KR20150098879A - Cooling-water heating type heater - Google Patents

Abstract

The present invention relates to a cooling water heating type heater. More specifically, the present invention relates to a cooling water heating type heater which secures sealing properties of a lower case and an upper case wherein a heat generation pipe is embedded, effectively heating the cooling water; and prevents a problem of overheating in advance to increase more in safety.

Description

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

The present invention relates to a cooling water heating type heater. More particularly, the present invention relates to a cooling water heating type heater which can secure the sealing properties of a lower case and an upper case in which an exothermic pipe is embedded, effectively cooling the cooling water, To a coolant-heated heater that is more secure than the conventional coolant heater.

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 that can effectively cool cooling water, can be easily manufactured and installed, can reduce volume, weight, unit cost, and can secure safety.

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 It is an object of the present invention to solve the above-mentioned problems of the prior art, and it is an object of the present invention to provide an air conditioner capable of securing sealing properties of a lower case and an upper case, Which can prevent a problem caused by the heating of the cooling water heater.

Particularly, it is an object of the present invention to provide a sealing device, which comprises a first sealing member between a lower case and an upper case, a second sealing member at an inlet, and a third sealing member at an outlet, And to provide a cooling water heating heater capable of solving the problem that durability is deteriorated due to impurities and moisture due to no moisture or the like flowing into the inside.

More specifically, it is an object of the present invention to provide a method for manufacturing a semiconductor device, wherein the first sealing member includes a first sealing member and a second sealing member having a " The first and second extending portions extending in the longitudinal direction of the exothermic pipe are formed in the upper and lower cases and the upper case and the lower case in which the exothermic pipe is embedded by having the second sealing member and the third sealing member at the inlet portion and the outlet portion, And to provide a coolant-heated heater that can be tightly sealed.

It is another object of the present invention to provide a cooling water heating type heater capable of increasing the assemblability because the rotation preventing portion is protruded on the lower side of the pipe and the rotation preventing groove is formed in the lower case, .

It is another object of the present invention to provide an apparatus and a method for controlling the temperature of a cooling water, which includes a first cooling water sensor, a second cooling water sensor and a heating unit sensor and which can effectively heat cooling water by controlling the heating unit through information sensed therethrough, .

It is another object of the present invention to provide an overheat preventing unit that prevents fire due to overheating and prevents heat damage to the substrate due to heat generated by the heat generated by the heat- And a coolant-heated heater that can easily be mounted on the heater unit.

The cooling water heater 1000 according to the present invention includes a lower case 100a and an upper case 100b coupled to each other to form a certain space therein. The upper and lower cases 100a and 100b are formed in an inner space formed by the upper case 100b and the lower case 100a and the upper case 100b. An exothermic pipe 200 including an inlet portion 310 and an outlet portion 320 and a heat generating portion 220 formed on an outer surface of the pipe 210 to generate heat; A first sealing member 110 provided on a surface where the lower case 100a and the upper case 100b are in contact with each other; A second sealing member 120 provided around the inlet 310 of the heat generating pipe 200 to contact the lower case 100a and the upper case 100b; And a third sealing member 130 provided around the outlet 320 of the heat generating pipe 200 to contact the lower case 100a and the upper case 100b.

The first sealing member 110 has a plate shape having a predetermined thickness and includes a first sealing portion 111 having a "C" shape and surrounding an internal fixed space with the heat pipe 200 therebetween, A pair of first extending portions 112 extending inwardly in the longitudinal direction of the heat generating pipe 200 from both ends of the first sealing portion 111, And a second extension part (114) extending inwardly in the longitudinal direction of the heat pipe (200) from both ends of the first and second sealing parts (113).

The cooling water heating heater 1000 has a first seating groove 101 in which the first sealing member 110 is seated on one or both sides of the lower case 100a and the upper case 100b .

The cooling water heater 1000 includes a second seating groove 102 on which the second sealing member 120 is seated in the lower case 100a and the upper case 100b, And a third seating groove 103 in which the third sealing member 130 is seated is formed in the upper case 100b.

