KR101998270B1 - Cooling-water heating type heater - Google Patents

Abstract

The present invention relates to a cooling water heating heater, and more particularly, the present invention relates to a cooling water heating heater that can effectively prevent the overheating of the heating pipe by the overheat prevention means is tightly fixed to the lower case through the fixing means.

Description

Cooling-water heating type heater

The present invention relates to a cooling water heating heater, and more particularly, the present invention relates to a cooling water heating heater that can effectively prevent the overheating of the heating pipe by the overheat prevention means is tightly fixed to the lower case through the fixing means.

Vehicles powered by engines using gasoline, diesel, etc. as the energy source are the most common types of vehicles at present.However, such energy sources for automobiles are not only needed for environmental pollution but also for various reasons such as the reduction of oil reserves. Increasingly, one of the technologies that is closest to the present practical use 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 cannot be used, unlike a vehicle having an engine using a conventional oil as an energy source. That is, in the case of a vehicle driven by an petroleum-based energy source, a very large amount of heat is generated in the engine, and a coolant circulation system for cooling the engine is provided. Had to use. However, since much heat such as that generated in an engine does not occur in a driving source of a vehicle using a fuel cell, there is a limit to using such a conventional heating method.

Accordingly, in fuel cell vehicles, various studies have been made, such as adding a heat pump to an air conditioning system so that it can be used 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 significantly affecting the air conditioning system, and is currently widely used in practice.

FIG. 1 shows Japanese Patent Laid-Open No. 2008-056044 ("Heat medium heating device and vehicle air conditioner using the same"), which is one of conventional cooling water heating heaters.

The cooling water heating heater of Japanese Laid-Open Patent Publication No. 2008-056044 has a plate-shaped fin disposed above and below a PTC electrode plate serving as a heat source, and allowing the cooling water to pass through the plate-shaped fin, thereby transferring heat from the PTC electrode plate to the cooling water. It is designed to heat up the cooling water more effectively.

However, such a coolant heating heater has a problem that it is difficult to obtain a sufficient cooling water heating effect, the problem including this will be described again below.

First, since the heating element (PTC electrode plate) enters into a separate part, the number of parts increases, and there is a problem in that volume and weight increase. Second, the heat generated from the PTC electrode plate is not completely transferred to the cooling water, but part of the heat is transferred to the outside to generate heat loss. Third, various objects such as an insulating layer are present on the heat transfer path from the PTC electrode plate to the cooling water, thereby increasing the heat resistance, and thus reducing the heat transfer efficiency. Fourth, when the cooling water heating heater of this type is mounted on a vehicle, the design of the cooling water pipeline, the electric supply line circuit, and the like becomes complicated, and the actual cooling of the cooling water heating heater itself is difficult.

That is, there is a need for a coolant heating heater capable of effectively heating the coolant, making it easy to manufacture and install, reducing the volume, weight, and cost, and ensuring safety.

Japanese Patent Publication No. 2008-056044 ("Heat medium heating device and vehicle air conditioner using the same", 2008.03.13)

The present invention has been made to solve the problems as described above, the object of the present invention relates to a cooling water heater, in more detail, the present invention is the overheat prevention means heat generated by tightly fixed to the lower case through the fixing means It is to provide a coolant heating heater that can effectively prevent overheating of the pipe.

In particular, an object of the present invention is easily heated while the cooling water flows inside the heating pipe that generates heat according to the temperature of the cooling water inlet, and the overheat prevention means can be stably maintained in close contact with the heating pipe by using an elastic bracket. When it occurs, it is possible to quickly detect overheating and cut off the external power supply to the heat generating unit to provide a coolant heated heater with improved safety.

In addition, an object of the present invention is to provide a cooling water heating heater that is provided with a heat transfer preventing plate can prevent the heat generated from the heating pipes to be transferred to the substrate side, further improving the operational stability.

