KR20100082074A - Oil cooler - Google Patents

Abstract

PURPOSE: An oil cooler is provided to improve durability using a plate formed with projections which weld each other, wherein an inner pin is not formed around an inlet and outlet hole. CONSTITUTION: An oil cooler comprises a pair of inlet and outlet bosses(110), an inlet pipe(120), an outlet pipe(130), and a tube(140). The tube comprises an inlet and outlet hole(142) and a pair of upper and lower plates(141). The inlet and outlet hole let oil to flow in the tube. A pair of the upper and lower plates are coupled, wherein a projection(143) is projected inward.

Description

Oil Cooler

The present invention relates to an oil cooler, and more particularly, to an oil cooler capable of smoothly flowing oil and increasing durability by using a plate having protrusions joined to each other at a periphery of a region in which an inflow hole is formed.

Radiator is configured to prevent the temperature of the engine rises above a certain temperature, the high temperature cooling water absorbing the heat generated by the combustion while circulating inside the engine is circulated by the water pump to pass through the radiator to the outside It is a heat exchanger that releases heat to prevent overheating of the engine and maintains an optimal operating condition.

On the other hand, the oil cooler (Oil Cooler) is provided in the automatic transmission vehicle is a device for cooling the engine oil of the torque converter or power transmission system.

The oil cooler is a water-cooled oil cooler that is cooled by heat exchange using the engine coolant of the radiator because the temperature of the automatic transmission oil communicating with the inside is higher than the temperature of the radiator is provided with an oil cooler inside the radiator tank, the outside air It can be divided into air-cooled oil cooler consisting of and heat exchanger.

As an example of a conventional oil cooler, a stacked oil cooler is illustrated in FIG. 1, and the stacked oil cooler 1 is a pair of header tanks 2 formed at a predetermined distance, such as a general heat exchanger, and the header tank. An inlet pipe 3 and an outlet pipe 4 respectively formed in (2); Both ends are fixed to the header tank (2) to form a flow path (5), and the pin (6) interposed between the tube (5).

The fin 6 of the stacked oil cooler refers to an outer fin interposed between the tubes 5 and formed at a portion through which the coolant flows in the radiator tank, and an outer fin formed in the tube 6. Inner pins are formed separately in the space where oil is distributed.

However, each of the tubes moves in the longitudinal direction of the tube, and flows flowing from the inlet pipe to the respective tubes or passed through the tube and discharged to the outlet pipe are formed in the vertical direction, so that the inner When the fin is formed in the entire region inside the tube, the oil cooler has a problem that the oil flow in the vertical direction (the inlet pipe or outlet pipe forming direction) is hindered by the inner pin.

In order to solve the above problems, the length of the inner pin is adjusted so that the inner pin does not exist in the region where the oil flow is formed in the vertical direction (both ends of the tube connected to the inlet pipe or the outlet pipe). The method has been proposed.

However, the method has a problem in that the durability of the region in which the inner pin does not exist is lowered so that the oil cooler can be easily damaged by external stress.

In addition, as another method, an inner cooler is provided in the entire region inside the tube, but an oil cooler for forming a predetermined region hollow pin deletion portion in a region where oil flow is formed in a vertical direction has been proposed, but the pin deletion portion Extra processing to form is added to reduce the production efficiency.

The present invention has been made to solve the above problems, an object of the present invention is to smoothly oil into each tube by using a plate formed with protrusions joined to the periphery of the region in which the inlet and outlet of the oil is introduced or discharged It is to provide an oil cooler that can be distributed, smooth oil flow, and increase durability.

The oil cooler 100 of the present invention is a pair of inlet and outlet bosses 110, the inlet pipe 120 and the outlet pipe 130 are respectively coupled to the inlet and outlet boss portion 110 provided at a predetermined distance apart, and the In the oil cooler 100 including a tube 140 is connected to the inlet and outlet boss portion 110 to form an oil flow path, the tube 140 is an inlet and outlet hole to allow oil to flow to the neighboring tube 140 142, and a pair of upper and lower plates 141 having a protrusion 143 protruding inwardly in which oil flows in the periphery of the outflow hole 142 is formed.

In addition, the upper and lower plates 141 forming the tube 140 is characterized in that the cladding material is applied to the inner surface to be bonded to each other and the opposite protrusions 143 are bonded to each other.

In addition, the oil cooler 100 is characterized in that the inner pin 150 is further provided between the inlet and outlet holes 142 on both sides of the tube 140.

Accordingly, the oil cooler of the present invention does not have inner pins around the region where the inflow and outflow holes are formed, through which oil is introduced or discharged, but the durability of the oil cooler can be further increased by using plates having protrusions joined to the regions. In addition, by smoothly flowing the oil flowing through the inlet pipe or discharged through the outlet pipe to smoothly distribute the oil to each tube, there is an advantage to increase the heat exchange performance.

Hereinafter, the oil cooler 100 of the present invention as described above will be described in detail with reference to the accompanying drawings.