The coolant-heated heater 1000 includes a first mounting portion 311 having a concave or convex shape to surround the inlet portion 310 and the second sealing member 120, And the second mounting portion 321 is formed to be concave or convex so that the third sealing member 130 is positioned.

The cooling water heating type heater 1000 is provided with a rotation preventing part 230 protruding in a certain lower area of the pipe 210 and is provided with a recessed rotation Preventing grooves 104 are formed.

In addition, the cooling water heater 1000 includes a substrate 600 disposed in the upper case 100b; A heater unit 400 connected to the substrate 600 and measuring the temperature of the outer surface of the heater 220; And a controller for controlling the power supplied to the heating unit 220 through the temperature information measured from the heating unit sensor 400.

The cooling water heating type heater 1000 includes a first cooling water sensor 510 connected to the substrate 600 to measure the temperature of the inlet 310 and a second cooling water sensor 510 connected to the substrate 600, The control unit controls the temperature of the heat generating unit 220 through the temperature information measured from the first cooling water sensor 510 and the second cooling water sensor 520, To the power supply control unit.

The coolant-heated heater 1000 is a plate-like plate that blocks the substrate 600 and the heat-generating unit 220. The heat-transfer-type heater 1000 has a sensor mounting groove 702 formed therein to mount the heat- A sensing part 410 protruding from one side of the sensing part 410 and having a predetermined area at an end of the sensing part 410, And a boss portion 420 inserted into the sensor mounting groove 702 and threaded on an outer circumferential surface thereof and fixed to the heat transfer prevention plate 700 by a separate fixing bolt 430.

When the temperature of the outer surface of the heat pipe 200 rises above a reference temperature, the cooling water heater 1000 closes the power supply to the heat generating unit 220, And further includes an overheating preventing means 800.

The overheat preventing unit 800 includes a curved surface cap 820 that cuts off the lower side of the body 810 and has an outer surface contacting an outer surface of the heat generating unit 220, A pin 840 which is moved in the vertical direction by the deformation of the bimetal 830 and a pin 840 which is fixed by the bracket 850 and which is moved by the movement of the pin 840, A contact terminal 870 for supplying power from the external power source to the heating unit 220 when the heating unit 220 is brought into contact with the moving terminal 860; The bimetal 830 is deformed and the contact between the movable terminal 860 and the contact terminal 870 is released so that the power supply to the heat generating unit 220 is interrupted.

The heat generating unit 220 includes an insulating layer 221 formed on a predetermined region of the pipe 210 and a pair of electrodes 222 formed on the upper surface of the insulating layer 221, A carbon nanotube heating layer 223 formed on the upper surface of the insulating layer 221 so as to be electrically connected to the electrode 222 and a carbon nanotube heating layer 223 formed on the upper surface of the insulating layer 221, And a protective layer 224 formed so as to surround the protective layer 223.

Accordingly, the cooling water heating type heater of the present invention can secure the sealing properties of the lower case and the upper case in which the heat pipe is embedded, effectively heat the cooling water, and prevent problems caused by overheating, There is an advantage that it is higher.

In particular, the cooling water heater of the present invention has a first sealing member between the lower case and the upper case, a second sealing member at the inlet portion, and a third sealing member at the outlet portion, Impurities and moisture can not be introduced into the interior of the semiconductor device, and the durability of the semiconductor device is deteriorated due to impurities and moisture.

More specifically, the coolant-heated heater of the present invention is characterized in that the first sealing member includes a first sealing member and a second sealing member having a " C "shape and the first sealing member and the second sealing member, A first extension portion and a second extension portion extending in the longitudinal direction of the exothermic pipe are formed in the sealing portion, and a second sealing member and a third sealing member are provided at the inlet portion and the outlet portion, The case can be tightly sealed.

In addition, the cooling water heating type heater of the present invention has the rotation preventing portion protruding from the lower side of the pipe and the rotation preventing groove formed in the lower case, so that the heat generating pipe can be fixed to the lower case at the correct position, .

