JP6387891B2 - Oil cooler - Google Patents

Description

  The present invention relates to an oil cooler.

  Conventionally, an oil cooler for cooling transmission oil (hydraulic oil) is known (see, for example, Patent Document 1).

  The oil cooler of Patent Document 1 includes an oil cooler main body, and is configured such that when oil and cooling water flow through the oil cooler main body, the oil is cooled by a heat exchange action. The oil cooler body is provided with an introduction pipe for introducing cooling water and a discharge pipe for discharging cooling water. A bypass pipe that bypasses the oil cooler body is provided between the introduction pipe and the discharge pipe, and a thermostat is provided at a joint portion between the bypass pipe and the discharge pipe.

  The thermostat is configured to close the discharge pipe and open the bypass pipe when the cooling water is lower than a predetermined temperature. For this reason, when the cooling water is lower than a predetermined temperature, the cooling water flows through the bypass pipe, and the cooling water does not flow through the oil cooler body. On the other hand, the thermostat is configured to close the bypass pipe and open the discharge pipe when the cooling water is at a predetermined temperature or higher. For this reason, when the cooling water is equal to or higher than a predetermined temperature, the cooling water does not flow through the bypass pipe, and the cooling water flows through the oil cooler body.

JP 2003-286846 A

  However, in the above-described conventional oil cooler, when it takes time to increase the temperature of the cooling water, the time during which the cooling water does not flow into the oil cooler body becomes long, so that the oil may be overheated.

  The present invention has been made to solve the above problems, and an object of the present invention is to provide an oil cooler capable of suppressing the oil from being overheated.

The oil cooler according to the present invention is an oil cooler that cools the oil of the transmission. The oil passage and the cooling water passage are formed inside, and the main body that exchanges heat between the oil and the cooling water, and the cooling water passage are opened and closed. And a valve housing that houses the temperature-sensitive valve device. A mounting base is formed on the surface of the main body, and a recess is formed in the mounting base. In the oil cooler, the valve housing is attached to the mounting base in a state where the valve housing is fitted in the recess. The oil cooler closes the valve device and does not flow into the cooling water passage of the main body.When oil flows into the oil passage of the main body, the heat of the oil causes the mounting base and valve housing to The cooling water is transmitted to the cooling water in the valve housing, and when the valve device is opened due to a rise in the temperature of the cooling water in the valve housing, the cooling water flows into the cooling water passage of the main body.

  With this configuration, the heat of the oil flowing through the oil passage of the main body is transmitted to the cooling water in the valve housing, so that the cooling water can be warmed. For this reason, since a valve apparatus can be opened early and a cooling water can be poured into the cooling water channel | path of a main-body part, it can suppress that oil is overheated.

  According to the oil cooler of the present invention, oil can be prevented from being overheated.

It is the perspective view which showed the structure of the oil cooler by one Embodiment of this invention.

  Hereinafter, an embodiment of the present invention will be described with reference to the drawings. In the present embodiment, a case where the present invention is applied to an oil cooler that cools oil (hydraulic oil) of an automatic transmission (not shown) mounted on a vehicle will be described.

  First, an oil cooler 100 according to an embodiment of the present invention will be described with reference to FIG.

  Oil cooler 100 is incorporated in a cooling water system of an internal combustion engine mounted on a vehicle. The oil cooler 100 includes a core portion 1 that performs heat exchange between oil and cooling water, and a valve housing 2 that houses a temperature-sensitive valve device (not shown). The core portion 1 is an example of the “main body portion” in the present invention.

  The core part 1 has a plurality of plates 11 formed in a dish shape, and the plurality of plates 11 are stacked. And in the core part 1, a space is formed between the adjacent plates 11, and the space functions as an oil passage or a cooling water passage. That is, an oil passage and a cooling water passage partitioned by the plate 11 are formed inside the core portion 1. Note that the oil passages through which the oil flows and the cooling water passages through which the cooling water flows are alternately arranged.

  The plate 11 is made of an aluminum alloy coated with a brazing material, and the core portion 1 is formed by brazing the plate 11.

  A base plate 3 is provided on the bottom surface 1a side of the core portion 1, and the base plate 3 is attached to, for example, an automatic transmission. An oil introduction port for introducing oil supplied from the automatic transmission into the inside and an oil discharge port for returning oil circulated through the internal oil passage to the automatic transmission are provided on the bottom surface 1a of the core portion 1. And are formed.

  On the surface 1b side of the core portion 1, a cooling water inlet for introducing cooling water from the cooling water system into the inside, and a cooling water for returning the cooling water flowing through the internal cooling water passage to the cooling water system And an outlet. A cooling water pipe 4 is connected to the cooling water discharge port.

  A mounting base 1 c for mounting the valve housing 2 is formed on the surface 1 b of the core portion 1. The mounting base 1c is formed in a square frustum shape so as to protrude from the surface 1b, and has a concave portion 1d having an arcuate cross section. The above-described cooling water inlet is formed in the recess 1d of the mounting base 1c. The mounting base 1c is formed integrally with the plate 11 disposed on the most surface 1b side.

  The valve housing 2 is formed in a cylindrical shape, and a water passage for cooling water is formed therein, and a valve device for opening and closing the water passage is accommodated. The valve housing 2 is closed at one end and connected to the cooling water system at the other end. On the outer peripheral surface of the valve housing 2, an opening that connects the water passage in the valve housing 2 and the cooling water inlet of the core portion 1 is formed.

