

The cooling water heating heater 1000 according to the present invention includes a case 100, a first pipe 200, a second pipe 300, and a control unit 400 as means for heating the cooling water for heating the room.

The case 100 is a basic body constituting the cooling water heating type heater 1000 of the present invention and includes a first space part 100a and a substrate 410 which are formed with a certain space therein and heated while cooling water flows And the second space portion 100b.

At this time, the first space 100a of the case 100 is formed with an inlet 110 through which cooling water flows into the center of one end in the longitudinal direction and a discharge port 120 through which the internal cooling water is discharged, The discharge port 120 may be formed to have a sufficient distance from a position adjacent to the inlet 110.

That is, the case 100 includes a first space portion 100a through which cooling water flows and a second space portion 100b through which the substrate 410 is provided. The first space portion 100a flows through the first space portion 100a, The cooling water does not leak.

The cooling water heating heater 1000 of the present invention may be an example in which the case 100 is formed integrally with the first member 130 and the second member 140 made of a metal material (see FIG. 4)

The first member 130 is made of a metallic material and has a first corresponding portion 131 having an inner surface forming a predetermined region of the first space portion 100a and a second corresponding portion 131 having a second corresponding portion 131, And the second corresponding portion 132 protruding toward the space portion 100b and on which the substrate 410 is mounted are integrally formed.

In the present invention, the inner surface of the first member 130 and the second member 140 is a surface forming the side on which the cooling water flows. In FIG. 4, the first space portion 100a is formed in a circular shape The inner surface of the first member 130 and the inner surface of the second member 140 may be formed of one or more of a plurality of Plane. ≪ / RTI >

The second member 140 is configured to surround the outer surface of the first corresponding portion 131 of the first member 130 to form the first space portion 100a and the second space portion 100b, That is, the outer surface of the case 100 is formed by the second member 140, and the portion forming the first space portion 100a is formed by the inner surface of the first member 130, (Not shown).

At this time, the second member 140 may be made of a resin material, and the first member 130 may be insert-injected to form the case 100.

In order to further increase the productivity of the first member 130 and the second member 140, a plurality of protruding regions are included in a certain region of the first member 130 contacting the second member 140 Concave portions 133 may be formed.

In addition, in the case 100, since the first space 130a and the second space 140a are formed by the first space 130a and the second space 140a, The first member 130 may have an extended portion 134 protruding outward at both ends of the first corresponding portion 131 and the second member 140 may be formed to surround the extended portion 134 .

Also, it is preferable that the concave and convex portions 133 are formed in the extended portion 134 of the first member 130 as well.

The second space part 100b of the case 100 is a space formed by the second member 140 and a substrate 410 as a component of the control part 400 is provided therein.

In this case, the substrate 410 is attached to the first member 130, which is a metal material. In the coolant-heating type heater 1000 of the present invention, the heat of the substrate 410 is transferred to the first member 130, So that stable operation can be performed.

In addition, the second member 140 may be formed to be openable and closable in a predetermined area so that the mounting and mounting of the substrate 410, as well as the maintenance and repairing process, are facilitated.

3 to 5, there is shown an example in which a certain region of the second member 140 is hollow and a hollow region is formed by a separate opening and closing portion 150 so as to be openable and closable.

2 to 5, a region in which the second space 100b is formed supports a certain region around the region forming the first space 100a, and the bottom portion is formed flat Respectively.

The first pipe 200 is provided in the first space 100a of the case 100 and is heated. The first pipe 200 is formed with a first heat generating portion 200a, 200a are formed, the cooling water flowing inside and outside the first pipe 200 is heated.

The first pipe 200 communicates with the inlet 110 and may have a tube shape. The cooling water flowing through the inlet 110 is formed in a length that is spaced apart from the inner surface of the other end of the case 100 (opposite to the side on which the inlet 110 is formed) Is moved from the inlet 110 side to the opposite side along the inside of the first pipe 200 and is moved to the outside of the first pipe 200 through the region where the separation distance is formed.

The second pipe 300 extends from the inner surface of the other end of the case 100 and is formed to have a diameter larger than the diameter of the first pipe 200, The second heat generating portion 300a is formed to heat the cooling water. At this time, the second pipe 300 may have a tube shape.