Cooling water heating heater 1000 of the present invention, in the cooling water heating heater for indoor heating, the lower case (100a) and the upper case (100b) coupled to each other to form a predetermined space therein; A heating pipe (200) including a pipe (210) provided in the lower case (100a) and a heat generating part (220) formed on an outer surface of the pipe (210) to generate heat; An inlet part 310 and an outlet part 320 extending from both sides of the pipe 210 and protruding to the outside of the lower case 100a and the upper case 100b; An overheat prevention means 800 which is in close contact with the upper outer surface of the heating pipe 200 and cuts off the power supplied to the heating part 220 when the temperature of the outer surface of the heating pipe 200 rises above a reference temperature; And it characterized in that it comprises a fixing means 900 for fixing the overheat prevention means 800 to the lower case (100a).

At this time, the overheat prevention means 800 is the body 810, the lower side of the body 810, the outer surface of the curved cap 820 in contact with the outer surface of the heating pipe 200 and the The bimetal 830 provided inside the body 810, the pin 840 moved up and down by the deformation of the bimetal 830, and the bracket 850 are fixed by the bimetal 830. A mobile terminal 860 moved by movement, a contact terminal 870 for supplying power to the heat generator 220 from an external power source when the mobile terminal 860 is in contact with the mobile terminal 860, and the contact terminal 870 connected to the mobile terminal 860. And a connection part 811 protruding to the outside of the body 810, and when the temperature of the heat generating part 220 rises above a reference temperature, the bimetal 830 is deformed, and the mobile terminal 860 The contact of the contact terminal 870 is released, characterized in that the power supply to the heat generating unit 220 is cut off.

In addition, the cooling water heating heater 1000 has a step portion 101 extending stepwise to both sides in the width direction of the lower case 100a and a first fastening hole 102 in which a predetermined region of the step portion 101 is hollow. Is formed, the fixing means 900 is fixed to the overheat prevention means 800, but both ends extending in the width direction so as to correspond to the step portion 101, the extension portion 912 An elastic bracket 910 in which a second fastening hole 913 in which a predetermined region of the hollow is hollow, and a first hollow part 911 in which the connection part 811 is inserted are hollow; A fastening bolt 921 provided through the first fastening hole 102 of the lower case 100a and the second fastening hole 913 of the elastic bracket 910; And a fastening nut 922 fastened to the fastening bolt 921.

In addition, the cooling water heater 1000 is a substrate 600 provided in the upper case (100b); A first sensor 400 provided on the substrate 600 to measure a temperature of the inlet 310; And a controller (not shown) for controlling the power supplied to the heat generator 220 through the temperature information measured by the first sensor 400.

In addition, the cooling water heater 1000 is provided with a second sensor (510, 520) for measuring the outer surface temperature of the heating pipe 200, the control unit is a temperature sensed from the second sensor (510, 520) It is characterized in that for controlling the operation of the heating unit 220 of the heating pipe 200 through the information.

In addition, the heat generating part 220 includes an insulating layer 221 formed in a predetermined region of the pipe 210 and a pair of electrodes 222 extending in the longitudinal direction on the upper surface of the insulating layer 221. And a carbon nanotube heating layer 223 formed on the upper surface of the insulating layer 221 so as to conduct electricity with the electrode 222, and the electrode 222 and the heating layer on the upper surface of the insulating layer 221. It characterized in that it comprises a protective layer 224 formed to surround.

In addition, the cooling water heater 1000 is characterized in that the sealing member (100c) is further provided on the surface where the lower case (100a) and the upper case (100b) abut each other.

In addition, the cooling water heater 1000 is a heat generated from the heating pipe 200 between the substrate 600 and the overheat prevention means 800 in the lower case (100a) and the upper case (100b). In the form of a blocking plate, the heat transfer preventing plate 700 is formed is further provided with a second hollow portion 701 into which the connection portion 811 of the overheat prevention means 800 is inserted.

Accordingly, the cooling water heating heater of the present invention has the advantage that the overheat prevention means is tightly fixed to the lower case through the fixing means to effectively prevent overheating of the heating pipe.

