JP2007107689A - Torque converter - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a torque converter capable of smoothly inserting an impeller hub without damaging an oil seal and a bush while shortening shaft length of an outer spline of a stator shaft as required in terms of functions. <P>SOLUTION: The cylinder-shaped impeller hub 4 is connected with a pump impeller 1 and an inner circumference protruding part 4a is formed at an inner circumference part of the impeller hub. An outer spline 9a and an outer circumference protruding part 9b for spline insertion with the stator are formed on an outer circumference face at a tip end part of a stator shaft 9 with a shaft directional distance D between them. The oil seal 7 and the bush 8 are interposed between the outer circumference face of the impeller hub 4 and an inner circumference part of the pump housing 5. When inserting the impeller hub 4 into the pump housing 5, the inner circumference protruding part 4a of the impeller hub is guided by the outer spline 9a of the stator shaft and then continuously guided by the outer circumference protruding part 9b and the impeller hub 4 is guided to inside of the oil seal 7 and the bush 8. <P>COPYRIGHT: (C)2007,JPO&INPIT

Description

The present invention relates to a torque converter used in an automatic transmission, a continuously variable transmission, and the like, and more particularly to a guide structure of an impeller hub and a stator shaft.

In an automatic transmission or continuously variable transmission for a vehicle, a torque converter is widely used as a function of amplifying engine torque and transmitting it to the transmission. The torque converter is connected to an engine output shaft that is an input rotating member, and forms a fluid chamber filled with fluid, and a transmission that is disposed facing the pump impeller in the fluid chamber and is an output rotating member And a stator provided between the pump impeller and the turbine runner in the fluid chamber, and the rotational torque of the engine output shaft is transmitted to the input shaft of the transmission via the fluid. It is supposed to be.

A cylindrical impeller hub is joined to the inner periphery of the pump impeller, and the tip of the impeller hub is inserted into the pump body and connected to the oil pump. An oil seal and a bush are interposed between the outer peripheral surface of the impeller hub and the inner peripheral portion of the pump body in order to prevent oil leakage from a gap with the pump body. The impeller hub is inserted through the outer periphery of the stator shaft, and a radial clearance is formed between the impeller hub and the stator shaft for allowing hydraulic oil to pass therethrough. As described above, there is a radial clearance between the impeller hub and the stator shaft for allowing hydraulic oil to pass therethrough.When the torque converter is incorporated into the transmission, when the impeller hub is inserted into the pump body, the impeller hub is moved in the radial direction. There is a possibility of rattling and damage to the oil seal and bush.

In Patent Document 1, by forming a plurality of protrusions that contact the outer peripheral surface of the stator shaft on the inner peripheral surface of the impeller hub, the impeller hub is guided by the stator shaft when the torque converter is inserted, and the impeller hub receives an oil seal and a bush. A torque converter that solves the problem of damage is disclosed.
In the case of the torque converter having this structure, an outer spline that fits with the inner spline of the stator is formed at the tip of the stator shaft, and the outer diameter of the outer spline is substantially equal to the outer diameter of the shaft portion of the stator shaft. . Therefore, it is possible to guide the impeller hub by the protrusions formed on the inner peripheral surface of the impeller hub sliding on the outer peripheral surface of the stator shaft.

On the other hand, the outer spline at the tip of the stator shaft may protrude in the outer circumferential direction. In this case, if the protrusion is formed on the inner peripheral surface of the impeller hub, when the impeller hub is assembled into the housing, the protrusion will get over the outer spline at the tip of the stator shaft, and the backlash will occur. Or the bush may be damaged. Therefore, it is necessary to set the dimensions so that the outer peripheral portion of the impeller hub covers the bush while the protrusion formed on the inner peripheral surface of the impeller hub is guided by the outer spline.