The second pipe 300 has a length that is spaced apart from an inner surface of one side of the case 100 on which the inlet 110 is formed, The cooling water moved through the area between the first pipe 300 and the second pipe 300 is moved to the outside of the second pipe 300 (the area between the second pipe 300 and the case 100) through the area where the separation distance is formed.

The controller 400 controls the operation of the first heating unit 200a and the second heating unit 300a and may include a substrate 410, an electric wire, and the like.

The shape and the like of the controller 400 of the coolant-heating type heater 1000 of the present invention are not limited thereto and may be variously formed.

The coolant-heated heater 1000 of the present invention further includes a temperature sensor 700. The controller 400 controls the first and second heaters 200a and 200b using the information sensed by the temperature sensor 700, The operation of the second heating unit 300a can be controlled.

At this time, it is preferable that the temperature sensor 700 is positioned adjacent to the outlet 120 of the case 100 in which the temperature of the cooling water is highest.

The control unit 400 not only senses the information sensed by the temperature sensor 700 but also uses the vehicle state including the cooling water temperature before entering the cooling water heater 1000 and the air conditioning setting state of the passenger, The operation of the heat generating unit 200a and the second heat generating unit 300a can be controlled.

The cooling water flow of the cooling water heating type heater 1000 according to the present invention will be described in detail. The cooling water flowing through the inlet 110 is heated while moving inside the first pipe 200. The cooling water that has passed through the first heating zone A1 is returned from the other end of the case 100 to be heated while moving in a region between the first pipe 200 and the second pipe 300, (A2); And a third heating zone (300) which is heated while the cooling water passing through the second heating zone (A2) is returned from one end of the case (100) and moving in the region between the second pipe (300) and the case A3, and is discharged through the outlet 120. (See Fig. 6)

That is, the coolant-heated heater 1000 of the present invention can be heated sufficiently by heating the coolant in the entire region that is moved into the case 100 through the inlet 110 and discharged through the outlet 120 , Particularly when a large amount of cooling water is rapidly heated and the heat source of heating at the initial stage of engine startup is insufficient.

The first heating portion 200a of the first pipe 200 and the second heating portion 300a of the second pipe 300 may be heated by various heating means. Will be described on the basis of an example shown in Fig.

7 to 9 illustrate an example of the first heat generating portion 200a. The first heat generating portion 200a may include a first coating layer 210 and a first protective pipe 220 have.

The first coating layer 210 may include a first insulating layer 211 formed in a predetermined region of the first pipe 200 and a pair of first and second insulating layers 211 and 211, A first carbon nanotube heating layer 213 electrically connected to the first electrode 212 on an upper surface of the first insulating layer 211, And a first protective layer formed on the upper surface of the first electrode 210 to surround the first electrode 212 and the first carbon nanotube heating layer 213, Coated and formed integrally.

The first protective pipe 220 is provided to enclose the first coating layer 210 and is closely attached to the first coating layer 210 and both ends are welded to the first pipe 200.

That is, the first pipe 200 can secure durability because the area of the first coating layer 210 where the first heating unit 200a generates heat is not exposed to the outside, and the first pipe 200 is directly connected to the first protection pipe 220 So that the effect of heating the cooling water can be increased.

10, the first heating portion 200a may further include a first insulating film 230 around the first coating layer 210. The first insulating layer 230 may be formed on the first insulating layer 230, .

That is, the first insulation film 230 may be provided between the first coating layer 210 and the first protection pipe 220.

11 is a view showing a second heat generating portion 300a of the second pipe 300 and may have a configuration similar to that of the first heat generating portion 200a of the first pipe 200. [

More specifically, the second pipe 300 includes a second insulating layer 311 formed in a predetermined region of the second pipe 300, and a second insulating layer 311 formed on the second insulating layer 311 in a longitudinal direction A second carbon nanotube heating layer 313 formed on the upper surface of the second insulating layer 311 to be electrically connected to the second electrode 312, A second coating layer 310 formed on the upper surface of the second insulating layer 311 and including a second protective layer formed to surround the second electrode 312 and the second carbon nanotube heating layer 313; And a second protective pipe (320) which is in close contact with the second coating layer (310) and has an end welded to the second pipe (300); May be formed.