In particular, the cooling water heating heater of the present invention is easily heated while the cooling water flows inside the heating pipe that generates heat according to the temperature of the cooling water inlet, and it is possible to stably maintain the state in which the overheat prevention means is in close contact with the heating pipe by using an elastic bracket. When the overheat occurs, it can quickly detect the overheat and cut off the external power supply to the heating unit, which has the advantage of enhancing safety.

In addition, the cooling water heating heater of the present invention is provided with a heat transfer preventing plate can prevent the heat generated from the heating pipe to be transferred to the substrate side has the advantage of further improving the operational stability.

1 is a view showing a conventional cooling water heater.
2 and 3 are a perspective view and an exploded perspective view of a coolant heating heater according to the present invention.
4 and 5 are a height-length direction cross-sectional view and a height-width direction cross-sectional view of the cooling water heater according to the present invention shown in FIG.
Figure 6 is a view showing an example of the overheat prevention means of the cooling water heating heater according to the present invention.
Figure 7 is another height-width cross-sectional view of a coolant heated heater according to the present invention.
8 is a cross-sectional view showing a heating pipe of the cooling water heater according to the present invention.

Hereinafter, the cooling water heated heater 1000 of the present invention having the features as described above will be described in detail with reference to the accompanying drawings.

2 and 3 are a perspective view and an exploded perspective view of the cooling water heating heater 1000 according to the present invention, Figures 4 and 5 are the height-length direction of the cooling water heating heater 1000 according to the present invention shown in FIG. 6 is a cross-sectional view and a height-width cross-sectional view, and FIG. 6 is a view showing an example of the overheat preventing means 800 of the coolant heating heater 1000 according to the present invention, and FIG. 7 is a coolant heating heater 1000 according to the present invention. Is a cross-sectional view of another height-width direction, and FIG. 8 is a cross-sectional view illustrating a heating pipe 200 of a coolant heating heater 1000 according to the present invention.

In the present invention, the height direction, the width direction, and the longitudinal direction means the height direction, the width direction, and the longitudinal direction of the cooling water heating heater 1000, and are shown in FIGS. 2 to 5 and 7.

Cooling water heating heater 1000 of the present invention is a means for heating the cooling water for indoor heating, the lower case 100a and the upper case 100b, the heating pipe 200, the inlet 310 and the outlet 320 , Overheat prevention means 800 and the fixing means 900 is configured.

The lower case 100a and the upper case 100b are basic bodies 810 constituting the cooling water heated heater 1000 of the present invention and are fastened to each other to form a predetermined space therein.

At this time, the lower case 100a and the upper case 100b have a form in which the inlet portion 310 and the outlet portion 320 protrude from both sides in the longitudinal direction.

2 to 4, the heating pipe 200 is provided on the lower side of the space formed by the lower case 100a and the upper case 100b, and the substrate 600 is provided on the upper side. .

At this time, the upper case 100b is formed with a connector 110 for providing a power to the substrate 600.

The lower case 100a and the upper case 100b may be further provided with a sealing member 100c on a surface which is in contact with each other.

The sealing member (100c) may have a variety of forms, including an example of a plate-shaped, cross-sectional, circular, as shown in Figure 3 to accurately position the sealing member (100c), the lower case ( A sealing member seating groove 103 in which the sealing member 100c is seated may be further formed on a surface in contact with the upper case 100b of 100a.

Cooling water heating heater 1000 of the present invention, in addition to the example shown in Figure 3, the sealing member seating groove 103 is formed only in the upper case (100b), or both sides of the upper case (100b) and lower case (100a) It includes an example formed in.

In addition, the lower case 100a is a step of the stepped portion 101 and the stepped portion 101 extending stepwise to both sides in the width direction for fastening with the fixing means 900 of the overheat prevention means 800 The first fastening hole 102 in which the region is hollow may be formed.

The step portion 101 and the first fastening hole 102 are portions for supporting and fixing the shape of the specific fixing means 900, which will be described below.

The heating pipe 200 is provided in the lower case 100a to heat the cooling water by generating heat, and includes a pipe 210 and a heat generating unit 220.

The heat generating unit 220 is a tubular shape, the cooling water flows therein, the heat generating unit 220 is formed on the outer surface of the pipe 210 to generate heat.

