JP2019065817A - Oil cooling device - Google Patents

Abstract

To provide an oil cooling device capable of expanding an operable area of a compression open brake.SOLUTION: An oil cooling device includes an oil cooler for cooling an engine oil, a bypass passage bypassing the oil cooler, a valve for switching a flow channel of the engine oil between the oil cooler and the bypass passage, and a valve control portion for controlling the valve so that the flow channel of the engine oil is switched to the bypass passage when a temperature of the engine oil is a prescribed temperature or less, and the flow channel of the engine oil is switched to the oil cooler when the temperature of the engine oil is higher than the prescribed temperature. The valve control portion determines the prescribed temperature to be low in a case when operation conditions including that a compression open brake is set operable, are satisfied, in comparison with a case when the operation conditions are not satisfied.SELECTED DRAWING: Figure 2

Description

  The present invention relates to an oil cooler.

  Conventionally, as an oil cooling device of a vehicle, there is known a technique having an oil pump, an oil cooler, and a bypass passage which bypasses the oil cooler when the temperature of the oil is low.

  As a configuration related to the above technology, an oil cooler and a bypass passage are provided between the oil pump and the oil gallery, and a thermo-pressure valve which is closed only when the oil temperature is high and the oil pressure is low is provided in the bypass passage. Has been proposed (see Patent Document 1).

Unexamined-Japanese-Patent No. 2006-291981

  One of the auxiliary brakes of a vehicle is a compression release brake utilizing a compression stroke in a cylinder of an engine. In this compression release brake, if the air tightness of the cylinder is maintained while using the engine brake, it becomes resistance when compressing the intake air, and when the piston passes the top dead center, it rotates in the direction of turning the crank by repulsive force. Although acting energy is generated, the braking force is increased by releasing the pressure.

  A hydraulic actuator is used for the opening and closing operation of the exhaust valve for operating the compression release brake, and engine oil is used as hydraulic oil for supplying the hydraulic pressure to the hydraulic actuator. Therefore, when the oil temperature of the engine oil is low (ie, the oil pressure is high), the operation of the compression release brake is prohibited to prevent the failure of the hydraulic actuator. However, from the viewpoint of increasing the commercial value of the vehicle, it is desirable to expand the operable range of the compression release brake even when the oil temperature of the engine oil is low.

  An object of the present disclosure is to provide an oil cooling device capable of expanding the operable area of a compression release brake.

The oil cooling device according to the present disclosure is
An oil cooler for cooling the engine oil,
A bypass passage that bypasses the oil cooler;
A valve that switches the flow path of the engine oil between the oil cooler and the bypass passage;
When the temperature of the engine oil is equal to or less than a predetermined temperature, the flow path of the engine oil is switched to the bypass passage, while when the temperature of the engine oil is higher than the predetermined temperature, the flow path of the engine oil A valve control unit that controls the valve to switch to
Equipped with
The valve control unit sets the predetermined temperature lower than the case where the operating condition is not satisfied when the operating condition including the compression release brake is set to be operable is satisfied.

  According to the present disclosure, the operable area of the compression release brake can be expanded.

It is a figure which shows the structure of the oil-cooling apparatus in this Embodiment. It is a flowchart which shows the control processing in this Embodiment.

  Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings. FIG. 1 is a diagram showing the configuration of the oil cooling device 100 in the present embodiment.

  First, the engine oil flow of the oil cooling device 100 shown in FIG. 1 will be described. In FIG. 1, engine oil is drawn from an oil pan 110 through an oil strainer (not shown) to an oil pump 120.

  The engine oil leaving the oil pump 120 is pressure fed to the electrically controlled oil cooler valve 130. The relief valve 180 opens when the oil pressure of the engine oil leaving the oil pump 120 becomes higher than a predetermined pressure, and the engine oil is returned to the oil pan 110 to discharge oil pressure from the oil pump 120. Suppress the abnormal rise of

  When the electronically controlled oil cooler valve 130 is open, engine oil is pressure-fed to the oil cooler 140, cooled by the oil cooler 140 using cooling water, and then pressure-fed to the cylinder block oil gallery 160. On the other hand, when the electronically controlled oil cooler valve 130 is closed, engine oil is pressure-fed to the bypass passage 150 and pressure-fed to the cylinder block oil gallery 160 without passing through the oil cooler 140. In this case, the engine oil is not cooled by the oil cooler 140.