FIG. 4 shows an example of the torque converter T2 dimensioned as described above.
In FIG. 4, 1 is a pump impeller, 2 is a turbine runner, 3 is a stator, and the pump impeller 1 is connected to an engine output shaft 11 via a drive plate 12. A cylindrical impeller hub 4 is joined to the inner periphery of the pump impeller 1, and the tip of the impeller hub 4 is inserted into a pump body 5 and connected to an oil pump 6. An oil seal 7 and a bush 8 are interposed between the outer peripheral guide surface 4 b of the impeller hub 4 and the inner peripheral portion of the pump body 5. The stator shaft 9 protrudes integrally from the pump cover 10, the impeller hub 4 is inserted through the outer periphery of the stator shaft 9, and a radial gap for allowing hydraulic oil to pass between the impeller hub 4 and the stator shaft 9. Is formed. An outer spline 9a that is spline-fitted with the stator 3 is formed at the tip of the stator shaft 9 so as to protrude outward. An inner peripheral convex portion 4 a for guide is formed on the inner peripheral portion of the impeller hub 4. An input shaft 13 of the transmission is inserted inside the stator shaft 9, and a tip portion thereof is connected to an inner diameter portion of the turbine runner 2 by a spline.

When the impeller hub 4 is inserted into the pump body 5 when the torque converter having the above structure is assembled, the outer periphery of the impeller hub 4 is started to be guided by the bush 8 in order to prevent the oil seal 7 and the bush 8 from being damaged. It is necessary to continue to guide the inner peripheral convex portion 4a of the impeller hub 4 by the outer spline 9a of the stator shaft 9. Therefore, if the distance from the front end surface of the bush 8 to the rear end portion of the outer peripheral guide surface 4b of the impeller hub 4 is A, and the distance from the front end of the inner peripheral convex portion 4a of the impeller hub 4 to the rear end of the outer spline 9a is B,
A> B
The relationship is set. The reason will be described with reference to FIG.

FIG. 5 shows an assembling method of the torque converter T2 shown in FIG.
FIG. 5A shows a state in which insertion of the torque converter is started with respect to the stator shaft 9. The tip of the inner peripheral convex portion 4 a of the impeller hub 4 comes into contact with the outer peripheral surface of the outer spline 9 a, and the impeller hub 4 is held at the center portion of the stator shaft 9.
FIG. 5B shows a state where a torque converter is further inserted into the stator shaft 9. The inner peripheral convex portion 4a of the impeller hub 4 is guided by the outer peripheral surface of the outer spline 9a, and the outer peripheral guide surface 4b of the impeller hub 4 reaches the bush 8 therebetween, and the impeller hub 4 can be inserted without damaging the oil seal 7 and the bush 8.
FIG. 5C shows a state where the torque converter is inserted to the end position. In this state, the tip of the impeller hub 4 is connected to the oil pump 6, and the outer spline 9a of the stator shaft 9 and the stator 3 are spline-fitted.

By setting the relationship of A> B as described above, the impeller hub 4 can be inserted without damaging the oil seal 7 or the bush 8, but the axial length of the outer spline 9a is necessary because the impeller hub 4 needs to be guided over a long distance. L must be longer than required for functionality.
Instead of increasing the axial length L of the outer spline 9a as described above, a method of increasing the axial length of the inner peripheral convex portion 4a is also conceivable. However, when the impeller hub 4 is joined to the inner peripheral portion of the pump impeller 1, the inner peripheral convex portion 4a cannot be brought closer to the joint portion due to the generation of burrs or the like.
6A and 6B show a method of joining the impeller hub 4 to the pump impeller 1 by friction welding. As shown in FIG. 6B, burrs x may occur at the joint, and if the burrs x protrude toward the inner peripheral side of the impeller hub 4, the guide with the outer spline 9 a becomes obstructed. Therefore, it is necessary to provide a margin δ between the joint portion and the inner peripheral convex portion 4a. As a result, the axial length of the inner peripheral convex portion 4a cannot be increased, and the axial length of the outer spline 9a must be increased. I do not get.