The cooling water heating type heater of the present invention includes a first cooling water sensor, a second cooling water sensor, and a heating unit sensor, and can control the heating unit through information sensed through the first cooling water sensor, the cooling water can be effectively heated, .

In addition, the cooling water heating type heater of the present invention is provided with an overheating preventing means to prevent a fire or the like due to overheating, and is provided with a heat transfer prevention plate for blocking heat between the substrate and the heat generating portion, And it is easy to mount the sensor of the heating unit.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a view showing a conventional cooling water heater; FIG.
2 is a perspective view of a heater for cooling water according to the present invention;
Fig. 3 and Fig. 4 are exploded perspective views of the cooling water heating type heater shown in Fig. 2; Fig.
5 is a cross-sectional side view of a heater for cooling water according to the present invention.
6 and 7 are longitudinal sectional views of a coolant-heated heater according to the present invention (FIG. 6 is a cross-sectional view of a region provided with overheat preventing means, and FIG. 7 is a cross-
8 is a view showing an exothermic pipe of a cooling water heating heater according to the present invention.
9 is a view showing an overheat preventing means for a cooling water heater according to the present invention.
10 is another cross-sectional side view of a cooling water heater according to the present invention.

Hereinafter, a cooling water heater 1000 according to the present invention having the above-described characteristics will be described in detail with reference to the accompanying drawings.

FIG. 2 is a perspective view of a coolant-heated heater 1000 according to the present invention, FIGS. 3 and 4 are exploded perspective views of the coolant-heated heater 1000 shown in FIG. 2, FIG. 6 is a cross-sectional view of a region where overheat preventing means is provided, and FIG. 7 is a cross-sectional view of a region where the heat generating portion sensor 400 is provided.

The cooling water heater 1000 according to the present invention is a means for heating the cooling water for heating the room and includes a lower case 100a, an upper case 100b, a heat pipe 200, a first sealing member 110, Member 120 and a third sealing member 130. As shown in FIG.

The lower case 100a and the upper case 100b constitute a basic body constituting the coolant heating type heater 1000 of the present invention, and a certain space is formed therein so that the remaining components are provided.

More specifically, the lower case 100a and the upper case 100b include a region for forming the heat generating portion 220 of the heat generating pipe 200 therein. The lower case 100a and the upper case 100b are provided at both ends in the longitudinal direction of the heat generating pipe 200 And is formed to surround the inlet 310 and the outlet 320 of the exothermic pipe 200.

A substrate 600 (and other electronic equipment) for controlling power supply to the heat generating unit 220 may be provided in an inner space formed by the lower case 100a and the upper case 100b, And a connector unit 140 for connecting a power line for power supply is formed in the main body 100b.

The heating pipe 200 includes a pipe 210 in which cooling water flows in a tubular shape and a heating unit 220 formed on an outer surface of the pipe 210 to generate heat, And is provided inside the case 100b.

That is, the cooling water flows in the heating pipe 200, and the heating unit 220 on the outer surface operates to heat the cooling water.

8, an insulating layer 221, an electrode 222, a carbon nanotube heating layer 223, and a protective layer 224 (not shown) are formed on the insulating layer 221, ).

The heat generating unit 220 includes an insulating layer 221 formed on a predetermined region of the pipe 210 and a pair of electrodes 222 formed on the upper surface of the insulating layer 221, A carbon nanotube heating layer 223 formed on the upper surface of the insulating layer 221 so as to be electrically connected to the electrode 222; And a protective layer 224 formed to surround the layer 223.

The inlet 310 and the outlet 320 extend from both sides of the pipe 210 and protrude out of the case 100.

That is, the inlet 310, the pipe 210, and the outlet 320 are integrally formed, and the possibility of leakage of the cooling water can be reduced.

At this time, the coolant-heating type heater 1000 has an inlet region A1, an expanded region A2 where the inner diameter is increased, and a heat generating portion 220 formed in the longitudinal direction, The heat pipe region A3, the axial pipe region A4 whose inner diameter is reduced, and the outlet region A5. (See Fig. 5)

Accordingly, the coolant-heated heater 1000 of the present invention has an advantage that the coolant can be effectively heated by sufficiently securing the space of the heat-generating pipe 200 in which the heat-generating unit 220 is formed.