Also, in the coolant-heated heater 1000 of the present invention, the second insulating film 330 may be provided between the second coating layer 310 and the second protective pipe 320.

Although not shown in the drawing, the reference numeral 330 of the second insulating film 330 corresponds to the first insulating film 230 (reference numeral 230) shown in FIG. 10, and the second insulating film 330 ) And the second protective pipe 320. [0054]

The cooling water heater 1000 according to the present invention has both ends of the case 100 integrally formed with the inlet 110 and the first pipe 200 in order to maintain airtightness, simplify the structure, The first cover 101 and the second cover 300 may be closed by a second cover 102 formed integrally with the first cover 101 and the second pipe 300, respectively. (See Fig. 3)

That is, an inlet 110 is formed at one side of the central region of the first cover 101, a first pipe 200 is integrally formed at the other side, and a second pipe 300 are integrally formed so that the assembly of the entire structure can be easily completed through the assembly of the case 100, the first cover 101, and the second cover 102.

3, the first cover 101 and the second cover 102 are assembled through separate fastening means from the case 100. However, the cooling water heating heater 1000 of the present invention is not limited thereto Sealing means such as an o-ring is provided on the surface where the first cover 101, the case 100, the second cover 102 and the case 100 are assembled to secure the sealing performance of the internal cooling water. May be used.

The coolant-heated heater 1000 of the present invention is installed in the first pipe 200 (200) so as to increase the durability of the case 100, the first pipe 200 and the second pipe 300, A first support part 610 provided on the other side of the second pipe 300 to support the first pipe 200 and the second pipe 300 and a second support part 610 provided on one side of the second pipe 300, And a second support portion 620 provided to support between the case 100.

The first support part 610 and the second support part 620 are separately provided on the outer surfaces of the first pipe 200 and the second pipe 300, respectively.

The first support portion 610 and the second support portion 620 are formed in a similar configuration and correspond to the first pipe 200 and the second pipe 300, respectively.

The first support portion 610 includes a first cylindrical member 611 which is in close contact with the outer surface of the first pipe 200 and a second cylindrical member 611 which is in close contact with the inner surface of the second pipe 300, And at least two first connecting portions 613 connecting the first-first cylindrical member 611 and the first-second cylindrical member 612, and the second supporting portion 620 includes the second pipe 620, Cylinder member 621 which is in close contact with the outer surface of the case 100 and a 2-2 cylindrical member which is in close contact with the inner surface of the case 100 and a second- And at least two second connection portions 623 connecting the first connection portions 622.

The first support portion 610 is formed in such a manner that the first connection portion 613 stably supports the first-first cylindrical member 611 and the first-second cylindrical member 612, The second support portion 620 is also formed in a size such that the second connection portion 623 does not interfere with the flow of the cooling water between the second-1 cylindrical member 621 and the second- And is formed to have a size that stably supports the member 622 but does not interfere with the cooling water flow between the second pipe 300 and the case 100.

The first support portion 610 and the second support portion 620 may be formed in a region of the first pipe 200 in which the first heat generating portion 200a is not formed and a region of the first pipe 200 in which the second heat generating portion 300a is not formed 2 pipe 300. In this case,

The cooling water heater 1000 according to the present invention includes an overheat preventing unit 800 for shutting off power supplied to the first heat generating unit 200a and the second heat generating unit 300a when the cooling water temperature rises above a reference temperature, ; May be further included.

In this case, the overheat preventing means 800 is preferably provided on the outer surface region of the second cover 102, and in particular, on the outer surface of the second cover 102, And the overheat prevention unit 800 may be seated on the seating part 103. In this case,

The seating part 103 is preferably formed so as to have the same diameter (same diameter) as that of the second pipe 300 so as to increase the productivity.

The overheat preventing unit 800 senses the temperature separately from the operation of the controller 400 and supplies the first and second heat generating units 200a and 300a when the temperature is over a predetermined temperature It is a means to cut off power.

The bimetal 810, the bracket 820, and the terminal 830 may be included as a specific example of the overheat prevention unit 800.