2 to 4 are a perspective view, a partially cut perspective view, and a cross-sectional view of the oil cooler 100 according to the present invention, Figure 5 is an exploded perspective view of the tube 140 constituting the oil cooler 100 according to the present invention, 6 is a front view of the plate 141 constituting the oil cooler 100 according to the present invention.

Oil cooler 100 of the present invention, as shown in the drawing, a pair of inlet and outlet boss portion 110, which is provided spaced apart a predetermined distance, the inlet pipe 120 is respectively coupled to the inlet and outlet boss portion 110 And an outlet pipe 130 and a tube 140 connected to the inlet and outlet boss parts 110 to form an oil passage.

At this time, the tube 140 is formed by coupling a pair of upper and lower plates 141, the peripheral portion of the upper and lower plates are joined to form a space in which oil flows.

Each plate 141 forming the tube 140 allows the oil introduced through the inlet pipe 120 to be moved to the neighboring tube 140 or the oil flowing through the tube 140 is the outlet pipe ( Outflow holes 142 are formed at both ends of the plate 141 so as to be discharged through 130, and the outflow holes 142 are formed with the outflow holes 142 of the plate 141 facing the neighboring tubes 140. Combined.

In addition, the plate 141 is formed with a protrusion 143 protruding in the inward direction in which oil flows around the outflow hole 142.

The protrusion 143 may be formed by using a roller having a plurality of portions forming the protrusion 143 or by using a press working method, and may be formed through various methods.

When the upper and lower plates 141 forming the one tube 140 are coupled, the oil cooler 100 of the present invention allows the protrusions 143 opposed to each other to be bonded to each other. Clad material is applied to the inner surface of the plate 141 to be formed.

As the clad material, various materials may be used as long as the melting point is lower than that of the metal base material forming the plate 141, and the upper and lower plates 141 forming the one tube 140 by the clad material. Protrusions 143 of the are bonded to each other, the outer surface of the plate 141 in contact with the outside may be coated with a corrosion inhibitor.

3 and 4, the oil cooler 100 of the present invention is provided with an inner pin 150 inside the tube 140, but is formed only between the inlet and outlet holes 142 on both sides of the tube 140. Shown.

The inner fin 150 is provided inside the tube 140 to increase the oil heat exchange efficiency by turbulent oil flow, as shown, the oil cooler 100 of the present invention is the inner fin ( The outflow opening hole through which the oil is moved along the longitudinal direction of the tube 140 so that 150 does not interfere with the flow of oil introduced through the inlet pipe 120 or the flow of oil discharged through the outlet pipe 130. 142 is formed between.

That is, the inner fin 150 is formed to exclude both ends of the tube 140 including the region where the outflow hole 142 and the protrusion 143 are formed, and thus the oil cooler 100 of the present invention. ) Has an advantage of increasing durability by the protrusions 143 joined to each other without disturbing the inflow and outflow of oil by the inner pin 150.

When the inner pin 150 is provided inside the tube 140, the protruding portion 143 is formed in an area around the outlet hole 142, and the portion where the inner pin 150 is provided is the inner pin. Since it is supported by the (150) can be formed except for the region provided with the inner pin (150).

5 illustrates an example in which the protrusion 143 is formed in a long ellipse shape, and FIG. 6 illustrates an example in which the protrusion 143 is formed in a circular shape. The protrusion 143 may be formed in various shapes and numbers.

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

1 is a view showing a conventional oil cooler.

2 to 4 are a perspective view, a partially cut perspective view, and a sectional view of an oil cooler according to the present invention.

5 is an exploded perspective view of the tube constituting the oil cooler according to the present invention.

6 is a front view of a plate constituting the oil cooler according to the present invention.

DESCRIPTION OF REFERENCE NUMERALS

100: oil cooler

110: entrance and exit boss section

120: inlet pipe 130: outlet pipe

140: tube 141: plate

142: outflow hole 145: protrusion

150: inner pin

Claims (3)

It is connected to the inlet and outlet boss portion 110, the inlet pipe 120 and the outlet pipe 130 are respectively coupled to the inlet and outlet boss portion 110 provided to be spaced apart a predetermined distance, and the inlet and outlet boss portion 110 In the oil cooler 100 comprising a tube 140 forming an oil flow path, The tube 140 is One of the upper and lower plates 141 having an inlet and outlet hole 142 for allowing oil to flow in the neighboring tube 140 and a protrusion 143 that protrudes in an inward direction through which oil flows around the outlet and outlet hole 142. Oil cooler characterized in that the pair is combined. The method of claim 1, The upper and lower plates 141 forming the tube 140 have a clad material applied to the inner surfaces to be coupled to each other so that the opposing protrusions 143 are joined to each other. The method according to claim 1 or 2, The oil cooler 100 is an oil cooler, characterized in that the inner pin 150 is further provided between the inlet and outlet holes 142 on both sides of the tube (140).

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