JPH0576845U - Cooling device for differential lubricating oil - Google Patents

Abstract

(57) [Summary] [Purpose] To prevent the oil temperature of differential lubricating oil from rising. [Structure] Reduction gear 2 in axle housing 1
A differential lubricating oil pan 3 disposed on the upper part of the axle and the upper wall 1 of the axle housing from the pan 3
a and a guide path 5 that penetrates the differential cover 4 and guides the lubricating oil from the pan to the outside of the differential cover, and the differential cover 4
An air guide duct 6 which is disposed at a predetermined gap in the air guide duct, and the air guide duct 4 is provided with the lubricating oil in the guide passage 5 from the guide passage 5 to the guide duct. Oil passage 9 for guiding the inside of the air duct 4 and passing through the air duct 4
And a lubricating oil return passage 11 that is connected to the oil passage 9 and returns the lubricating oil from the oil passage 9 to the inside of the axle housing 1 through the differential cover 4 and the lower wall 1b of the axle housing. And a differential lubricating oil cooling device.

Description

[Detailed description of the device]

[0001]

[Industrial applications]

 The present invention relates to a cooling device for differential lubricating oil.

[0002]

[Prior Art]

 The vehicle is equipped with a differential device in order to prevent the occurrence of tire slip and to prevent the maneuverability of the vehicle from being deteriorated by making both shafts differential when the rotational speed difference occurs in the drive wheels. Has been. In this differential device, a reduction pinion gear is meshed with a reduction gear housed in an axle housing, the driving force is equally transmitted to a pinion gear and a side gear that meshes with the reduction pinion gear, and a differential is performed by rotation of the pinion gear.

A differential lubricating oil is enclosed in an axle housing of this differential device in order to smoothly rotate each differential mechanism such as a reduction gear, a reduction pinion gear, a pinion gear, and a side gear.

[0004]

[Problems to be solved by the device]

 Conventionally, with this differential device, the oil temperature of the differential lubricating oil rises when the vehicle runs at high speed under high load, the oil film of the lubricating oil adhering to the surface of the differential gear is cut, and scoring wear occurs, causing the differential gear to move. Has poor durability, and the deterioration of the differential lubricating oil occurs.

[0005]

[Means for Solving the Problems]

 According to the present invention, the differential lubricating oil pan is arranged above the reduction gear in the axle housing, and the lubricating oil from the pan is penetrated from the pan through the upper wall of the axle housing and the differential cover. The guideway that leads to the outside of the differential cover, the wind guide duct that is arranged in the differential cover with a certain gap, and the guideway that is provided in the wind guide duct. Of the lubricating oil of the above-mentioned guide passage into the above-mentioned air duct, and is connected to the above-mentioned oil passage and the above-mentioned oil passage. A lubricating oil return path that passes through the cover and the lower wall of the axle housing and returns to the inside of the axle housing. In the cooling device Farensharu lubricant.

[0006]

[Action]

 The differential lubricating oil in the axle housing is transferred from the differential lubricating oil pan in the upper part of the reduction gear in the axle housing to the lubricating oil from the pan through the pan to the upper wall of the axle housing and the differential cover. In the guide path leading to the outside of the differential cover, the lubricating oil of the guide path, which is arranged in the duct for guiding from the guide path, is guided from the guide path into the duct for guiding air. The oil from the oil passage is passed through the differential cover and the lower wall of the axle housing, and the lubricating oil is returned to the inside of the axle housing. This allows the axle housing to be The Nsharu lubricating oil is allowed to cool.

[0007]

【Example】

 An embodiment of the present invention will be described with reference to FIGS.

