KR20200049154A - Fluid heating apparatus for vehicle - Google Patents

Abstract

The present invention can provide a fluid heating apparatus for a vehicle, including: a coil generating an induction magnetic field; a heating element heating fluid by the induction magnetic field; a substrate connected to the coil; a housing accommodating the heating element and the substrate; and a case including the coil therein. The case is inserted into the housing to be coupled to the housing. The present invention can improve the assembly of the coil for heating the heating element.

Description

Fluid heating apparatus for vehicle

The embodiment relates to a fluid heating device for a vehicle.

In a motor-driven vehicle, a heating system using an engine cannot be applied. Therefore, a separate heater is required.

Republic of Korea Patent Publication No. 10-2017-0073973 (2017.06.29. Published, hereinafter referred to as the present document) discloses a heater comprising a coil, and a heating element including an induction heating by the coil. The flow path includes a heating element, and a fluid flowing through the flow path is heated by an induction heating heating element. However, such a heater has a complicated structure and difficult assembly.

Republic of Korea Patent Publication No. 10-2017-0073973 (released on June 29, 2017)

An object of the present invention is to solve the problem of providing a fluid heating device for a vehicle that improves assembly of a coil for heating a heating element.

The problems to be solved by the present invention are not limited to the problems mentioned above, and other problems not mentioned herein will be clearly understood by those skilled in the art from the following description.

An embodiment includes a coil for generating an induction magnetic field, a heating element for heating a fluid by the induction magnetic field, a substrate connected to the coil, a housing accommodating the heating element and the substrate, and the coil therein It includes a case, the case is inserted into the interior of the housing can provide a fluid heating device for a vehicle coupled to the housing.

Preferably, the case includes a body accommodating the coil therein and a head disposed on one side of the body, and the housing includes a first accommodating portion accommodating the heating element and a second accommodating portion accommodating the substrate. Including, the body is disposed in the first receiving portion, the head is disposed in the second receiving portion, the substrate may be disposed in the second receiving portion.

Preferably, the housing includes a partition wall separating the first receiving portion and the second receiving portion, and the head may be coupled to the partition wall.

Preferably, the partition wall comprises a slot. The body may be located in the first receiving portion through the slot.

Preferably, the partition wall comprises a slot. The cross-sectional size of the body may be smaller than the size of the slot, and the size of the head may be larger than the size of the slot.

Preferably, the partition wall comprises a slot. Further comprising a sealing member, the sealing member may be disposed between the slot and the head.

Preferably, the head includes a hole, and an end of the coil may penetrate the hole and be exposed outside the case.

Preferably, the case may be a molding member including the coil therein.

Preferably, the case and the substrate may be arranged vertically.

Preferably, the second receiving portion may be disposed above the first receiving portion.

Preferably, the housing includes an inlet and an outlet communicating with the first receiving portion, and the inlet may be disposed below the outlet.

Preferably, the housing further includes a first cover, and the first accommodating portion includes a rear surface, a side surface, a lower surface, an upper surface and an open front surface, and the inlet and the outlet can be disposed on the side surface.

Preferably, the upper surface may be disposed obliquely toward the outlet.

Preferably, the heating element includes a first heating element and a second heating element, and the body may be disposed between the first heating element and the second heating element.

According to the embodiment, the advantageous effect of easily assembling the coil for heating the heating element is provided.

According to the embodiment, it provides an advantageous effect of fundamentally blocking the contact between the coolant and the fan coil.

According to an embodiment, a coil is disposed between both heating elements, thereby providing an advantageous effect of heating the cooling water evenly.

According to the embodiment, the advantageous effect of easily discharging air bubbles is provided.

1 is a view showing a fluid heating device for a vehicle according to an embodiment,
Figure 2 is an exploded view of the vehicle fluid heating device shown in Figure 1,
Figure 3 is a view showing the housing shown in Figure 1,
Figure 4 is a side cross-sectional view of the housing based on the BB of Figure 3,
5 is a view showing a case including a coil,
6 is a view showing a head,
7 is a cross-sectional view of a fluid heating device for a vehicle based on BB of FIG. 1,
8 is a view showing a state in which the case is mounted to the housing,
9 is a view showing the flow of cooling water.

The objects, specific advantages and novel features of the present invention will become more apparent from the following detailed description and preferred embodiments associated with the accompanying drawings. In addition, the terms or words used in the present specification and claims should not be construed as being limited to ordinary or dictionary meanings, and the inventor appropriately defines the concept of terms in order to describe his or her invention in the best way. Based on the principle of being able to do it, it should be interpreted as meaning and concept consistent with the technical idea of the present invention. And in describing the present invention, detailed descriptions of related well-known technologies that may unnecessarily obscure the subject matter of the present invention are omitted.

Hereinafter, a fluid heating device for a vehicle according to an embodiment will be described in detail with reference to the accompanying drawings.

1 is a view illustrating a fluid heating device for a vehicle according to an embodiment, and FIG. 2 is an exploded view of the fluid heating device for a vehicle shown in FIG. 1.