That is, the heating pipe 200 has a cooling water flowing therein, and heats the cooling water flowing inside by the operation of the heating unit 220 formed on the outer surface.

The heat generating unit 220 may be formed by various methods, for example, may use carbon nanotubes as shown in FIG.

The heat generating part 220 shown in FIG. 8 includes an insulating layer 221, an electrode 222, a carbon nanotube heat generating layer 223, and a protective layer 224.

More specifically, the insulating layer 221 is formed in a predetermined region of the pipe 210, a pair of electrodes 222 formed long in the longitudinal direction on the upper surface of the insulating layer 221, and the insulating layer The carbon nanotube heat generating layer 223 is formed on the upper surface of the 221 to be energized with the electrode 222, and is formed to surround the electrode 222 and the heating layer on the upper surface of the insulating layer 221. Protective layer 224.

The inlet portion 310 and the outlet portion 320 extend from both sides of the pipe 210 to protrude out of the case.

At this time, the inlet 310, the pipe 210 and the outlet 320 is preferably formed integrally to prevent the possibility of leakage of the cooling water in advance.

Cooling water heating heater 1000 of the present invention sequentially formed the inlet 310 formed area, the expansion area of the inner diameter is increased, the pipe 210 area, the conduit area of the inner diameter is reduced and the outlet 320 is formed sequentially in the longitudinal direction It can include an area.

That is, the inlet 310 and the outlet 320 have a diameter in consideration of the diameter of the pipe 210 to which the coolant is transferred to facilitate the inlet and outlet of the coolant, the pipe 210 is the inlet 310 And a diameter larger than that of the outlet portion 320, it is preferable to ensure sufficient space for the cooling water to be heated.

The overheating means is in close contact with the upper outer surface of the heating pipe 200 is a means for shutting off the power supplied to the heating unit 220 when the temperature of the outer surface of the heating pipe 200 rises above the reference temperature.

The overheat prevention means 800 is separate from the general operation of the heating unit 220, in the case of overheating above the reference temperature by directly sensing the temperature of the outer surface of the heating pipe 200, the heating unit 220 Shut off the power supply.

The overheat prevention means 800 may be used in the form using a bimetal 830 that is deformed by temperature.

Figure 6 shows an example of the overheat prevention means 800 of the cooling water heating heater 1000 according to the present invention, Figure 6 (a) is an example in which the operation of the heating unit 220 is maintained, Figure 6 (b ) Shows an example when the power supply of the heat generator 220 is cut off.

The overheating means blocks the lower side of the body 810, the body 810, the outer surface is provided with a curved cap 820 in contact with the outer surface of the heating pipe 200, and provided inside the body 810 The bimetal 830, the pin 840 is moved in the vertical direction by the deformation of the bimetal 830, and is fixed by the bracket 850, the mobile terminal is moved by the movement of the pin 840 860, a contact terminal 870 for supplying power from the external power source to the heat generating unit 220 when contacted with the mobile terminal 860, and connected to the contact terminal 870 to the outside of the body 810. It may include a connecting portion 811 protruding to.

In more detail, as shown in FIG. 6A, the superheating means illustrated in FIG. 6 may contact the mobile terminal 860 with the contact terminal 870 when the bimetal 830 maintains a normal state. The power is continuously supplied to the heat generating part 220 through the connecting part 811.

In addition, as shown in FIG. 6B, when the temperature of the heat generating unit 220 rises above a predetermined temperature, the fin 840 is moved downward by the deformation of the bimetal 830. The mobile terminal 860 is moved downward so as to be spaced apart from the contact terminal 870 by a predetermined distance. Accordingly, the contact between the mobile terminal 860 and the contact terminal 870 is released to power the heating unit 220. The supply is cut off.

The fixing means 900 is a means for fixing the overheat prevention means 800 to the lower case (100a).

In this case, the fixing means 900 is a means for maintaining the overheat prevention means 800 to be in close contact with the upper outer surface of the heating pipe 200, the overheat prevention means even in an environment in which vibration occurs, such as a vehicle ( Various forms that can stably maintain the lower case 100a may be used.

