KR101878723B1 - Heater assembly for heating fluid - Google Patents

Abstract

The present invention relates to a heater assembly for heating a fluid, comprising: a case body having a flow path formed therein and having an inlet and an outlet formed at one side thereof and a surface opposite to the flow path opened; And a heater plate installed on one side or both sides of the case made of the case body and the cover, wherein the flow path has a central partition wall that bisects the inflow port and the outflow port, Side flow path and the outflow-side flow path, which are formed in a serpentine shape, are connected to each other in a serpentine flow path. Therefore, it is advantageous in that it is simple in installation and excellent in durability, Since the length of the fluid is long, the area where the fluid can be heated is relatively wide and the heating can be effectively performed.

Description

[0001] HEATER ASSEMBLY FOR HEATING FLUID [0002]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a heater assembly for heating fluids, and more particularly to a heater assembly for heating fluids for heating a fluid included in a hybrid vehicle (HEV, PHEV), a battery electric vehicle (BEV) will be.

In an eco-friendly automobile without an internal combustion engine such as HEV, PHEV, battery electric vehicle (BEV) and fuel cell vehicle (FCEV), heating of a fluid such as cooling water for improving battery performance and cold starting efficiency Heater is adopted.

Therefore, the heater for heating the fluid corresponds to a core part which has a very important influence on the vehicle.

As a conventional technique of a fluid heating heater, it is known that Korean Patent No. 0870058 (Prior Art 1) and Korean Patent No. 0933884 (Prior Art 2) use a so-called PTC heating element in a vehicle as described above .

Such heating elements are easier to self-regulate as they are heated, resulting in larger resistances and consequently lower currents.

The electric heating apparatus according to the prior art 1 will be schematically described with reference to FIGS. 1A and 1B.

As shown in the drawing, the electric heating apparatus 2 according to the prior art document 1 has a structure in which the housing 4 is separated from the circulating chamber 10 and the heating chamber 14 which receive a predetermined medium and allow the medium to flow therein An inlet 6 for supplying the medium to the circulation chamber 10 and a heating unit 12 for guiding the heated medium to the outside of the circulation chamber 10, , And a PTC heating element (18) is configured to be received in the heating chamber (14).

However, when the PTC heating element is adopted, there is a case where the electrode is pressed against the electrode due to the expansion of the heating element due to heat, etc., and is often broken during use.

Accordingly, there are disadvantages that installation work is difficult and time is long because conditions to be considered for solving the above problem increase.

1. Korean Patent Registration No. 0870058 (Nov. 17, 2008) 2. Korean Patent Registration No. 0933884 (December 17, 2009)

SUMMARY OF THE INVENTION The present invention has been made in order to solve the above-mentioned problems of the prior art, and it is an object of the present invention to provide a method and a device for heating a fluid in a predetermined area, Which is capable of heating the fluid easily.

According to an aspect of the present invention, there is provided a heater assembly for heating fluid,

A case body having a flow path formed therein and having an inlet and an outlet formed at one side thereof and a surface opposite to the flow path opened;

A cover for shielding an opened one side of the case body; And

And a heater plate installed on one side or both sides of the case made of the case body and the cover,

Wherein the flow path is a meandering flow path including an inflow-side flow path and an outflow-side flow path continuously connected to the right and left sides of a central partition wall that bisects between the inflow port and the inflow port when viewed from one opened surface of the case body, A plurality of central protrusions extending from the central partition wall in the left and right direction and spaced along the longitudinal direction of the central partition wall and extending toward the central partition wall on both inner side walls of the case body facing the central partition wall And an outer protrusion disposed so as to be spaced apart from each other along the longitudinal direction of the inner side wall,

Side flow path is formed in the inflow-side flow path side of the central partition wall so as to be parallel to the longitudinal direction of the central partition wall so that the inflow-side flow path of the inflow-side flow path is linearly communicated with the inflow- A first connection passage is additionally formed, and a width of the first connection passage is formed to be smaller than a width of the meandering flow passage.