1 and 2, the fluid heating device for a vehicle according to the embodiment includes a housing 100, a substrate 200, a case 300 and a coil 400, a heating element 500,600, and a sealing member. It may include a 700, the first cover 800, and the second cover 900. The x-axis of FIG. 1 represents the longitudinal direction of the vehicle fluid heating device, the y-axis of FIG. 1 represents the width direction of the vehicle fluid heating device, and the x-axis of FIG. 1 represents the height direction of the vehicle fluid heating device.

The substrate 200, the case 300, the coil 400, the heating elements 500 and 600, and the sealing member 700 may be disposed inside the housing 100. The housing 100 may have a hexahedral shape that is elongated in the height direction.

FIG. 3 is a view showing the housing shown in FIG. 1, and FIG. 4 is a side cross-sectional view of the housing based on B-B of FIG. 3.

3 and 4, the housing 100 includes a partition wall 110. The partition wall 110 may be horizontally disposed along the x-y plane of FIG. 1. The partition wall 110 divides the housing 100 into a first accommodating part S1 and a second accommodating part S2. The first accommodating part S1 is disposed above the partition wall 110. The second accommodating part S2 is disposed under the partition wall 110. A slot 111 is disposed on the partition wall 110. The slot 111 penetrates the upper and lower surfaces of the partition wall 110 to communicate the first receiving portion S1 and the second receiving portion S2. The slot 111 may have a square shape having a length L1 and a width W1. In addition, the slot 111 may have a rectangle having a larger width W1 than the length L1.

The first accommodating part S1 may include a space formed by the rear surface 101, the side surface 102, the lower surface 103, and the upper surface 104. The front surface of the first accommodating part S1 is open, and may be covered by the second cover 900. The first accommodating part S1 is a space in which cooling water flows. The housing 100 may include an inlet 120 and an outlet 130. The inlet 120 and the outlet 130 may communicate with the second receiving portion S2. The direction of the inlet 120 and the direction of the outlet 130 may be the same. In the height direction, the inlet 120 is relatively disposed at the lower side, and the outlet 130 can be disposed at the upper side. In the height direction, the outlet 130 may be disposed adjacent to the upper surface 104 of the first receiving portion S1. Cooling water is introduced into the first receiving portion S1 through the inlet 120, and cooling water flowing into the first receiving portion S1 is discharged through the outlet 130.

5 is a view showing a case including a coil.

Referring to FIG. 5, the coil 400 is included in the case 300. The case 300 and the coil 400 may be integrally injection molded. The case 300 may be a mold member formed by injection molding.

The case 300 may include a body 310 and a head 320.

The body 310 is located in the first receiving portion S1. The body 310 includes a coil 400 therein. The body 310 may have a hexahedral shape in which its cross section is a rectangle having a width W2 and a length L2. The cross section of the body 310 may be a rectangle having a larger width W2 than the length L2. The body 310 is inserted into the slot 111. To this end, the width W2 of the body 310 is formed smaller than the width W1 of the slot 111. In addition, the length L2 of the body 310 is also formed smaller than the length L1 of the slot 111.

The head 320 is located in the second receiving portion S2. The head 320 is disposed above the body 310. The head 320 may have a flat plate shape. The head 320 is disposed perpendicular to the body 310. The width W3 of the head 320 is greater than the width W3 of the body 310. And the length (L3) of the head 320 is greater than the length (L2) of the body 310. In addition, the width W3 of the head 320 is greater than the width W1 of the slot 111. And the length (L3) of the head 320 is greater than the length (L1) of the slot (111). Therefore, in the process of inserting the case 300 into the slot 111, the head 320 does not penetrate the slot 111, and is caught by the partition wall 110.

The coil 400 has a shape in which a linear coil is spirally wound on the same plane. The coil 400 is electrically connected to the substrate 200. The coil 400 generates an induced current. The coil 400 may be disposed by being wound in a multilayer. If the coil 400 is double-layered, the inductance is increased more than that of the single-layered layer to generate an induced current at a lower frequency.

A portion of the end 410 of the coil 400 that is electrically connected to the substrate 200 is exposed to the outside of the case 300,

6 is a view showing the head 320.

4 to 6, the head 320 includes a hole 321. The hole 321 may be disposed at the center of the width W3 of the head 320. A part of the end 410 of the coil 400 penetrates through the hole 321 and is exposed to the outside of the case 300. The end 410 of the exposed coil 400 is electrically connected to the substrate.

The head 320 is provided with a fastening hole 323 in a flange 322 which may include a plurality of flanges 322. A fastening member penetrates the fastening hole 323. By passing the fastening member through the partition wall 110, the case 300 and the partition wall 110 are combined.

7 is a cross-sectional view of a fluid heating device for a vehicle based on B-B of FIG. 1.

3 and 7, the coil 400, the case 300, and the heating elements 500 and 600 are located in the first accommodating part S1. The substrate 200 is located in the second receiving portion S2. The substrate 200 may be vertically disposed with respect to the case 300.