As an example, the coolant heating heater 1000 of the present invention may have a step portion 101 extending stepwise to both sides of the lower case 100a in a width direction, and a first region in which a predetermined region of the step portion 101 is hollow. A fastening hole 102 is formed, and the fixing means 900 may include an elastic bracket 910, a fastening bolt 921, and a fastening nut 922.

The step portion 101 supports a predetermined region (extension portion 912) of the elastic bracket 910, and the first fastening hole 102 has a predetermined region of the step portion 101 is hollow The elastic bracket 910 is fixed by the bolt 921 and the fastening nut 922.

The elastic bracket 910 is a means for wrapping and fixing the overheat prevention means 800, and an extension part 912, a second fastening hole 913, and a first hollow part 911 are formed.

The elastic bracket 910 allows the overheat prevention means 800 to be stably adhered to the outer surface of the heating pipe 200 stably by an elastic force acting in the direction of fixing the overheat prevention means 800.

The extension part 912 is a means in which both ends thereof extend in the width direction of the elastic bracket 910 to correspond to the step portion 101.

The second fastening hole 913 is a portion in which a predetermined region of the extension part 912 is hollow, and is formed to correspond to the first fastening hole 102 of the step portion 101.

The first hollow portion 911 is a portion in which the predetermined portion of the elastic bracket 910 is hollow so that the connection portion 811 is inserted.

The fastening bolt 921 is provided to pass through the first fastening hole 102 of the lower case 100a and the second fastening hole 913 of the elastic bracket 910, and fastening with the fastening nut 922. The lower case 100a and the elastic bracket 910 are fixed.

5 and 7 are cross-sectional views of the cooling water heating heater 1000 according to the present invention, Figure 5 is an elastic force acts to fix the overheat prevention means 800 in the elastic bracket 910 in the width direction, height direction By the fastening of the fastening bolt 921 and the fastening nut 922 is shown as an example, Figure 7 is similar to the shape shown in Figure 5, the elastic bracket 910 in the height direction and width direction An example in which an elastic force acts to fix the overheat prevention means 800 is illustrated.

Through this, the cooling water heating heater 1000 of the present invention is the overheat prevention means 800 is tightly fixed to the outer surface of the heating pipe 200 to detect the overheat quickly, the operation of the heating unit 220 can stop the safety There is an advantage that can be higher.

The cooling water heating heater 1000 of the present invention may be controlled by the heating unit 220 of the heating pipe 200 by various methods, for example, by measuring the temperature of the inlet 310, the heating unit ( 220 may be controlled, and at this time, the cooling water heated heater 1000 of the present invention includes a substrate 600, a first sensor 400, and a controller.

The substrate 600 is provided inside the upper case 100b and is equipped with a configuration for supplying and controlling power to the heating unit 220 of the heating pipe 200.

The first sensor 400 is provided in the substrate 600 is a means for measuring the temperature of the inlet 310, the control unit is the heat generating unit through the temperature information measured from the first sensor 400 The power supplied to 220 is controlled.

That is, the cooling water heater 1000 of the present invention measures the temperature of the inlet portion 310 through the first sensor 400 to determine the necessity of heating of the cooling water to supply power to the heat generator 220. To control.

In addition, the cooling water heater 1000 of the present invention is further provided with a second sensor (510, 520) for measuring the outer surface temperature of the heating pipe 200, the control unit from the second sensor (510, 520) Operation of the heating pipe 200 may be controlled by additionally considering the sensed temperature information.

In FIG. 4, two second sensors 510 and 520 are provided at both sides in the longitudinal direction of the pipe 210.

The control unit instructs the operation of the heating unit 220 through the first sensor 400, and measures the temperature of the outer surface of the heating pipe 200 in which the actual heating unit 220 is formed. By detecting through 520, the degree of heat generation is adjusted, and when the temperature rises above the reference temperature, the operation of the heating unit 220 may be stopped.