The first sealing member 110 is provided on a surface where the lower case 100a and the upper case 100b are brought into contact with each other to enhance airtightness between the lower case 100a and the upper case 100b .

The lower case 100a and the upper case 100b are in contact with each other except for a region where the inlet 310 and the outlet 320 of the heat generating pipe 200 are seated, 110 has a "1-1" sealing part 111 and a 1-2 sealing part 113 which surround the internal fixed space with the heat pipe 200 interposed therebetween, A pair of first extending portions 112 extending from both ends of the sealing portion 111 inward in the longitudinal direction of the heat generating pipe 200 and a pair of second extending portions 112 extending from both ends of the first and second sealing portions 113, And a second extension 114 extending inwardly in the longitudinal direction of the first and second arms 200.

The cooling water heater 1000 of the present invention is connected to the inlet 310 and the outlet 310 of the heat pipe 200 through the first and second sealing parts 111 and 113, The first extension part 112 and the second extension part 113 are formed at both ends of the first and second sealing parts 111 and 111, respectively, The second extending portion 114 is formed at both ends of the first and second sealing portions 113 and 113 so that a region where the first sealing member 110 is formed is extended in the longitudinal direction of the heat generating pipe 200, Can be further increased.

At this time, the lower case 100a and the upper case 100b have a first seating groove 101 on one or both sides on which the first sealing member 110 is seated to facilitate assembly of the sealing member .

6 and 7 show examples in which the first seating groove 101 is formed on both sides of the lower case 100a and the upper case 100b.

The first sealing member 110 may be formed as a plate having a predetermined thickness, or may be modified to have various cross-sectional shapes.

The second sealing member 120 is provided around the inlet 310 of the heat generating pipe 200 to contact the lower case 100a and the upper case 100b and the third sealing member 130 An outlet 320 of the heat pipe 200 is provided around the lower case 100a and the upper case 100b.

The second sealing member 120 and the third sealing member 130 are respectively provided at the inlet 310 and the outlet 320 of the heat generating pipe 200 and the lower case 100a and the upper case 100b ).

At this time, the heat pipe 200 has a concave or convex first mounting portion 311 around the inlet portion 310 to form a space in which the second sealing member 120 is seated in the inlet portion 310 The third sealing member 130 is formed in the outlet 320 so as to form a space in which the third sealing member 130 is seated in the outlet 320 so as to form a space in which the third sealing member 130 is seated in the outlet 320. [ A concave or convex second mounting portion 321 is formed around the second mounting portion 320.

5 shows an example in which the first mounting portion 311 and the second mounting portion 321 protrude outward.

That is, since the inlet portion 310 and the outlet portion 320 are extended from the pipe 210, the coolant-heating heater 1000 of the present invention has a first mounting portion 311 on the inlet portion 310, And the second mounting portion 321 is formed at the outlet portion 320, the accurate position of the second sealing member 120 and the third sealing member 130 can be determined.

At this time, the lower case 100a and the upper case 100b are formed with the second seating groove 102 on which the second sealing member 120 is seated, and the third sealing member 120 on which the third sealing member 130 is seated. 3 seating grooves 103 can be formed.

5, when the first mounting portion 311 is protruded from the inlet portion 310 and the second mounting portion 321 is protruded from the outlet portion 320, The seating groove 102 is formed in a concave shape to receive the first and second sealing members 311 and 120 and the third seating groove 103 is also formed in the second mounting portion 321 The third sealing member 130 may be recessed to a size capable of accommodating the third sealing member 130.

The cooling water heater 1000 according to the present invention includes a rotation preventing part 230 protruding from a certain lower area of the pipe 210 so that the heat generating part 220 can be fixed to the lower case 100a at an accurate position. And a recessed rotation preventing groove 104 may be formed in the lower case 100a to insert the rotation preventing portion 230 into the lower case 100a. (See Figs. 4, 5, and 7)

In addition, the coolant-heated heater 1000 of the present invention may include a substrate 600, a heater unit 400, and a controller (not shown).