 The heating elements 500 and 600 may be fixed to the housing 100 through ribs. The heating elements 500 and 600 may have a flat plate shape. The heating elements 500 and 600 may include a first heating element 500 and a second heating element 600. The first heating element 500 may be disposed on one side of the coil 400. The second heating element 600 may be disposed on the other side of the coil 400. Since the heating elements 500 and 600 are disposed on both sides of the coil 400, there is an advantage that the cooling water can be heated more evenly.

A mounting groove 111a is provided at the edge of the slot 111. The sealing member 700 is mounted on the mounting groove 111a. The mounting groove 111a may include a concave curved surface. The sealing member 700 is positioned between the lower surfaces of the partition walls 110 of the head 320. The sealing member 700 prevents the cooling water of the first receiving portion S1 from leaking into the second receiving portion S2 through the gap between the head 320 and the slot 111.

Meanwhile, the end 410 of the coil 400 penetrates the hole 321 and is connected to the substrate 200.

8 is a view showing a state in which the case 300 is mounted to the housing 100.

7 and 8, the case 300 is inserted into the slot 111 in a slide manner of the housing 100. The case 300 is assembled from the upper side to the lower side based on the height direction of the housing 100. The case 300 is inserted into the slot 111 until the head 320 abuts against the partition wall 110. When the case 300 is assembled in the housing, the body 310 is located in the first receiving portion S1, and the head 320 is located in the second receiving portion S2. The substrate 200 is mounted above the head 320 and the first cover 800 covers the second receiving portion S2. Since the case 300 including the coil 400 is assembled to the housing 100 in a slide manner, assembly is very easy.

9 is a view showing the flow of cooling water.

4 and 9, the cooling water flows into the first receiving part S1 through the inlet 120. The introduced cooling water rises along the heating elements (500,600) while exchanging heat with the heating elements (500,600). The raised cooling water is guided to the outlet 130 and flows out. At this time, the upper surface 104 may be arranged inclined. When L in FIG. 4 is a reference line indicating horizontal, the upper surface 104 may be arranged to be inclined toward the outlet 130. Therefore, the air bubbles generated in the heating elements 500 and 600 are smoothly discharged through the outlet 130 along the upper surface 104 in an upwardly moving state. In this way, since the air bubbles generated in the first accommodating part S1 do not stay in the first accommodating part S1 and are discharged directly through the outlet 130, high heating performance can be secured.

As described above, the fluid heating device for a vehicle according to an exemplary embodiment of the present invention has been described in detail with reference to the accompanying drawings.

It should be understood that the above-described embodiment of the present invention is illustrative and not restrictive in all respects, and the scope of the present invention will be indicated by the claims below, rather than the detailed description above. And it should be interpreted that the meaning and scope of the claims, as well as any alterable or deformable forms derived from the equivalent concept, are included in the scope of the present invention.

100: housing
200: substrate
300: case
400: coil
500,600: heating element
700: sealing member
800: first cover
900: second cover

Claims (14)

A coil that generates an induction magnetic field;
A heating element that heats the fluid by the induction magnetic field;
A substrate connected to the coil;
A housing accommodating the heating element and the substrate; And
It includes a case containing the coil therein,
The case is inserted into the interior of the housing, the fluid heating device for a vehicle coupled with the housing. According to claim 1,
The case includes a body accommodating the coil therein and a head disposed on one side of the body,
The housing includes a first accommodating portion accommodating the heating element and a second accommodating portion accommodating the substrate,
The body is disposed in the first receiving portion, the head is disposed in the second receiving portion,
The substrate is a fluid heating device for a vehicle disposed in the second receiving portion. According to claim 2,
The housing includes a partition wall partitioning the first accommodating portion and the second accommodating portion, and the head is a fluid heating device for a vehicle coupled to the partition. According to claim 3,
The partition wall includes a slot.
The body is a fluid heating device for a vehicle passing through the slot and located in the first receiving portion. According to claim 3,
The partition wall includes a slot.
The cross-sectional size of the body is smaller than the size of the slot, the size of the head vehicle fluid heating device larger than the size of the slot. According to claim 3,
The partition wall includes a slot.
Further comprising a sealing member,
The sealing member is a fluid heating device for a vehicle disposed between the slot and the head. According to claim 2,
The head includes a hole,
An end portion of the coil is exposed to the outside of the case through the hole, the vehicle fluid heating device. According to claim 1,
The case is a fluid heating device for a vehicle that is a molding member comprising the coil therein. According to claim 2,
The case and the substrate are vertically disposed vehicle fluid heating device. The method of claim 9,
The second accommodation portion is a fluid heating device for a vehicle disposed on the first accommodation portion. According to claim 2,
The housing includes an inlet and an outlet communicating with the first receiving portion,
The inlet is a vehicle fluid heating device disposed below the outlet. The method of claim 11,
The housing further includes a first cover,
The first receiving portion includes a rear surface, a side surface, a lower surface, an upper surface, and an open front surface.
The inlet and the outlet is a fluid heating device for a vehicle disposed on the side. The method of claim 12,
The upper surface is a fluid heating device for a vehicle that is disposed inclined toward the outlet. According to claim 2,
The heating element includes a first heating element and a second heating element,
The body is a fluid heating device for a vehicle disposed between the first heating element and the second heating element.

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