  Moreover, the valve housing 2 is attached to the mounting base 1c in a state of being fitted in the recess 1d. The valve housing 2 is formed so that the outer peripheral surface is along the recess 1d having a circular arc cross section. For this reason, when the valve housing 2 is fitted into the recess 1 d, the entire recess 1 d comes into contact with the outer peripheral surface of the valve housing 2.

  The valve housing 2 is made of an aluminum alloy coated with a brazing material, and is attached to the mounting base 1c by brazing. That is, the valve housing 2 is formed of the same material as the plate 11 that constitutes the core portion 1.

  The valve device is provided to open and close the water passage in the valve housing 2. That is, the valve device is provided to switch between supply and shutoff of the cooling water to the core unit 1. This valve device is a known temperature-sensitive valve device. For example, the valve device includes a thermo wax that expands and contracts depending on the temperature of the cooling water, a rod driven by the thermo wax, a valve body connected to the rod, and a spring that biases the valve body. Yes. The valve device is configured to open the water passage in the valve housing 2 when the cooling water is equal to or higher than the predetermined temperature, and close the water passage in the valve housing 2 when the cooling water is lower than the predetermined temperature. .

  Next, an example of the operation of the oil cooler 100 according to the present embodiment will be described.

  When the internal combustion engine is cold started, the cooling water in the valve housing 2 is lower than a predetermined temperature, and the valve device is closed. For this reason, the cooling water does not flow into the cooling water passage of the core portion 1. On the other hand, the oil of the automatic transmission flows through the oil passage of the core portion 1.

  As the automatic transmission operates, the temperature of the automatic transmission itself increases and the temperature of the oil increases. Further, the heat of the automatic transmission or oil is transmitted to the core portion 1, and the temperature of the core portion 1 rises. As a result, the cooling water in the valve housing 2 is warmed.

  When the cooling water in the valve housing 2 reaches a predetermined temperature or higher, the valve device is opened, and the cooling water flows into the cooling water passage of the core portion 1. The cooling water flowing through the cooling water passage of the core unit 1 is discharged to the pipe 4 and returned to the cooling water system. As a result, the oil is cooled by heat exchange between the cooling water and the oil in the core portion 1. When the cooling water in the valve housing 2 becomes lower than a predetermined temperature by cooling the oil, the valve device is closed. That is, the temperature of the oil is appropriately maintained by opening and closing the valve device in accordance with the temperature of the cooling water in the valve housing 2.

-Effect-
In the present embodiment, as described above, the valve housing 2 is attached to the mounting base 1c in a state where the valve housing 2 is fitted in the recess 1d. That is, the valve housing 2 that houses the valve device is provided integrally with the core portion 1. By configuring in this way, the heat of the oil flowing through the oil passage of the core portion 1 is transmitted to the cooling water in the valve housing 2, whereby the cooling water can be warmed. For this reason, since the cooling water in the valve housing 2 can be quickly brought to a predetermined temperature or higher, the valve opening delay of the valve device can be suppressed. Thereby, since a cooling water can be poured into the cooling water channel of the core part 1 at an early stage, it can suppress that oil is overheated. Accordingly, since the oil can be brought to an appropriate temperature, it is possible to improve fuel consumption and prevent overheating of the automatic transmission.

-Other embodiments-
In addition, embodiment disclosed this time is an illustration in all the points, Comprising: It does not become a basis of limited interpretation. Therefore, the technical scope of the present invention is not interpreted only by the above-described embodiments, but is defined based on the description of the scope of claims. Further, the technical scope of the present invention includes all modifications within the meaning and scope equivalent to the scope of the claims.

  For example, in the present embodiment, the cooling water is supplied from the valve housing 2 to the core portion 1 and the cooling water is discharged from the core portion 1 to the pipe 4. The cooling water may be supplied to 1 and discharged from the core portion 1 to the valve housing 2.

  In the present embodiment, the oil cooler 100 may function as an oil warmer according to the operating state of the internal combustion engine.

  In the present embodiment, when the plurality of plates 11 are brazed, the valve housing 2 may be brazed to the mounting base 1c at the same time. Further, the valve housing 2 may be brazed to the mounting base 1c before or after the plurality of plates 11 are brazed.

  The present invention is applicable to an oil cooler that cools oil in a transmission.

1 Core part (main part)
1b Surface 1c Mounting base 1d Recess 2 Valve housing 100 Oil cooler

Claims (1)

An oil cooler for cooling the transmission oil,
An oil passage and a cooling water passage are formed inside, and a main body that exchanges heat between oil and cooling water;
A valve housing that houses a temperature-sensitive valve device that opens and closes the cooling water passage,
A mounting base is formed on the surface of the main body, and a recess is formed in the mounting base.
In a state where the valve housing is fitted in the recess, the valve housing is attached to the mounting base ,
When oil flows into the oil passage of the main body in a state where the valve device is closed and no cooling water flows into the cooling water passage of the main body, the heat of the oil is transferred to the mounting base and the valve housing. The cooling water is transmitted to the cooling water in the valve housing via the cooling water, and the cooling water flows into the cooling water passage of the main body when the valve device is opened due to a rise in the temperature of the cooling water in the valve housing. Oil cooler characterized by being .

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