The substrate 600 is a part to which power for supplying the power to the heat generating part sensor 400 or the like is supplied and a configuration for storing or transmitting the sensed information from the heat generating part sensor 400 is mounted, May be provided on the upper side of the exothermic pipe (200).

The coolant-heated heater 1000 of the present invention is provided between the substrate 600 and the heat generating unit 220 to prevent the substrate 600 from being damaged by the heat generated from the heat generating unit 220. A heat transfer prevention plate 700 may be provided.

The heating unit sensor 400 measures a temperature of an outer surface of the heating unit 220 of the heating pipe 200.

In this case, a plurality of heat generating part sensors 400 may be provided. In FIGS. 4 and 5, two heat generating parts 220 are formed at both ends of the heat generating part 220.

This is so that when the coolant-heated heater 1000 is positioned to be tilted according to the vehicle position while the vehicle is traveling, it is possible to sense overheating due to the absence of coolant in a specific area.

Of course, the number and position of the heat generating part sensors 400 may be variously formed.

The heat generating part sensor 400 may be fixed by various methods. For example, a sensor mounting groove 702 may be formed on the heat transmission preventing plate 700 and may be fixed thereto.

5 and 7, the heating unit sensor 400 includes a sensing unit 410 and a boss unit 420. A certain region of the maintenance unit is inserted into the sensor mounting groove 702, And can be fixed to the heat transfer prevention plate 700 by the fixing bolts 430.

The boss unit 420 protrudes from one side of the sensing unit 410 so that a predetermined area of the end of the sensing unit 410 contacts the sensor mounting groove 702 And a thread is formed on the outer circumferential surface.

That is, the fixing bolt 430 may be fastened to a region where the heat transfer prevention plate 700 of the boss unit 420 protrudes upward.

The controller controls the power supplied to the heating unit 220 through the temperature information measured from the heating unit sensor 400.

The cooling water heater 1000 of the present invention further includes a first cooling water sensor 510 and a second cooling water sensor 520 for measuring the temperature of the cooling water, And the power supplied to the heat generating unit 220 can be controlled through the temperature information measured from the second cooling water sensor 520.

At this time, the first cooling water sensor 510 is positioned to measure the temperature of the inlet 310, and the second cooling water sensor 520 measures the temperature of the outlet 320, It is desirable to be able to confirm whether or not the cooling water is sufficiently heated.

The coolant-heated heater 1000 of the present invention may include an overheat preventing unit 800 for shutting off the power supplied to the heat generating unit 220 when the temperature of the outer surface of the heat generating pipe 200 rises above a reference temperature, ) May be further provided. (See FIGS. 4 to 6 and 9)

In other words, when the temperature of the heat generating part 220 of the heat generating pipe 200 is directly sensed by the overheat preventing device 800 and the temperature of the heat generating part 220 is overheated to a predetermined temperature or higher, The power supply to the heat generating unit 220 is cut off.

The overheat preventing means 800 may be mounted on the substrate 600 so as to be in contact with the outer surface of the heat generating pipe 200.

A means using the bimetal 830 may be used for the overheat preventing means 800, and an example thereof is shown in FIG.

9 includes a body 810 and a cap 820 that cuts off the lower side of the body 810 and has an outer surface in contact with the heat generating unit 220. The body 810, A pin 840 which is moved in the upward and downward directions by the deformation of the bimetal 830 and a pin 840 fixed by the bracket 850 and moved by the movement of the pin 840 And a contact terminal 870 for supplying power from the external power source to the heating unit 220 when the moving terminal 860 is in contact with the moving terminal 860.

9 (a), when the temperature of the heat generating portion 220 is higher than a predetermined temperature or more, the temperature of the heat generating portion 220 is lowered to a predetermined temperature or more, The pin 840 is moved in the upward direction by the deformation of the bimetal 830 and the moving terminal 860 is moved in the upward direction so as to be separated from the contact terminal 870 by a predetermined distance, The contact between the movable terminal 860 and the contact terminal 870 is released and the power supply to the heat generating unit 220 is interrupted.