As a result, since the coolant heating heater 1000 of the present invention is provided inside the vehicle, the coolant inside the heating pipe 200 may be directed to a specific area according to the road surface state or vibration, and in this case, the coolant does not exist. Local overheating may occur.

That is, the second sensors 510 and 520 are provided on both sides of the heating pipe 200 in the longitudinal direction, respectively, so that local overheating can be detected, thereby further improving safety.

In addition, the cooling water heating heater 1000 of the present invention is generated from the heating pipe 200 between the substrate 600 and the overheat prevention means 800 in the lower case 100a and the upper case 100b. The heat transfer preventing plate 700 may further include a second hollow portion 701 in which the connection portion 811 of the overheat prevention means 800 is inserted in a plate shape to block heat.

In this case, the heat transfer preventing plate 700 may be formed with a second hollow portion 701 into which the connection portion 811 of the overheat prevention means 800 can be inserted, and the substrate 600 is also connected to the connection portion 811. An insertable third hollow portion may be formed.

Cooling water heating heater 1000 of the present invention can prevent the heat generated from the heating pipe 200 through the heat transfer preventing plate 700 to be transferred to the substrate 600 side can further increase the operational stability.

Accordingly, the present invention has an advantage that the overheat prevention means 800 is tightly fixed to the lower case 100a through the fixing means 900 to effectively prevent overheating of the heating pipe 200.

In particular, the cooling water heating heater 1000 of the present invention is easily heated while the cooling water flows inside the heating pipe 200 generated by the temperature of the cooling water inlet 310, and prevents overheating by using the elastic bracket 910. Means 800 can maintain the state in close contact with the heating pipe 200 in a stable manner, when the overheat occurs, it is possible to quickly detect the overheating and cut off the external power supplied to the heating unit 220 has the advantage of increased safety.

The present invention is not limited to the above-described embodiments, and the scope of application is not limited, and various modifications can be made without departing from the gist of the present invention as claimed in the claims.

1000: Coolant Heated Heater
100a: lower case 101: stepped portion
102: first fastener
103: sealing member seating groove
100b: upper case
100c: sealing member
110: connector
200: heating pipe 210: pipe
220: heat generating portion 221: insulating layer
222: electrode 223: carbon nanotube heating layer
224: protective layer
310: entrance
320: exit section
400: first sensor
510, 520: second sensor
600: substrate 601: third hollow portion
700: heat transfer prevention plate 701: second hollow part
800: overheat prevention means 810: body
811: connection
820: Cap 830: Bimetal
840: pin 850: bracket
860: mobile terminal 870: contact terminal
900: fixing means 910: elastic bracket
911: first hollow part 912: extension part
913: Second conclusion
921: Fastening Bolt 922: Fastening Nut

Claims (8)