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According to another aspect of the present invention, there is provided a heater assembly for heating fluid,
A case body having a flow path formed therein and having an inlet and an outlet formed at one side thereof and a surface opposite to the flow path opened;
A cover for shielding an opened one side of the case body; And
And a heater plate installed on one side or both sides of the case made of the case body and the cover,
Wherein the flow path is a meandering flow path including an inflow-side flow path and an outflow-side flow path continuously connected to the right and left sides of a central partition wall that bisects between the inflow port and the inflow port when viewed from one opened surface of the case body, A plurality of central protrusions extending from the central partition wall in the left and right direction and spaced along the longitudinal direction of the central partition wall and extending toward the central partition wall on both inner side walls of the case body facing the central partition wall And an outer protrusion disposed so as to be spaced apart from each other along the longitudinal direction of the inner side wall,
Side flow path is formed in the inner side wall of the case body located on the inflow-side flow path side by side along the longitudinal direction of the inner side wall so that the inflow portion and the outflow portion of the inflow- And a width of the second connection passage is formed to be smaller than a width of the meandering flow passage.

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The case and the heater plate are housed in the housing, and a first heat shield plate and a second heat shield plate are interposed between both sides of the case and the housing, and between the first and second heat shield plates and the housing, And an electronic control unit is installed between the housing and the case body on the inlet side.

And the electronic control unit is fixed to the outer surface of the lower case body of the flange formed at the rim of the case body.

And a temperature sensor is installed at one side of the case body between the inlet port and the outlet port. The temperature sensor and the control unit are connected to each other by a connection line disposed outside the housing.

And a humidity valve is additionally provided in the housing.

According to the heater for heating a fluid of the present invention as described above, since it is configured as a laminate type, it is advantageous in that it is simple in installation and excellent in durability.

In addition, according to the present invention, since the length of the flow path is long, the area for heating the fluid is wide, and efficient heating is possible.

Further, according to the present invention, since the first connection flow path formed in the central partition on the inlet-side flow path side and parallel to the central partition wall is further included, the kinetic energy of the fluid passing through the first connection flow- It is possible to prevent the occurrence of local overheating due to the force.

Further, according to the present invention, since the second connection passage formed in the inner side wall of the case body at the inflow-side flow path side and in parallel with the inner wall of the case body includes the fluid flowing through the meandering flow passage, So that the phenomenon of the fluid delaying at the outlet side inlet is improved and the local overheating of the fluid can be prevented.

As a result, it is possible to obtain a uniform temperature distribution by preventing the local overheating by the first connection passage and the second connection passage, and at the same time, it is possible to effectively heat the fluid through the long passage.

Further, according to the present invention, since an electronic control unit such as a FET is provided between the housing on the inlet side and the case body, heat generated in the electronic control unit preheats the fluid passing through the inlet so that the fluid is heated more efficiently There is also the advantage of being able to do.

FIG. 1A is an electric heating apparatus according to the prior art document 1, with the cover removed. FIG.
FIG. 1B is a perspective view of the housing in FIG. 1A.
2 is a perspective view showing an embodiment of a heater assembly for heating fluid according to the present invention.
FIG. 3 is an exploded perspective view of FIG. 2. FIG.
4 is a plan view showing an example of a flow path structure of a heater assembly for heating fluid according to the present invention.
5 is a perspective view showing another example of the flow path structure of the heater assembly for heating fluid according to the present invention.
Fig. 6 is a plan view of Fig. 5. Fig.
7 is a perspective view showing another example of the flow path structure of the heater assembly for heating fluid according to the present invention.

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

2, the heater assembly 1000 for heating fluid according to the present invention includes an oil passage 110 formed therein, an inlet 120 and an oil outlet 130 formed at one side thereof, A cover 200 for covering the open side of the case body 100 and a case 500 having the case body 100 and the cover 200, Or a heater plate 300 installed on both sides.

As described above, since the heater assembly 1000 for a fluid heating according to the present invention has a stacked structure, it is easy to install and has no durability due to thermal expansion.

4, the flow path 110 includes an inlet-side flow path 150 formed in a serpentine shape around a central partition wall 140 that bisects between the inlet port 120 and the outlet port 130, And the outflow-side flow path 160 are connected to each other in a continuous manner.

The flow path 110 includes a plurality of central protrusions 190 extending from the central partition wall 140 to the left and right and spaced along the longitudinal direction of the central partition wall 140, And an outer protrusion 191 extending toward the central partition wall 140 and spaced apart from each other along the longitudinal direction of the inner wall of the case body 100, And the meandering flow path.

Therefore, since the length of the flow path 110 can be made long in relation to the plane of the predetermined case body 100, the heating area is widened, and the fluid can be heated more effectively than the flow path structure formed in the conventional case body .

In addition, when the central protrusion 190 is extended to the left and right at the same position along the longitudinal direction of the central partition 140, the fluid can be heated evenly.