9 (b), the pin 840 is moved downward during normal operation, and the movable terminal 860 and the contact terminal 870 are brought into contact with each other. As a result, The operation of the first heating unit 210 and the second heating unit 310 is maintained.

Accordingly, the coolant-heated heater 1000 of the present invention is easily controlled by interlocking the control unit with the heat-generating-portion sensor 400, the first coolant sensor 510, and the second coolant sensor 520, There is an advantage that safety can be further increased by operating the overheat preventing means 800 separately.

When the overheat preventing unit 800 is provided, the heat transfer preventing plate 700 may be formed with a hollow portion 701 hollow in a predetermined region in consideration of the height of the overheating preventing means 800, A hollow portion 601 hollow in a certain region may be formed.

4 and 6, the overheat preventing means 800 is an example in which the fixing means 900 installed to enclose the body 810 is fixed to the lower case 100a, Can be used.

The cooling water heater 1000 according to the present invention may further include a ground terminal part 330 connected to the connector part 140 through the electric wire 340 to the inlet part 310 or the outlet part 320 of the heat generating pipe 200, ) May be further provided.

3, the ground terminal portion 330 is formed at the outlet portion 320, and the outlet portion is enclosed.

The coolant-heated heater 1000 of the present invention is advantageous in that safety can be further improved by forming the ground terminal portion 330.

10, the inlet 310 and the outlet 320 of the heat-generating pipe 200 may be extended from the upper side of the pipe 210, have.

The bubbles inside the heat-generating pipe 200 not only hinder the heating of the cooling water, but also cause local overheating.

10 shows an example in which the outlet 320 is extended from the upper side of the pipe 210 so that bubbles which may be present together with the cooling water in the heating pipe 200 are easily discharged .

Accordingly, the coolant-heated heater 1000 of the present invention can secure the sealing properties of the lower case 100a and the upper case 100b, in which the heat generating pipe 200 is embedded, effectively cooling the cooling water, It is possible to prevent a problem in advance, thereby improving safety.

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
100a: Lower case
100b: upper case
101: first seating groove 102: second seating groove
103: Third seating groove
104: anti-rotation groove
110: first sealing member 111: first sealing member
112: first extension part 113: first and second sealing parts
114:
120: second sealing member
130: third sealing member
140:
200: exothermic pipe 210: pipe
220: heat generating portion 221: insulating layer
222: electrode 223: carbon nanotube heating layer
224: Protective layer
230:
310: inlet part 311: first mounting part
320: outlet portion 321: second mounting portion
330: ground terminal part 340:
400: heating part sensor 410: sensing part
420: boss unit 430: fixing bolt
510: first cooling water sensor 520: second cooling water sensor
600: substrate 601: hollow
700: Heat transfer prevention plate 701: Hollow portion
702: Sensor mounting groove
800: overheat preventing means 810: body
820: cap 830: bimetal
840: Pin 850: Bracket
860: Mobile terminal 870: Contact terminal
900: fixing means
A1: inlet area A2: expansion area
A3: Heat pipe area A4: Axial area
A5: exit area

Claims (12)