delete In the cooling water heated heater (1000) for indoor heating,
A lower case 100a and an upper case 100b coupled to each other to form a predetermined space therein;
A heating pipe (200) including a pipe (210) provided inside the lower case (100a) and a heat generating part (220) formed on an outer surface of the pipe (210) to generate heat;
An inlet part 310 and an outlet part 320 extending from both sides of the pipe 210 and protruding to the outside of the lower case 100a and the upper case 100b;
An overheat prevention means 800 which is in close contact with the upper outer surface of the heating pipe 200 and cuts off the power supplied to the heating part 220 when the temperature of the outer surface of the heating pipe 200 rises above a reference temperature; And
It includes a fixing means for fixing the overheat prevention means 800 to the lower case (100a),
The overheat prevention means 800
Body 810,
Block the lower side of the body 810, the outer surface of the curved cap 820 in contact with the outer surface of the heating pipe 200,
The bimetal 830 is provided in the body 810,
The pin 840 is moved in the vertical direction by the deformation of the bimetal 830, the mobile terminal 860 is fixed by the bracket 850, and moved by the movement of the pin 840,
A contact terminal 870 for supplying power to the heat generator 220 from an external power source when the mobile terminal 860 contacts the mobile terminal 860;
It is connected to the contact terminal 870 and includes a connecting portion 811 protruding outside the body 810,
When the temperature of the heating unit 220 rises above the reference temperature, the bimetal 830 is deformed, and the contact between the mobile terminal 860 and the contact terminal 870 is released to power the heating unit 220. Cooling water heating heater, characterized in that the supply is cut off.
In the cooling water heated heater (1000) for indoor heating,
A lower case 100a and an upper case 100b coupled to each other to form a predetermined space therein;
A heating pipe (200) including a pipe (210) provided inside the lower case (100a) and a heat generating part (220) formed on an outer surface of the pipe (210) to generate heat;
An inlet part 310 and an outlet part 320 extending from both sides of the pipe 210 and protruding to the outside of the lower case 100a and the upper case 100b;
An overheat prevention means 800 which is in close contact with the upper outer surface of the heating pipe 200 and cuts off the power supplied to the heating part 220 when the temperature of the outer surface of the heating pipe 200 rises above a reference temperature; And
It includes a fixing means for fixing the overheat prevention means 800 to the lower case (100a),
The cooling water heater 1000 is
A step portion 101 extending stepwise to both sides of the lower case 100a and a first fastening hole 102 in which a predetermined region of the step portion 101 is hollow are formed.
The fixing means (900) fixes the overheat prevention means (800), but an extension part (912) extending at both ends in the width direction to correspond to the step portion (101), and a predetermined region of the extension part (912) An elastic bracket 910 having a hollow second fastening hole 913 and a first hollow part 911 into which the connection part 811 of the overheat prevention means 800 is inserted; A fastening bolt 921 provided through the first fastening hole 102 of the lower case 100a and the second fastening hole 913 of the elastic bracket 910; And a fastening nut 922 fastened to the fastening bolt 921.
In the cooling water heated heater (1000) for indoor heating,
A lower case 100a and an upper case 100b coupled to each other to form a predetermined space therein;
A heating pipe (200) including a pipe (210) provided inside the lower case (100a) and a heat generating part (220) formed on an outer surface of the pipe (210) to generate heat;
An inlet part 310 and an outlet part 320 extending from both sides of the pipe 210 and protruding to the outside of the lower case 100a and the upper case 100b;
An overheat prevention means 800 which is in close contact with the upper outer surface of the heating pipe 200 and cuts off the power supplied to the heating part 220 when the temperature of the outer surface of the heating pipe 200 rises above a reference temperature; And
It includes a fixing means for fixing the overheat prevention means 800 to the lower case (100a),
The cooling water heater 1000 is
A substrate 600 provided inside the upper case 100b;
A first sensor 400 provided on the substrate 600 to measure a temperature of the inlet 310;
A controller for controlling the power supplied to the heat generator 220 through the temperature information measured by the first sensor 400; And
The overheat prevention means in the form of a plate that blocks the heat generated from the heating pipe 200 between the substrate 600 and the overheat prevention means 800 in the lower case 100a and the upper case 100b. Cooling water heating heater characterized in that it comprises a heat transfer preventing plate 700 is formed a second hollow portion 701 is inserted into the connection portion 811 of (800).

The method of claim 4, wherein
The cooling water heater 1000 is provided with a second sensor (510, 520) for measuring the outside temperature of the heating pipe 200,
The control unit is a cooling water heating heater, characterized in that for controlling the operation of the heating unit 220 of the heating pipe 200 through the temperature information sensed by the second sensor (510, 520).
The method according to any one of claims 2 to 4,
The heat generating unit 220 may include an insulating layer 221 formed in a predetermined region of the pipe 210, a pair of electrodes 222 extending in a longitudinal direction on an upper surface of the insulating layer 221, and The carbon nanotube heating layer 223 is formed on the upper surface of the insulating layer 221 so as to be energized with the electrode 222, and the electrode 222 and the heating layer are wrapped on the upper surface of the insulating layer 221. Cooling water heater characterized in that it comprises a protective layer 224 is formed to.
The method according to any one of claims 2 to 4,
The cooling water heater 1000 is
Cooling water heating heater, characterized in that the lower case (100a) and the upper case (100b) is further provided with a sealing member (100c) on the surface in contact with each other. delete

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