However, as shown in FIG. 3, since the length of the flow path 110 is long, the fluid can not be properly redirected at the outflow side inlet and is delayed, so that local overheating may occur at the same time.

In order to solve such a disadvantage, as shown in FIGS. 5 and 6, the flow path is branched from the inlet 153 of the inlet-side flow passage 150, and the inside of the inlet- A first connection passage 170 is formed in parallel with the longitudinal direction of the central partition wall 140 so as to linearly communicate between the inflow portion 153 and the outflow portion 154 of the inflow passage 150 .
At this time, the width of the first connection passage 170 is smaller than the width of the meandering flow passage.

Accordingly, the fluid introduced from the inlet 120 flows through the meandering channel, but a part of the fluid passes through the first connection channel 170, and the kinetic energy of the fluid passing through the first connection channel 170 It is possible to prevent local overheating due to the force of the fluid delayed at the outflow side inlet.

In addition, since the average velocity of the fluid passing through the first connection passage 170 is higher than the average velocity of the fluid passing through the meandering flow passage, the fluid present at the outflow side entrance can have a relatively large influence.

On the other hand, as shown in FIG. 5, an inner wall of the case body 100, which branches from the inlet 153 of the inlet-side flow passage 150 and is located on the inlet-side flow passage, The second connection passage 180 may be further formed in parallel so as to communicate linearly between the inflow portion 153 and the outflow portion 154 of the inflow passage 150. [
At this time, the width of the second connection channel 180 is smaller than the width of the meandering channel.

In this case, since the flow of the fluid through the meandering flow path is pushed by a large force from the rear side by using the kinetic energy of the fluid flowing through the second connection flow path 180, the phenomenon that the fluid is delayed at the inflow- Can be prevented.

Since the average velocity of the fluid passing through the second connection passage 180 is higher than the average velocity of the fluid passing through the meandering passage, it can have a relatively large influence on the fluid delayed at the outflow side inlet.

The heater assembly 1000 for heating fluid according to the present invention includes a housing 400 for housing the case 500 and the heater plate 300 and a heater 400 for heating the heater 500 between the both sides of the case 500 and the housing 400 And a controller 600 disposed between the housing 400 and the first heat shield plate 510 and the second heat shield plate 520. The first heat shield plate 510 and the second heat shield plate 520 are disposed between the first heat shield plate 510 and the second heat shield plate 520, And an electronic control unit 700 installed between the housing 400 and the case body 100 on the inlet 120 side.

The housing 400 may have a structure in which the upper housing 410 and the lower housing 420 are coupled.

The controller 600 and the electronic control unit 700 may control the power supply to the heater plate 300 and the amount of heat generated.

The controller 600 may be provided in the form of a substrate such as a PCB.

The heater plate 300 may have a configuration in which a heating wire using electrical resistance is disposed on a steel plate. In particular, it is preferable that the heating wire is installed on a glass ceramic having excellent heat resistance and is fixed on a steel plate Do.

The heat generated from the heater plate 300 is prevented from being directly transmitted to the housing 400 or the control unit 600 by the first and second heat shield plates 510 and 520.

Since the electronic control unit 700 is installed between the housing 400 on the inlet 120 side and the case body 100 so that the heat generated by the electronic control unit 700 flows through the inlet 120 It is possible to preheat the passing fluid and to heat the fluid more efficiently.

The electronic control unit 700 may include a power transistor, an FET or a semiconductor-based electronic circuit for controlling the current supplied to the heater plate 300 or controlling the voltage applied to the heater plate 300, The transistor may be, for example, a bipolar transistor having an insulated gate electrode (IGPT) and the FET may be a JFET or a MOSFET.

The electronic control unit 700 is fixed to the outer surface of the lower case body of the flange formed at the rim of the case body 100 by fastening means 710 such as screws.

The outer surface of the electronic control unit 700 is configured not to protrude out of the flange, thereby preventing interference with each other when the electronic control unit 700 is coupled to the housing 400.

An installation hole 123 is formed between the inlet 120 and the outlet 130 on one side of the case body 100 and a temperature sensor T is installed on the case body 100. The temperature sensor T and the controller 600 are connected by a connection line C disposed on the outer side of the housing 400.

Accordingly, the connection line C is not exposed to the high heat generated from the case 500, and durability is improved.

In addition, a humidity valve (V) is installed in the housing (400) so that the humidity can be discharged when the humidity in the housing (400) is higher than a set value.

This is because when the humidity in the housing 400 increases due to the surrounding environment such as the weather, the electronic parts such as the control unit may be adversely affected.

