KR100883738B1 - A manual transmission using taper roller bearing for axis direction load-controlling - Google Patents

Abstract

The present invention relates to a manual transmission using a tapered roller bearing for axial load control, comprising: a transmission case forming an appearance and protecting internal components; A shaft that receives power and rotates; A hydraulic control device connected to one side of the transmission case to adjust a flow of hydraulic oil; An O-ring installed inside the transmission case to prevent pressure leakage; A pair of inner rings fixed to the shaft, an outer ring fixed to an inner side of the transmission case and having a ring shape in which one side is blocked to prevent hydraulic oil from flowing into the transmission, and to create pressure, between the inner and outer rings It characterized in that it comprises a tapered roller bearing comprising a pair of rollers fitted in the inclined direction.

Thereby, the manual transmission using the tapered roller bearing for the axial load control to block the one side of the outer ring of the tapered roller bearing to form a hydraulic oil storage space to always be in the tapered roller bearing by the hydraulic pressure regardless of the heat generation of the manual transmission. Providing a constant pressure always delivers the same axial load, thereby increasing the life of the tapered roller bearing and manual transmission and reducing noise.

Description

Manual transmission using tapered roller bearings for axial load control {A MANUAL TRANSMISSION USING TAPER ROLLER BEARING FOR AXIS DIRECTION LOAD-CONTROLLING}

1 is a cross-sectional view showing a state of a manual transmission using a conventional tapered roller bearing,

2 is a cross-sectional view showing a state of a conventional tapered roller bearing,

Figure 3 is a perspective view showing the outer ring of the conventional tapered roller bearing,

4 is a cross-sectional view showing the appearance of a manual transmission using a tapered roller bearing for axial load control according to an embodiment of the present invention;

5 is a cross-sectional view showing a state of a tapered roller bearing according to an embodiment of the present invention;

Figure 6 is a perspective view showing the appearance of the outer ring of the tapered roller bearing according to an embodiment of the present invention.

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

100: transmission case 110: shaft

120: tapered roller bearing 121: inner ring

122: outer ring 123: roller

130: seam

1: Transmission case 1-1: Hydraulic regulator connection hole

1-2: O-ring assembly groove 3: Shaft

5: hydraulic control device 7: O-ring

9: tapered roller bearing 9-1: inner ring

9-2: outer ring 9-3: roller

9-4: one side of the outer ring closed 11: hydraulic oil storage space

The present invention relates to a manual transmission using a tapered roller bearing, and particularly to block one side of the outer ring of the tapered roller bearing to form a hydraulic storage space so that a constant pressure is always applied to the tapered roller bearing by hydraulic pressure regardless of heat generation of the manual transmission. A manual transmission using tapered roller bearings for axial load regulation to provide.

In general, the manual transmission is installed between the clutch and the propulsion shaft to increase or decrease the rotational force of the engine according to the change in the driving state of the vehicle, and the manual transmission has a plurality of shafts for supporting the rotating shaft by receiving power from the clutch. Gearbox bearings are installed. In particular, tapered roller bearings can be subjected to radial loads and axial loads in one direction, and their load capacity is much higher than that of other bearings. It is used to support the shaft leading to.

1 to 3, a conventional transmission using a conventional tapered roller bearing forms an appearance and a transmission case 100 for protecting internal parts; A shaft 110 that receives power and rotates; An inner ring 121 fixed to the shaft 110, an outer ring 122 fixed inside the transmission case 100, and a roller fitted in an inclined direction between the inner ring 121 and the outer ring 122. A tapered roller bearing 120 formed of 123; It is assembled between the transmission case 100 and the tapered roller bearing 120 is configured to include a shim 130 for pressing the tapered roller bearing 120.

Conventionally, the shim 130 is assembled between the transmission case 100 and the tapered roller bearing 120 to press the tapered roller bearing 120 in order to apply a constant axial load to the shaft 100. gave.

In general, the transmission case 100 and the shaft 110 are made of a material having a different thermal expansion coefficient. In the related art, when the temperature in the transmission case 100 rises due to heat generated when the transmission is driven, the transmission case 100 is expanded more than the shaft 110 so that a gap is formed between the transmission case 100 and the shim 130 or the tapered roller bearing 120 and the shim 130 so that the load decreases. Get up.

Therefore, the manual transmission using the conventional tapered roller bearing has been assembled by adjusting the thickness of the shim 130 to give an additional load in consideration of the load reduction caused by the heat, for example, the shim 130 is In the case where the gap of the assembly is 5mm, the shim 130 having an 8mm thickness was assembled to apply pressure to the tapered roller bearing 120.

However, when the thickness of the shim 130 is assembled to give an additional load as described above, the amount of pressure applied to the tapered roller bearing 120 increases, and the outer ring 122 and the roller 123 of the tapered roller bearing 120 are increased. Abrasion occurs between the) or the fitting occurs in the outer ring 122 and the inner ring 121 of the tapered roller bearing 120 to shorten the life of the tapered roller bearing 120 and the manual transmission, noise generated There was this.

Accordingly, an object of the present invention is to block the one side of the outer ring of the tapered roller bearing to form a hydraulic oil storage space, thereby always providing a constant pressure to the tapered roller bearing by hydraulic pressure irrespective of the heat generation of the manual transmission, thereby always providing the same axial load. It is to provide a manual transmission using a tapered roller bearing for the axial load control to increase the life of the tapered roller bearing and manual transmission, and to reduce the noise.