FIG. 7 shows a method of separating the oil pump assembly (pump body 5, oil pump 6, pump cover 10) from the case 14.
When the oil pump assembly (pump body 5, oil pump 6, pump cover 10) is separated from the case 14, the pump cover 10 is inlay-fitted to the inner peripheral surface 14a of the case 14, so that the stator shaft 9 The outer spline 9a needs to be chucked with the removal jig 15 and pulled out.
However, if the axial length L of the outer spline 9a is increased as described above, the distance S from the pump body 5 to the outer spline 9a is shortened, so that the strength of the claw portion 15a of the jig 15 is reduced, and in some cases, it is cured. There arises a problem that the tool 15 does not hold in terms of strength.

As described above, if the axial length L of the outer spline 9a of the stator shaft 9 is longer than the dimension required for its function, not only is it uneconomical, but also the removal of the oil pump assembly is hindered as described above. There is a problem.
JP-A-8-285036

An object of the present invention is to provide a torque converter capable of smoothly inserting an impeller hub without damaging an oil seal or a bush while reducing the axial length of an outer spline of a stator shaft to a functionally required dimension.

In order to achieve the above object, the present invention provides a torque converter that includes a pump impeller, a turbine runner, and a stator, and that transmits a rotational torque of an input rotating member to an output rotating member via a fluid. A cylindrical impeller hub is joined to the peripheral portion, and an inner peripheral convex portion is formed on the inner peripheral portion of the impeller hub so as to protrude from the joint portion toward the inner diameter side. The outer periphery of the tip end portion of the stator shaft provided in the pump housing An outer spline that fits the stator and spline is formed on the outer surface so as to protrude outward, and an oil seal and a bush are interposed between the outer peripheral surface of the impeller hub and the inner peripheral portion of the pump housing. When the impeller hub is inserted into the pump housing, the inner peripheral convex portion of the impeller hub is moved to the outer spline of the stator shaft. In the torque converter in which the impeller hub is supported coaxially with the stator shaft, the outer spline is substantially spaced from the outer spline by an axial distance D on the outer peripheral surface of the stator shaft. An outer peripheral convex portion having the same outer diameter is formed, the distance D is made smaller than an axial dimension C of the inner peripheral convex portion, and the inner peripheral convex portion of the impeller hub is inserted into the outer spline of the stator shaft when the impeller hub is inserted into the pump housing. Then, the impeller hub is guided to the inside of the oil seal and the bush continuously by the outer peripheral convex portion, and the inner peripheral convex portion of the impeller hub with respect to the outer peripheral convex portion of the stator shaft in the final insertion state. A torque converter is provided that is spaced apart in the axial direction.

In the present invention, an outer peripheral convex portion having substantially the same outer diameter as the outer spline is formed on the outer peripheral surface of the stator shaft at an axial distance D from the outer spline. When the torque converter is inserted into the pump housing, the inner peripheral convex portion of the impeller hub is first guided by the outer spline of the stator shaft and supported coaxially. As the insertion further proceeds, the inner peripheral convex portion of the impeller hub rides on the outer peripheral convex portion beyond the outer spline. At that time, since the axial gap D between the outer spline and the outer peripheral convex portion is smaller than the axial dimension C of the inner peripheral convex portion, the inner peripheral convex portion does not fall between the outer spline and the outer peripheral convex portion and is continuously guided. . Since the outer peripheral convex portion and the outer spline have substantially the same outer diameter, the impeller hub does not shift its axial center position, and the impeller hub is smoothly guided inside the oil seal and the bush. As described above, the impeller hub is always guided by the outer spline of the stator shaft and the outer peripheral convex portion until the impeller hub is supported by the bush, so that the assembly is improved and the oil seal and the bush are prevented from being damaged. it can.

In the present invention, since the outer peripheral convex portion takes part of the role of the guide, the axial length of the outer spline of the stator shaft can be shortened to a functionally required dimension. When separating the oil pump assembly (pump body, oil pump, pump cover) from the case, the claw of the removal jig may be engaged with the outer spline, and the stator shaft may be pulled out in the axial direction. Therefore, the claw portion of the jig can be engaged with the gap between the outer peripheral convex portion and the outer spline. Therefore, the size of the claw portion can be increased, the strength of the jig can be ensured, and the disassembling workability is improved.

