KR100600561B1 - Water-Cooled Oil Cooler for Cooling of Automobile Engine Oil - Google Patents

Abstract

The present invention discloses a water-cooled oil cooler for engine oil cooling of an automobile that exhibits increased cooling efficiency, a reduction in manufacturing process time and manufacturing cost, and smooth welding of laminated plates and increased welding strength. .

The configuration of the present invention is made of a structure in which the oil flow side plate through which the oil flows and the coolant flow side plate through which the coolant flows are alternately stacked, and is brazed and joined, and a plurality of dimples are formed on the oil flow side plate. In addition, a heat radiation fin is inserted, and the oil flow side plate is directly stacked on the coolant flow side plate, and a bent part is formed to be brazed against each other at the edges of the oil and coolant outlet ports of the oil flow side plate and the coolant flow side plate, respectively. It is characterized by.

Engine, Water Cooled Oil Cooler, Oil, Coolant, Plate, Laminated, Heat Sink, Dimple, Bending

Description

Water-Cooled Oil Cooler for Cooling of Automobile Engine Oil}             

1: Excerpt drawing of FIG. 12 of Republic of Korea Patent No. 389699

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3 is a front perspective view showing the appearance of the oil cooler according to the present invention

4; Bottom side perspective view showing the appearance of the oil cooler according to the present invention.

5 is a cross-sectional view showing a plate laminated structure of the oil cooler according to the present invention.

6 is a planar side and bottom side perspective view showing an oil flow side plate applied to the oil cooler of the present invention.

7 is a cross-sectional view showing a welded portion of the outlet inlet portion of the plate in the oil cooler of the present invention.

<Explanation of symbols for the main parts of the drawings>

1,10: oil flow side plate 1a, 1a ', 10a: oil outlet

1b: oil line 1c: dimple

1d, 1d ': first bending part 1e, 1e': second bending part

1f: flow path forming partition 1g: groove
2,20: cooling water flow side plate

2a, 2a ', 20a: Coolant outlet 2b: Coolant line

3: heat radiating fins 10b, 20b: bending part

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an oil cooler, and more particularly, to a water-cooled oil cooler for engine oil cooling of an automobile in which engine oil used for lubrication of each part of an automobile engine is cooled to an appropriate temperature.

In various parts of the engine of a vehicle, friction occurs during operation of the engine, which requires continuous lubrication for smooth operation, sealing and cooling of each friction element. Thus, the oil pump is operated to supply lubricating oil to each part of the engine.

However, since the temperature of the lubricating oil gradually rises and the viscosity decreases due to the high temperature heat generated in various parts of the engine, the function of the lubricating oil is lost, and thus the lubricating oil must be continuously cooled.

The oil cooler used to cool the lubricating oil is thus an oil cooler. Such oil coolers are classified into air-cooled and water-cooled according to a cooling method, and examples of the water-cooled oil coolers are disclosed in Korean Patent No. 389699 (name: water-cooled heat exchanger).

The Patent No. 389669 discloses a heat exchanger, that is, an oil cooler, in which a plate in which an oil flow path and a cooling water flow path are respectively formed is alternately stacked. FIG. 1 shows an example of the laminated structure. Referring to FIG. 1, two types of plates 300 and 400 through which oil and cooling water flow, respectively, are alternately stacked between the upper support 100 and the lower support 200, and heat dissipation fins 500 and 500 are disposed between the plates 300 and 400. The structure joined by brazing in the state in which ') is interposed is shown. However, in the oil cooler having such a structure, since the heat dissipation fin 500 'is inserted not only on the oil flow side plate 300 but also on the coolant flow side plate 400, the coolant flows through the heat dissipation fin 500'. Due to the flow obstruction caused by this, there is a problem in that the pressure loss in the coolant flow side plate 400 is increased, thereby lowering the cooling efficiency. In addition, there is a problem of cost increase and process time increase due to the need to insert the heat radiation fin 500 'on the coolant flow side plate 400 in the manufacturing process.

On the other hand, in the water-cooled oil cooler of the conventional plate laminated structure, the oil outlet part of the oil flow side plate and the coolant flow inlet part of the coolant flow side plate are joined without bending at the welded part of the plate welded by brazing. Welding is performed in a state. Accordingly, the flux is not smooth during brazing, so that the welding is not performed well, and the welding strength also decreases.

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned general problems, the main object of which is to increase the cooling efficiency by reducing the loss of the coolant flow pressure, and to reduce the manufacturing process time and manufacturing cost It is to provide a water-cooled oil cooler for engine oil cooling of automobiles.

Another object of the present invention is to provide a water-cooled oil cooler for cooling an engine oil of an automobile in which the flux is sufficiently flowed when brazing welding the plates laminated with each other, thereby making the welding smooth and the welding strength also increased.