The bimetal 810 is connected to a power line supplying power to the first heat generating part 200a and the second heat generating part 300a. At this time, the bimetal 810 is connected to one end of the bimetal 810 by a bracket 820 And is fixed on the seating portion 103 of the second cover 102.

The terminal 830 is connected to the other end of the bimetal 810 and supplies power from the external power source to the heating layer through the bimetal 810.

More specifically, referring to Fig. 12, an operation example of the overheat prevention device 800 using the bimetal 810 will be described. As shown in Fig. 12 (a), the second cover 102 The bimetal 810 is maintained in the connected state and the temperature of the second cover 102 corresponding to the cooling water temperature is raised to the reference temperature or higher as shown in Figure 12 (b) The bimetal 810 is deformed so that the contact between the other end of the bimetal 810 and the terminal 830 is released and the power supply to the first heating unit 200a and the second heating unit 300a is cut off.

The cooling water heater 1000 according to the present invention includes a first support portion 610 provided to support the second pipe 300 on the outer surface of the first pipe 200 and a second support portion 610 provided on the outer surface of the second pipe 300 Since the second support portion 620 is provided to support the case 100, the durability can be further improved, and the control can be easily performed by interlocking the temperature prevention means and the control portion 400, There is an advantage that the safety can be further improved by operating the overheat preventing means 800 separately.

In order to further increase the heat exchange efficiency, the cooling water heating heater 1000 of the present invention may further include a cooling fin 500 around the first pipe 200 and the second pipe 300, The radiating fin 500 is preferably formed in a spiral shape. (See Fig. 13)

The cooling water heating heater 1000 of the present invention is configured such that the cooling water introduced through the inlet 110 is heated while being moved inside the first pipe 200 (Third heating zone A3) while moving between the second pipe 300 and the case 100 and is heated while moving between the second pipes 300 (second heating zone A2) Can be heated quickly and effectively.

Accordingly, the coolant-heated heater 1000 of the present invention is advantageous in that the cooling performance can be ensured by directly heating the coolant when the heat source can not be secured at the initial start of the engine.

It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims.

1000: Cooling water heater
100: Case 100a:
100b: second space portion 101: first cover
102: second cover 103: seat part
110: inlet 120: outlet
130: first member 131: first corresponding part
132: second counterpart 133: concave / convex portion
134: Extension
140: second member
150:
200: first pipe 200a: first heating part
210: first coating layer 211: first insulating layer
212: first electrode 213: first carbon nanotube heating layer
220: First protective pipe
230: first insulating film
300: second pipe 300a: second heating part
310: second coating layer 311: second insulating layer
312: second electrode 313: second carbon nanotube heating layer
320: Second protective pipe
330: second insulating film
400: control unit 410:
500: heat sink fin
610: first support part 611:
612: first-second cylindrical member 613: first connecting portion
620: second support part 621: second-1 cylinder member
622: second-second cylindrical member 623: second connection portion
700: Temperature sensor
800: overheat preventing means 810: bimetal
820: Bracket 830: Terminal
A1: first heating zone
A2: second heating zone
A3: Third heating zone

Claims (12)