In the present invention, it is not necessary to bring the inner peripheral convex part of the impeller hub close to the joint part, and a margin can be secured between them, so even if a burr occurs when the impeller hub is joined to the pump impeller, the burr protrudes to the inner peripheral convex part. Can be prevented. Note that the method of joining the impeller hub and the pump impeller is not limited to friction welding, and other means such as welding may be used. Even in such a case, a raised portion or the like may be formed in the welded portion, but since the inner circumferential convex portion and the joint portion are separated from each other, the raised portion can be prevented from becoming an obstacle to the guide with the stator shaft.

In the final assembled state, the outer peripheral surface of the impeller hub is supported only by the bush, and the inner peripheral convex portion of the impeller hub and the outer peripheral convex portion of the stator shaft are in a position separated in the axial direction. Therefore, there is no fear that the outer peripheral convex portion and the inner peripheral convex portion are in contact with each other to cause wear, and the passage area of the hydraulic oil passing between the stator shaft and the impeller hub can be secured.

According to the present invention, the outer peripheral convex portion having the same outer diameter as the outer spline is formed on the outer peripheral surface of the stator shaft at an axial distance D from the outer spline. Therefore, when the impeller hub is inserted, the impeller hub is supported by the bush. Guided at all times until the assembly is improved, the assembly is improved and the oil seal and bushing can be prevented from being damaged.
In addition, since the axial length of the outer spline can be shortened to the functionally required dimension, the manufacturing cost of the stator shaft can be reduced, and when the oil pump assembly is separated from the case, the claw portion of the removal jig can be used as the outer spline. The stator shaft can be pulled out easily. Therefore, the strength of the jig can be ensured and the decomposability is improved.

Embodiments of the present invention will be described below with reference to examples.

1 to 3 show a torque converter T1 as an example of the present invention. 1 to 3, the same reference numerals are assigned to the same or corresponding parts as those in FIGS. 4 to 7, and a duplicate description is omitted.
In the torque converter T1 of this embodiment, one of the differences from the torque converter T2 described above is that the axial length L of the outer spline 9a formed at the tip of the stator shaft 9 is short and the axial distance from the outer spline 9a. The outer peripheral convex portion 9b having substantially the same outer diameter as the outer spline 9a is formed with a distance D therebetween. The distance D is made smaller than the axial dimension C of the inner peripheral convex portion 4 a of the impeller hub 4.
D <C
Further, the axial distance from the front end surface of the bush 8 to the rear end portion of the outer peripheral guide surface 4b of the impeller hub 4 is A, and the axial distance from the front end of the inner peripheral convex portion 4a of the impeller hub 4 to the rear end of the outer peripheral convex portion 9b is B. Then,
A> B
The relationship is set.
By setting the dimensions as described above, the impeller hub 4 can be inserted without damaging the oil seal 7 or the bush 8.

FIG. 2 shows an assembling method of the torque converter T1 shown in FIG.
FIG. 2A shows a state in which insertion of the torque converter with respect to the stator shaft 9 is started. The tip of the inner peripheral convex portion 4a of the impeller hub 4 contacts the outer peripheral surface of the outer spline 9a, and the impeller hub 4 is supported coaxially with the stator shaft 9.
FIG. 2B shows a state where a torque converter is further inserted into the stator shaft 9. The inner peripheral convex portion 4a of the impeller hub 4 is continuously guided by the outer peripheral convex portion 9b beyond the outer spline 9a. Since the relationship of dimension D <C is set, the inner peripheral convex portion 4a does not fall into the gap between the outer spline 9a and the outer peripheral convex portion 9b. While the inner peripheral convex portion 4a is guided by the outer peripheral surface of the outer peripheral convex portion 9b, the outer peripheral guide surface 4b of the impeller hub 4 reaches the bush 8, and the impeller hub 4 can be inserted without damaging the oil seal 7 or the bush 8.
FIG. 2C shows a state where the torque converter is inserted to the end position. In this state, the tip of the impeller hub 4 is connected to the oil pump 6, and the outer spline 9a of the stator shaft 9 and the stator 3 are spline-fitted. The inner peripheral convex portion 4 a and the outer peripheral convex portion 9 b are separated in the axial direction, and a hydraulic oil passage is formed between the impeller hub 4 and the stator shaft 9.