The reference numerals 910 and 920 denote power supply ports and data ports. When a heating temperature or the like is set by a user operation of a vehicle operator or the like, power is turned on through the power supply port 910, And the power supply from the controller 600 to the heater plate 300 is controlled.

In addition, the controller 600 can sense the temperature from the temperature sensor T and intermittently supply power to prevent the temperature from exceeding the set temperature. If the humidity is excessive, the humidity valve V is operated to discharge moisture It is possible.

Unexplained components G1 and G2 are gaskets disposed between the case body 100 and the cover 200 and between the upper housing 410 and the lower housing 420, respectively.

Although it has been described in the foregoing description that the heater assembly for heating fluid according to the present invention is applicable to hybrid cars, battery electric vehicles and fuel cell vehicles, it can be effectively used in a place where a general internal combustion engine vehicle and other heaters are required .

While the present invention has been described in connection with what is presently considered to be practical exemplary embodiments, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, Will be apparent to those of ordinary skill in the art.

100 ... case body
110 ... Euro
120 ... inlet
123 ... installation ball
130 ... outlet
140 ... central bulkhead
150 ... inlet-
160 ... flow-
170 ... first connection channel
180 ... second connection channel
190 ... central protrusion
200 ... cover
300 ... heater plate
400 ... housing
410 ... upper housing
420 ... lower housing
500 ... case
510 ... 1st train shut-off plate
520 ... second train shut-off plate
600 ... controller
700 ... electronic control unit
910 ... power port
920 ... Data port
1000 ... heater assembly for fluid heating
C ... Connector
T ... Temperature sensor
V ... Humidity valve

Claims (8)

A case body having a flow path formed therein and having an inlet and an outlet formed at one side thereof and a surface opposite to the flow path opened;
A cover for shielding an opened one side of the case body; And
And a heater plate installed on one side or both sides of the case made of the case body and the cover,
Wherein the flow path is a meandering flow path including an inflow-side flow path and an outflow-side flow path continuously connected to the right and left sides of a central partition wall that bisects between the inflow port and the inflow port when viewed from one opened surface of the case body, A plurality of central protrusions extending from the central partition wall in the left and right direction and spaced along the longitudinal direction of the central partition wall and extending toward the central partition wall on both inner side walls of the case body facing the central partition wall And an outer protrusion disposed so as to be spaced apart from each other along the longitudinal direction of the inner side wall,
Side flow path is formed in the inflow-side flow path side of the central partition wall so as to be parallel to the longitudinal direction of the central partition wall so that the inflow-side flow path of the inflow-side flow path is linearly communicated with the inflow- Wherein a first connection passage is additionally formed, and a width of the first connection passage is smaller than a width of the meandering flow passage.
delete A case body having a flow path formed therein and having an inlet and an outlet formed at one side thereof and a surface opposite to the flow path opened;
A cover for shielding an opened one side of the case body; And
And a heater plate installed on one side or both sides of the case made of the case body and the cover,
Wherein the flow path is a meandering flow path including an inflow-side flow path and an outflow-side flow path continuously connected to the right and left sides of a central partition wall that bisects between the inflow port and the inflow port when viewed from one opened surface of the case body, A plurality of central protrusions extending from the central partition wall in the left and right direction and spaced along the longitudinal direction of the central partition wall and extending toward the central partition wall on both inner side walls of the case body facing the central partition wall And an outer protrusion disposed so as to be spaced apart from each other along the longitudinal direction of the inner side wall,
Side flow path is formed in the inner side wall of the case body located on the inflow-side flow path side by side along the longitudinal direction of the inner side wall so that the inflow portion and the outflow portion of the inflow- Wherein a width of the second connection passage is smaller than a width of the meandering flow passage.
delete The method according to claim 1 or 3,
The case and the heater plate are housed in the housing, and a first heat shield plate and a second heat shield plate are interposed between both sides of the case and the housing, and between the first and second heat shield plates and the housing, And an electronic control unit is installed between the housing and the case body on the inlet side.
6. The method of claim 5,
Wherein the electronic control unit is fixed to an outer surface of a lower case body of a flange formed at a rim of the case body.
6. The method of claim 5,
Wherein a temperature sensor is provided at one side of the case body between the inlet and the outlet and the temperature sensor and the control unit are connected by a connection line disposed outside the housing. Heater assembly.
8. The method of claim 7,
And a humidity valve is additionally provided in the housing.

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