  The engine oil pumped to the cylinder block oil gallery 160 is supplied to pistons, cam heads, main bearings, and connecting rod bearings (all not shown), which are members of the engine, to lubricate the members. A portion of the engine oil is also provided as hydraulic fluid for supplying hydraulic pressure to a hydraulic actuator (not shown) used for opening and closing operation of an exhaust valve that operates a compression release brake (not shown). Thereafter, the engine oil is returned to the oil pan 110.

  Next, the configuration relating to the electrical control (electric control) of the oil cooling device 100 shown in FIG. 1 will be described. The oil temperature sensor 170 detects the temperature (oil temperature) of the engine oil discharged from the oil pump 120, and outputs oil temperature information indicating the oil temperature to the valve control unit 190.

  The valve control unit 190 is electrically connected to the oil temperature sensor 170, and acquires oil temperature information from the oil temperature sensor 170. Further, the valve control unit 190 is electrically connected to the brake switch 200 manually operated in the vehicle compartment. When the brake switch 200 is on, the valve control unit 190 sets the compression release brake to be operable. On the other hand, when the brake switch 200 is off, the valve control unit 190 sets the compression release brake to be inoperable.

  The valve control unit 190 determines the opening and closing of the electronically controlled oil cooler valve 130 based on the oil temperature of the engine oil. Specifically, when the oil temperature of the engine oil is higher than a predetermined temperature, the valve control unit 190 opens the electronically controlled oil cooler valve 130 and switches the flow path of the engine oil to the oil cooler 140. On the other hand, when the oil temperature of the engine oil is higher than the predetermined temperature, the valve control unit 190 closes the electronically controlled oil cooler valve 130 to switch the engine oil flow path to the bypass passage 150.

  In the present embodiment, when the compression release brake is set to be inoperable, the valve control unit 190 sets the predetermined temperature used for comparison with the oil temperature of the engine oil to the second predetermined temperature. On the other hand, when the compression release brake is set to be operable, the valve control unit 190 sets the predetermined temperature used for comparison with the oil temperature of the engine oil to a first predetermined temperature lower than the second predetermined temperature.

  Thereby, when the compression release brake is set to be operable, the flow path of the engine oil is switched to the oil cooler 140 even if the oil temperature of the engine oil is lower than when the compression release brake is set to be inoperable. Frequency of In this case, a pressure loss of engine oil passing through the oil cooler 140 occurs, and the discharge hydraulic pressure from the oil pump 120 increases to compensate for the pressure loss. As a result, the amount of engine oil recirculated from the relief valve 180 to the oil pan 110 increases, and the amount of engine oil pumped to the cylinder block oil gallery 160 decreases, and the hydraulic pressure of the cylinder block oil gallery 160 (main gallery pressure ) Decreases. This prevents the failure of the hydraulic actuator used for the opening and closing operation of the exhaust valve that operates the compression release brake, and the compression release brake can be used normally. Therefore, in a region where the oil temperature of the engine oil is low (that is, the oil pressure is high) as compared with the conventional case where the predetermined temperature used for comparison with the oil temperature of the engine oil is constant regardless of the compression release brake setting. The operable area of the compression release brake can be expanded.

  FIG. 2 is a flowchart showing control processing in the present embodiment. In the process of the flowchart shown in FIG. 2, for example, the CPU (not shown) included in the valve control unit 190 reads a program stored in the ROM (not shown) as the engine of the vehicle is started. It is realized by executing. In one example, the flowchart shown in FIG. 2 is performed periodically (eg, once a minute).

  First, the valve control unit 190 determines whether or not the compression release brake is set to be operable (step S100). As a result of the determination, when the compression release brake is set to be operable (YES in step S100), the valve control unit 190 sets the predetermined temperature used for comparison with the oil temperature of the engine oil to the first predetermined temperature (< 2) The predetermined temperature is set (step S120).