FIG. 3 shows a method of separating the oil pump assembly (pump body 5, oil pump 6, pump cover 10) from the case 14.
The oil pump assembly is separated from the case 14 by using the removal jig 16 having the claw portion 16 a at the tip end, engaging the claw portion 16 a with the outer spline 9 a of the stator shaft 9, and pulling the stator shaft 9. The pump cover 10 is inlay-fitted to the inner peripheral surface 14a of the case 14 and requires a predetermined tensile force. In the present invention, however, the axial length L of the outer spline 9a can be shortened to the minimum necessary, and the pump cover 10 Since the distance S from the body 5 to the outer spline 9a can be increased, a relatively large claw portion 16a is engaged between the outer spline 9a and the outer peripheral convex portion 9b as shown in FIG. Can do. Therefore, the strength of the removal jig 16 can be ensured and the disassembling workability is improved.

In the present invention, the pump housing is a generic term for a pump body and a pump cover, and may refer to either. Therefore, the counterpart member into which the impeller hub should be inserted may be a pump cover. In that case, an oil seal and a bush are provided on the pump cover.

It is sectional drawing of an example of the torque converter concerning this invention. It is a figure which shows the assembly method of the torque converter concerning this invention. It is a figure which shows the method of isolate | separating the oil pump assembly in this invention from a case. It is sectional drawing of an example of the conventional torque converter. It is a figure which shows the assembly method of the conventional torque converter. It is a figure which shows the joining method of a pump impeller and an impeller hub. It is a figure which shows the method of isolate | separating the conventional oil pump assembly from a case.

Explanation of symbols

T1 Torque converter 1 Pump impeller 2 Turbine runner 3 Stator 4 Impeller hub 4a Inner peripheral convex part 5 Pump body 6 Oil pump 9 Stator shaft 9a Outer spline 9b Outer peripheral convex part 10 Pump cover 14 Case 16 Removal jig

Claims (1)

A torque converter comprising a pump impeller, a turbine runner, and a stator, and transmitting a rotational torque of an input rotating member to an output rotating member via a fluid,
A cylindrical impeller hub is joined to the inner peripheral portion of the pump impeller, and an inner peripheral convex portion protruding from the joint portion to the inner diameter side is formed on the inner peripheral portion of the impeller hub,
On the outer peripheral surface of the front end portion of the stator shaft provided in the pump housing, an outer spline that is spline-fitted with the stator is formed in a protruding shape on the outer periphery,
An oil seal and a bush are interposed between the outer peripheral surface of the impeller hub and the inner peripheral portion of the pump housing,
When the impeller hub is inserted into the pump housing, the inner peripheral convex portion of the impeller hub is guided by the outer spline of the stator shaft, so that the impeller hub is supported coaxially with the stator shaft.
On the outer peripheral surface of the stator shaft, an outer peripheral convex portion having substantially the same outer diameter as the outer spline is formed at an axial distance D from the outer spline.
The distance D is made smaller than the axial dimension C of the inner circumferential convex portion,
When the impeller hub is inserted into the pump housing, the inner peripheral convex portion of the impeller hub is guided by the outer spline of the stator shaft, and then continuously guided by the outer peripheral convex portion to guide the impeller hub to the inside of the oil seal and the bush. A torque converter characterized in that the inner peripheral convex portion of the impeller hub is axially separated from the outer peripheral convex portion of the stator shaft in the final inserted state.

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