In a coolant-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;
The upper and lower cases 100a and 100b are formed in an inner space formed by the upper case 100b and the lower case 100a and the upper case 100b. An exothermic pipe 200 including an inlet portion 310 and an outlet portion 320 and a heat generating portion 220 formed on an outer surface of the pipe 210 to generate heat;
A first sealing member 110 provided on a surface where the lower case 100a and the upper case 100b are in contact with each other;
A second sealing member 120 provided around the inlet 310 of the heat generating pipe 200 to contact the lower case 100a and the upper case 100b; And
Wherein the outlet part 320 of the heat generating pipe 200 includes a third sealing member 130 provided around the lower case 100a and the upper case 100b.
The method according to claim 1,
The first sealing member 110 has a plate shape having a predetermined thickness,
A first sealing portion 111 and a second sealing portion 113 of a "D" shape enclosing an internal space with the heat pipe 200 interposed therebetween,
A pair of first extension portions 112 extending inwardly in the length direction of the heat pipe 200 from both ends of the first sealing portion 111,
And a second extension part (114) extending from both ends of the first and second sealing parts (113) inward in the longitudinal direction of the heat pipe (200).
The method according to claim 1,
The coolant-heated heater (1000)
Wherein a first seating groove (101) in which the first sealing member (110) is seated is formed on one or both sides of the lower case (100a) and the upper case (100b).
The method according to claim 1,
The coolant-heated heater (1000)
A second seating groove 102 in which the second sealing member 120 is seated is formed in the lower case 100a and the upper case 100b,
Wherein a third seating groove (103) in which the third sealing member (130) is seated is formed in the lower case (100a) and the upper case (100b).
5. The method of claim 4,
The coolant-heated heater (1000)
A first mounting portion 311 which is concave or convex so that the second sealing member 120 is positioned around the inlet portion 310,
Wherein a second mounting portion (321) is formed in a concave or convex shape so that the third sealing member (130) is positioned around the outlet portion (320).
The method according to claim 1,
The coolant-heated heater (1000)
A rotation preventing part 230 protruding from a lower side of the pipe 210 is formed,
Wherein the lower case (100a) is formed with a recessed rotation preventing groove (104) for inserting the rotation preventing portion (230).
The method according to claim 1,
The coolant-heated heater (1000)
A substrate 600 disposed inside the upper case 100b;
A heater unit 400 connected to the substrate 600 and measuring the temperature of the outer surface of the heater 220; And
And a controller for controlling power supplied to the heating unit (220) through temperature information measured from the heating unit sensor (400).
8. The method of claim 7,
The coolant-heated heater (1000)
A first cooling water sensor 510 connected to the substrate 600 for measuring the temperature of the inlet 310,
Further comprising a second cooling water sensor (520) connected to the substrate (600) and measuring the temperature of the outlet (320)
Wherein the controller controls power supplied to the heating unit (220) through temperature information measured from the first cooling water sensor (510) and the second cooling water sensor (520).
9. The method of claim 8,
The coolant-heated heater (1000)
And a heat transfer prevention plate 700 having a sensor mounting groove 702 for mounting the heat generating part sensor 400 in the form of a plate for blocking the gap between the substrate 600 and the heat generating part 220,
A sensing part 410 protruding from one side of the sensing part 410 and having a predetermined end area inserted into the sensor mounting groove 702; (700) by a fixing bolt (430) including a boss portion (420) having a screw thread formed on the outer circumferential surface of the boss portion (420).
9. The method of claim 8,
The coolant-heated heater (1000)
And an overheating preventing unit 800 which is in tight contact with the upper surface of the heat pipe 200 to shut off the power supplied to the heat generating unit 220 when the temperature of the outer surface of the heat pipe 200 rises above a reference temperature And a heater for heating the cooling water.
11. The method of claim 10,
The overheat preventing means (800)
A cap 820 which cuts off the lower side of the body 810 and has an outer surface contacting the outer surface of the heat generating part 220,
A bimetal 830 provided inside the body 810,
A pin 840 which is moved in the vertical direction by deformation of the bimetal 830,
A movable terminal 860 fixed by the bracket 850 and moved by the movement of the pin 840,
A contact terminal 870 for supplying power from the external power source to the heating unit 220 when the moving terminal 860 is contacted,
The bimetal 830 is deformed and the contact between the movable terminal 860 and the contact terminal 870 is released so that the power to the heat generating unit 220 And the supply of the coolant is interrupted.
The method according to claim 1,
The heating unit 220 includes an insulating layer 221 formed in a predetermined region of the pipe 210 and a pair of electrodes 222 formed on the upper surface of the insulating layer 221 in the longitudinal direction, A carbon nanotube heating layer 223 formed on an upper surface of the insulating layer 221 so as to be electrically connected to the electrode 222 and an electrode 222 and a heating layer 223 formed on an upper surface of the insulating layer 221 And a protective layer (224) formed so as to surround the heater (230).

Images