In FIGS. 1 to 3, a differential lubricating oil receiving tray 3 for receiving a differential lubricating oil scraped up by rotation of the reduction gear 2 is provided on an upper portion of the reduction gear 2 in an axle housing 1. .. On the upper wall 1a of the axle housing 1, there is a guide path 5 which penetrates the upper wall 1a of the axle housing 1 from the tray 3 and the differential cover 4 to guide the lubricating oil on the tray 3 to the outside of the differential cover 4. It is provided. On the outer side of the differential cover 4, an air guide duct 6 is provided with a certain gap from the differential cover 4. As shown in FIG. 3, the air guide duct 6 has its left and right corners supported and fixed on the axle housing 1 by locking fittings 8. Inside the air duct 6 is provided an oil passage 9 which is connected to the guide passage 5 and allows the lubricating oil from the guide passage 6 to pass through the air duct 6. An air-cooled oil cooler 10 is provided in the oil passage 9. The oil passage 9 is provided with a lubricating oil return passage 11 which penetrates the differential cover 4 and the lower wall 1b of the axle housing and returns the lubricating oil from the oil passage 9 into the axle housing 1. Reference numeral 7 is a reduction pinion, and 12 is a differential carrier.

The differential lubricating oil in the axle housing 1 is scraped up in the arrow β direction by the reduction gear 2 rotating in the arrow α direction. A part of the differential lubricating oil thus scraped up is received by the receiving tray 3 near the upper wall 1a of the axle housing 1. Then, the differential lubricating oil received by the receiving tray 3 reaches the oil passage 9 from the receiving tray 3 through the guide passage 5. The differential lubricating oil introduced into the oil passage 9 passes through the air guide duct 6 which is cooled by contact with the outside air and is cooled. Further, the oil is guided from the oil passage 9 into the oil cooler 10. When the differential lubricating oil passes through the oil cooler 10, it is cooled by the outside air passing through the oil cooler 10. Then, the differential lubricating oil in the oil passage returns from the oil passage 9 to the inside of the axle housing 1 through the circulation return passage 11. The differential lubricating oil in the axle housing 1 reaches the oil passage 9 from the tray 3 through the guide passage 5, and further passes through the lubricating oil return passage 11 from the oil passage 9 and the circulation passage returning to the axle housing 1. To be cooled.

[0010]

[Effect of the device]

 According to the present invention, the differential lubricating oil is cooled by passing from the pan to the oil passage, to the oil passage, and then from the oil passage to the lubricating oil return passage and then to the circulation passage returning to the axle housing. , The temperature of the differential lubricating oil is prevented from rising when the vehicle is running at high speed under high load, and the oil film of the lubricating oil that has adhered to the surface of the differential gear is not cut off, and scoring wear does not occur. It is possible to improve the durability of the differential gear and prevent deterioration of the differential lubricating oil.

[Brief description of drawings]

FIG. 1 is a partial perspective view of a differential lubricating oil cooling device of the present invention.

FIG. 2 is a front sectional view of a differential lubricating oil cooling device of the present invention.

FIG. 3 is a rear view of the differential lubricating oil cooling device of the present invention.

[Explanation of symbols]

 1 Axle housing 1a Upper wall 1b Lower wall 2 Reduction gear 3 Receiving plate 4 Differential cover 5 Guideway 6 Wind guide duct 9 Oil passage 11 Lubricating oil return path

Claims (2)

[Scope of utility model registration request] Claims: 1. A differential lubricating oil pan disposed above a reduction gear in an axle housing, and a lubricating oil from the pan that penetrates through the upper wall of the axle housing and a differential cover from the pan. A guide path leading to the outside of the cover, an air guide duct arranged at a fixed gap in the differential cover, and a guide passage arranged in the air guide duct for lubricating oil in the guide path. An oil passage for guiding the air from the guide path into the air duct and passing through the air duct, and lubricating oil from the oil passage, which is connected to the oil passage, of the differential cover and the axle housing. A lubricating oil return path that passes through the lower wall and returns to the inside of the axle housing. Cooling device for differential lubricating oil. 2. The cooling device for differential lubricating oil according to claim 1, wherein an oil cooler is provided in the oil passage.