As a means for achieving the above object, the constitution of the present invention comprises: a transmission case forming an appearance and protecting internal components; A shaft that receives power and rotates; A hydraulic control device connected to one side of the transmission case to adjust a flow of hydraulic oil; An O-ring installed inside the transmission case to prevent pressure leakage; A pair of inner rings fixed to the shaft, an outer ring fixed to an inner side of the transmission case and having a ring shape in which one side is blocked to prevent hydraulic oil from flowing into the transmission, and to create pressure, between the inner and outer rings It comprises a tapered roller bearing comprising a pair of rollers fitted in the inclined direction.

Here, the transmission case is formed with a hole (hole) to which the hydraulic control device is connected, characterized in that the groove is formed in the circumferential direction on the inside to assemble the O-ring.

The tapered roller bearing is provided at a position opposite to the hydraulic control device to form a hydraulic oil storage space.

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

4 to 6, a manual transmission using a tapered roller bearing for axial load control according to an embodiment of the present invention forms the appearance and protects the internal parts (1); A shaft 3 that receives power and rotates; A hydraulic control device (5) connected to one side of the transmission case (1) to control the flow of hydraulic oil; An O-ring (7) installed inside the transmission case (1) to prevent pressure leakage; A pair of inner rings 9-1 fixed to the shaft 3 and fixed to the inner side of the transmission case 1 to prevent hydraulic oil from flowing into the transmission and to form pressure, one side 9-4. ) A taper comprising an outer ring 9-2 having a ring shape in which a ring is blocked, and a pair of rollers 9-3 fitted in an inclined direction between the inner ring 9-1 and the outer ring 9-2. The roller bearing 9 is comprised.

Hereinafter, each configuration will be described in detail.

The transmission case 1 forms an exterior and is provided to protect the internal parts, and forms a ball 1-1 to which the hydraulic control device 5 is connected, and a circumference inward to assemble the O-ring 7. It is provided to form the grooves 1-2 in the directions.

The shaft 3 is provided to rotate by receiving power, and the hydraulic control device 5 is connected to one side of the transmission case 1 to adjust the flow of hydraulic oil.

The O-ring (7) is provided in the groove (1-2) formed in the circumferential direction inside the transmission case (1) is provided to prevent pressure leakage, it may be provided with rubber of elastic material.

The tapered roller bearing 9 is fixed to the pair of inner ring 9-1 fixed to the shaft 3 and the transmission case 1, and prevents hydraulic oil from flowing into the transmission and prevents pressure. An outer ring 9-2 having a ring shape in which one side 9-4 is blocked so as to form a groove, and a pair of rollers 9 fitted in an inclined direction between the inner ring 9-1 and the outer ring 9-2. -3) can be configured.

The tapered roller bearing 9 is provided at a position opposite to the hydraulic control device 5 to form a hydraulic oil storage space 11.

The tapered roller bearing 9 is provided such that one of the closed side 9-4 of the outer ring 9-2 is pressurized by the hydraulic oil of the hydraulic user long space 11 so that the pressure is always constant regardless of heat generation of the manual transmission. Is prepared to receive.

 Manual transmission using a tapered roller bearing for axial load control according to an embodiment of the present invention of the outer ring (9-2) of the tapered roller bearing (9) to give a constant axial load to the shaft (3) Closing one side (9-4) to form a hydraulic oil storage space (11), using the hydraulic control device (5) to adjust the flow of hydraulic oil through the tapered roller bearing (9) through the hydraulic oil storage space (11) Always pressurize to a constant pressure.

 Therefore, the manual transmission using the tapered roller bearing for the axial load control according to an embodiment of the present invention is the temperature in the transmission case (1) by the heat generated when driving the transmission to increase the transmission case (1) Even if it expands more than the shaft 3, the constant pressure is always provided to the tapered roller bearing 9 by hydraulic pressure, thereby always transmitting the same axial load, thereby increasing the life of the tapered roller bearing 9 and the manual transmission. And noise can be reduced.

As described above, the manual transmission using the tapered roller bearing for the axial load control according to the present invention blocks the one side of the outer ring of the tapered roller bearing to form a hydraulic storage space by the hydraulic pressure regardless of the heat generation of the manual transmission By always providing a constant pressure to the tapered roller bearing, it always delivers the same axial load, thereby increasing the life of the tapered roller bearing and the manual transmission and reducing noise.

Claims (4)

A transmission case forming an appearance and protecting internal components; A shaft that receives power and rotates; A hydraulic control device connected to one side of the transmission case to adjust the flow of hydraulic oil and to pressurize the tapered roller bearing at a constant pressure at all times; An O-ring installed inside the transmission case to prevent pressure leakage; A pair of inner rings fixed to the shaft, an outer ring fixed to an inner side of the transmission case and having a ring shape in which one side is blocked to prevent hydraulic oil from flowing into the transmission, and to create pressure, between the inner and outer rings Manual transmission using a tapered roller bearing for axial load control, characterized in that it comprises a tapered roller bearing comprising a pair of rollers fitted in the inclined direction The method of claim 1, The transmission case is a manual transmission using a tapered roller bearing for axial load control, characterized in that the ball is formed is connected to the hydraulic control device. The method of claim 1, The transmission case is a manual transmission using a tapered roller bearing for axial load control, characterized in that the groove is formed in the circumferential direction to the inside to assemble the O-ring. The method of claim 1, The tapered roller bearing is provided in a position opposite to the hydraulic control device to form a hydraulic oil storage space, characterized in that the manual transmission using a tapered roller bearing for axial load control.

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