In a coolant-heated heater (1000) for indoor heating,
A first space part 100a and a second space part 100b which are separated from each other inside the first space part 100a and are formed at the center of one end in the longitudinal direction of the first space part 100a, And a case (100) having a circumferential surface and formed with a discharge port (120) through which the internal cooling water is discharged;
The first space portion 100a of the case 100 communicates with the inlet 110 and is spaced apart from the inner surface of the other end portion of the case 100, A first pipe 200 having a first pipe 200a formed therein;
The first pipe 200 is formed to have a diameter larger than the diameter of the first pipe 200 and extend from the inner surface of the other end of the case 100, A second pipe 300 having a second heat generating part 300a having a predetermined distance from the first pipe 300 in a longitudinal direction; And
The first heat generating portion 200a of the first pipe 200 and the second heat generating portion 200b of the second pipe 300 including the substrate 410 provided in the second space portion 100b of the case 100, A control unit 400 for controlling the operation of the control unit 300a; And a heater for heating the cooling water.
The method according to claim 1,
The case 100 is
A first corresponding portion 131 which is made of a metallic material and has an inner surface forming a certain region of the first space portion 100a and a second corresponding portion 131 which protrudes from the outer surface of the first corresponding portion 131 toward the second space portion 100b A first member 130 integrally formed with a second corresponding portion 132 on which the substrate 410 is mounted; And
And a second member 140 formed to surround the outer surface of the first corresponding portion 131 of the first member 130 to form a first space portion 100a and a second space portion 100b Features a coolant-heated heater.
3. The method of claim 2,
The case 100 is
The first member 130 is formed with an extension 134 protruding outwardly from both ends of the first corresponding portion 131 so that the second member 140 surrounds the extension 134. [ And the cooling water is heated by the heating water.
The method according to claim 2 or 3,
The case 100 is
And a recessed portion (133) is formed in a predetermined region of the first member (130) in contact with the second member (140).
3. The method of claim 2,
Wherein the case (100) is formed such that a predetermined region of the second member (140) forming the second space (100b) is openable and closable.
The method according to claim 1,
The coolant-heated heater 1000 is disposed inside the first space 100a,
A first heating zone (A1) in which cooling water introduced through the inlet (110) is heated while moving inside the first pipe (200);
The cooling water that has passed through the first heating zone A1 is returned from the other end of the case 100 to be heated while moving in a region between the first pipe 200 and the second pipe 300, (A2); And
The cooling water that has passed through the second heating zone A2 is returned from one end of the case 100 to be heated while moving in a region between the second pipe 300 and the case 100, And is discharged through the discharge port (120).
The method according to claim 6,
The first heat generating unit 200a
A first insulating layer 211 formed on a predetermined region of the first pipe 200 and a pair of first electrodes 212 formed on the top surface of the first insulating layer 211 to be long in the longitudinal direction, A first carbon nanotube heating layer 213 formed on an upper surface of the first insulating layer 211 to be electrically connected to the first electrode 212 and a second carbon nanotube heating layer 213 formed on an upper surface of the first insulating layer 211, A first coating layer 210 including a first protective layer formed to surround the first electrode 212 and the first carbon nanotube heating layer 213; A first protective pipe 220 which is in close contact with the first coating layer 210 and has an end welded to the first pipe 200; Respectively,
The second heat generating portion 300a
A second insulating layer 311 formed on a predetermined region of the second pipe 300 and a pair of second electrodes 312 formed on the upper surface of the second insulating layer 311 in the longitudinal direction, A second carbon nanotube heating layer 313 formed on an upper surface of the second insulating layer 311 to be electrically connected to the second electrode 312 and a second carbon nanotube heating layer 313 formed on an upper surface of the second insulating layer 311, A second coating layer 310 including a second protective layer formed to surround the second electrode 312 and the second carbon nanotube heating layer 313; And
A second protective pipe 320 which is in close contact with the second coating layer 310 and has an end welded to the second pipe 300; Wherein the cooling water heater is formed to include the cooling water heater.
The method according to claim 1,
Wherein the cooling water heating heater (1000) further comprises a cooling fin (500) around the first pipe (200) and the second pipe (300).
The method according to claim 6,
The case 100 includes a first cover 101 having opposite ends formed integrally with the inlet 110 and the first pipe 200 and a second cover 101 integrally formed with the second pipe 300. [ 102). ≪ / RTI >
10. The method of claim 9,
The coolant-heated heater (1000)
A first support part 610 provided on the other side of the first pipe 200 to support the first pipe 200 and the second pipe 300,
Further comprising a second support part (620) provided on one side of the second pipe (300) to support the second pipe (300) and the case (100).
The method according to claim 1,
The coolant-heating type heater 1000 further includes a temperature sensor 700. The controller 400 controls the first and second heat generating units 200a and 200b using information sensed by the temperature sensor 700, And controls the operation of the cooling water heater (300a).
The method according to claim 1,
The coolant-heated heater (1000)
An overheat prevention unit 800 for shutting off power supplied to the first heat generating unit 200a and the second heat generating unit 300a when the coolant temperature rises above a reference temperature; And a heater for heating the cooling water.

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