  On the other hand, when the compression release brake is set to be inoperable (step S100, NO), the valve control unit 190 sets the predetermined temperature to the second predetermined temperature (step S140). After completion of step S120 or S140, the valve control unit 190 determines whether the oil temperature of the engine oil is higher than a predetermined temperature (step S160).

  As a result of the determination, when the oil temperature of the engine oil is higher than the predetermined temperature (YES in step S160), the valve control unit 190 opens the electronically controlled oil cooler valve 130 and switches the flow path of the engine oil to the oil cooler 140 (step S180). On the other hand, when the oil temperature of the engine oil is not higher than the predetermined temperature (step S160, NO), the valve control unit 190 closes the electronically controlled oil cooler valve 130 and switches the engine oil flow path to the bypass passage 150 (step S200). ). The valve control unit 190 ends the process in FIG. 2 when the process in step S180 or S200 ends.

  As described above in detail, in the present embodiment, the oil cooling device 100 includes the oil cooler 140 for cooling the engine oil, the bypass passage 150 for bypassing the oil cooler 140, and between the oil cooler 140 and the bypass passage 150. In the case where the engine oil flow is switched to the bypass passage 150 when the engine oil temperature is lower than a predetermined temperature, the engine oil flow is switched to the bypass passage 150 while the engine oil temperature is When the temperature is higher than the predetermined temperature, a valve control unit 190 that controls the valve so as to switch the flow path of the engine oil to the oil cooler 140 is provided. Then, when the operating condition including the compression release brake is set to be operable is satisfied, the valve control unit 190 sets the predetermined temperature lower than in the case where the operating condition is not satisfied.

  According to this embodiment configured as described above, when the compression release brake is set to be operable, the engine temperature is lower than when the compression release brake is set to be inoperable, even if the temperature of the engine oil is low. The oil flow path is frequently switched to the oil cooler 140. Therefore, in a region where the oil temperature of the engine oil is low (that is, the oil pressure is high) as compared to the conventional case where the predetermined temperature used for comparison with the oil temperature of the engine oil is constant regardless of the compression release brake setting. The operable area of the compression release brake can be expanded.

  In the above embodiment, when the operating condition including the compression release brake is set to be operable is described, an example in which the predetermined temperature is set lower than in the case where the operating condition is not satisfied has been described. The present invention is not limited to this. For example, when warm-up operation is performed immediately after the start of the engine, from the viewpoint of raising the oil temperature of the engine oil at an early stage, the operating condition is not only that the compression release brake is set to be operable The temperature of the engine oil may be lower than the temperature of the cooling water used for cooling.

  In addition, the above-described embodiments are merely examples of implementation for carrying out the present invention, and the technical scope of the present invention should not be interpreted in a limited manner by these. That is, the present invention can be implemented in various forms without departing from the scope or main features of the present invention.

  The present disclosure is useful as an oil cooling device capable of expanding the operable area of the compression release brake.

100 oil cooler 110 oil pan 120 oil pump 130 electrically controlled oil cooler valve 140 oil cooler 150 bypass passage 160 cylinder block oil gallery 170 oil temperature sensor 180 relief valve 190 valve control unit 200 brake switch

Claims (2)

An oil cooler for cooling the engine oil,
A bypass passage that bypasses the oil cooler;
A valve that switches the flow path of the engine oil between the oil cooler and the bypass passage;
When the temperature of the engine oil is equal to or less than a predetermined temperature, the flow path of the engine oil is switched to the bypass passage, while when the temperature of the engine oil is higher than the predetermined temperature, the flow path of the engine oil A valve control unit that controls the valve to switch to
Equipped with
The valve control unit sets the predetermined temperature lower than the case where the operating condition is not satisfied, when the operating condition including the compression release brake is set to be operable, as compared with the case where the operating condition is not satisfied.
Oil cooler. The operating conditions include that the compression release brake is set to be operable, and the temperature of the engine oil is lower than the temperature of cooling water used to cool the engine oil.
The oil cooling device according to claim 1.

Images