The water-cooled oil cooler for engine oil cooling of an automobile according to the present invention for achieving the above object is a structure in which the oil flow side plate through which the oil flows and the coolant flow side plate through which the coolant flows are alternately laminated in a brazing state. In the water-cooled oil cooler for engine oil cooling of an automobile comprising: a plurality of dimples are formed in the oil flow side plate in the direction of the coolant flow side plate, and a heat radiation fin is inserted, and the oil is directed upward of the coolant flow side plate. It is characterized in that the flow side plate is directly laminated.

In addition, the oil flow inlet plate is formed with an oil inlet and a cooling water outlet, the oil outlet inlet is formed with a first bend protruding toward the cooling water flow side plate in the dimple forming direction, the cooling water outlet inlet Characterized in that the second bending portion protruding in the opposite direction to the first bending portion. In particular, the first bending portion and the second bending portion may preferably protrude to a height of 1/2 of the heat radiation fins, respectively. In addition, the first bending portion is preferably to protrude to the same height as the dimple.

In addition, a flow path forming partition for controlling the flow path of the cooling water may be formed in the oil flow side plate. It is preferable that such flow path forming partitions have the same height as the dimple.

On the other hand, the coolant flow inlet plate is formed with an oil outlet and a coolant outlet, the oil outlet is made of a flat structure, the cooling water outlet is a structure in which the bending portion protruding in the direction in which the heat radiation fin is installed to be disclosed Can be.

The height between the coolant flow side plate and the oil flow side plate immediately above the coolant flow side plate is 1/2 the size of the height between the oil flow side plate and the coolant flow side plate just above the oil flow side plate. It is preferable that it is made small.

In addition, a groove for distinguishing these plates may be formed in any one of the oil flow side plate and the coolant flow side plate.

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

First, Figures 3 and 4 are front side and bottom side perspective views showing the appearance of the oil cooler according to the present invention, respectively, the oil flow in communication with the oil outlet inlet (1a, 1a ') flows the engine oil The plate 1 and the cooling water flow side plates 2 communicating with the cooling water outlets 2a and 2a ', through which the cooling water flows, are alternately stacked with each other to show a brazed structure.

The detailed cross-sectional structure of the oil cooler of the present invention thus stacked is shown in FIG. 5. As shown, in the state where the oil flow side plate 1 and the coolant flow side plate 2 are alternately stacked, an oil line 1b through which oil flows is formed on the oil flow side plate 1, and the coolant flow On the side plate 2, a cooling water line 2b through which cooling water flows is formed. In particular, the oil flow side plate 1 has a plurality of dimples 1c formed in a shape recessed toward the coolant flow side plate 2 located below, and a heat radiation fin on the oil flow side plate 1. (3) is arranged. Here, the structure in which the dimples 1c are formed in the oil flow side plate 1 can be understood more accurately through FIG. 6. On the other hand, the oil flow side plate 1 is directly placed on the cooling water flow side plate 2 without the heat radiation fins. Accordingly, the engine oil flowing through the oil line 1b of the oil flow side plate 1 is radiated by the heat dissipation fins 3, and the coolant flows through the coolant line 2b of the coolant flow side plate 2. Cooling is achieved by. On the contrary, the plurality of dimples 1c formed on the oil flow side plate 1 replaces the heat dissipation action of the conventional heat dissipation fins with respect to the coolant flow side plate 2 placed below it, and at the same time, It serves to form a flow path of the cooling water flowing through the cooling water line (2b). As described above, the oil cooler of the present invention has a structure in which the oil flow side plate 1 on which the dimple 1c is formed is disposed directly on the cooling water flow side plate 2 to serve as the heat radiation fin. . Accordingly, the heat dissipation fin is conventionally disposed on the coolant flow side plate, and as the coolant flows through the heat dissipation fin, the loss of the coolant flow pressure, which occurs due to the disturbance of the flow, hardly occurs in the oil cooler of the present invention. Material cost and process time in manufacturing due to the elimination of the heat sink fins can also be reduced.

As shown in FIG. 7, the bent part is opposed to the edge portions of the only outlet 10a and the cooling water outlet 20a formed in the oil flow side plate 10 and the coolant flow side plate 20, respectively. 10b and 20b may be formed respectively. Accordingly, the cladding material is fused to the inclined surfaces of the bends 10b and 20b during brazing bonding using the cladding material, thereby greatly increasing the welding strength of the welded part as the filler metal to be welded increases. In addition, the flux applied to the brazing portion is sufficiently and uniformly flowed by the capillary phenomenon in the bending portions 10b and 20b, thereby smoothly welding. The configuration of the bending parts 10b and 20b is commonly applied to the embodiment of the present invention described with reference to FIGS. 3 to 6.

In particular, referring to FIG. 6 again, the oil flow inlet plates 1a and 1a 'and the coolant outlets 2a and 2a' are formed in the oil flow side plate 1, and the oil outlet inlets 1a and 1a 'are formed. The first bending part 1d, 1d 'protruding toward the coolant flow side plate (not shown) in the direction of dimple 1c is formed, and the first bending part 1d is formed at the cooling water outlet 2a, 2a'. By forming the second bending parts 1e and 1e 'protruding in the opposite direction to 1d', the oil outlets 1a and 1a 'are allowed to only flow in and out of the oil while preventing the coolant from flowing out. Only inflow and outflow of the cooling water is allowed at the inlets 2a and 2a 'while preventing outflow and inflow of oil. And, if the cooling water flow side plate, as shown in Figure 7, the first bending portion (1d, 1d ') and the second bending portion (1e, 1e') is formed in the same structure as the bent portion is disclosed, The first bending part 1d and 1d 'and the second bending part 1e and 1e' are respectively formed to have a height of 1/2 of the heat dissipation fin 3 inserted above the oil flow side plate 1 so that the coolant flow side plate Along with the bent portion of the, as a whole it is the same height as the heat radiation fin (3), and the first bent portion (1d, 1d ') is made of the same height as the dimple (1c). In order to control the flow path of the cooling water, the oil flow side plate 1 is formed with a flow path forming partition 1f protruding toward the cooling water flow side plate at the same height as the dimple 1c. On the other hand, although not shown in the drawings, in the oil outlet and the coolant outlet inlet structure of the coolant flow side plate, the oil outlet is made of a flat structure, the cooling water outlet is made of a structure in which the bent portion protrudes in the direction in which the heat radiation fin is installed. Can be.

Referring again to FIG. 7, the height H1 between the coolant flow side plate 20 and the oil flow side plate 10 just above the coolant flow side plate 20 is equal to the oil flow side plate 10. Preferably, the oil flow side plate 10 is made smaller than the height H2 between the cooling water flow side plates 20 just above. This is because the pressure loss of the coolant flow side plate 20 is reduced by the use of the dimple 1c as shown in FIG. 6, so that the height H1 can be lowered, and the height H2 is larger than the height H1. Is to increase the heat dissipation.

On the other hand, in addition to the above-described configuration, as shown in Figure 4 or 6, the separation groove (1g) in any one of the two to facilitate the distinction between the oil flow side plate (1) and the coolant flow side plate (2). It is preferable to form

As described above, in the water-cooled oil cooler for engine oil cooling of an automobile according to the present invention, by disposing arrangement of the heat dissipation fins on the coolant flow side plate, the flow pressure loss of the coolant flowing through the coolant line is minimized and the oil passes through the coolant. Reduces the joining interval of the coolant flow side plate to 1/2 the height of the joining interval of the oil / coolant flow side plate where the oil passes, not only increases the heat dissipation efficiency of the oil, but also increases the cooling efficiency. The time required is also reduced.

In addition, when the braze welding of the oil flow side plate and the coolant flow side plate, the flux is sufficiently flowed at the oil inlet and the coolant outlet inlet so that welding is smoothly performed and welding strength is also increased.

Claims (9)

delete delete Water-cooled oil for engine oil cooling of automobiles having a structure in which an oil flow side plate having oil flow inlet through which oil flows and a coolant flow side plate having coolant flow inlet through which coolant flows are alternately stacked and brazed together In the cooler, A heat dissipation fin is inserted into the oil flow side plate, and a plurality of dimples are provided in the cooling water flow side plate direction. At the oil outlet, a first bending part protruding at a height of 1/2 of the heat dissipation fin toward the cooling water flow side plate is formed. The cooling water outlet inlet is formed with a second bending portion protruding at a height of 1/2 of the heat dissipation fin in a direction opposite to the first bending portion, The height between the coolant flow side plate and the oil flow side plate just above the coolant flow side plate is half the height between the oil flow side plate and the coolant flow side plate just above the oil flow side plate. A water-cooled oil cooler for cooling engine oil of an automobile, characterized in that the stack is made small and directly stacked. The method of claim 3, wherein The first bent part protrudes at the same height as the dimple, wherein the water-cooled oil cooler for engine oil cooling of an automobile. The method of claim 3, wherein The oil flow side plate is a water-cooled oil cooler for engine oil cooling of a vehicle, characterized in that the flow path forming partition for controlling the flow path of the coolant is formed on the oil flow side plate. The method of claim 5, The flow path forming partition is a water-cooled oil cooler for engine oil cooling of a vehicle, characterized in that the same height as the dimple. The method of claim 3, wherein The coolant flow side plate is formed with an oil inlet and a coolant outlet, The oil outlet is made of a flat structure, The cooling water outlet inlet is a water-cooled oil cooler for engine oil cooling of a vehicle, characterized in that the bending portion protruding in the direction in which the heat radiation fin is installed. delete The method of claim 3, wherein The water-cooled oil cooler for engine oil cooling of an automobile, wherein any one of the oil flow side plate and the coolant flow side plate is provided with a groove for distinguishing these plates.

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