KR20150107620A - Case unit and assembling method thereof - Google Patents

Abstract

The subject of the present invention provides a case unit capable of increasing workability. A liquid sealant (8) is coated on a flange (5b) of one case (5) of two cases (5, 6). A flange (6b) of the other case is bonded with the flange (5b) of the other case through the liquid sealant (8) to form a case unit. A knock pin (7) is installed on the flanges (5b, 6b) and determines locations of the two cases (5, 6). A hollow portion (7a) is formed in the knock pin (7) wherein a guide pin (20) is inserted into the hollow portion when the two cases (5, 6) are assembled.

Description

[0001] CASE UNIT AND ASSEMBLING METHOD THEREOF [0002]

The present invention relates to a case unit.

Patent Literature 1 discloses fitting a cylindrical knock pin to both the housing and the case at the junction of the case and the housing.

International Publication No. 2007/043334

In the case of joining the case and the housing, the case and the housing can be easily assembled by disposing the guide pin in the housing and assembling the case to the housing along the guide pin. The guide pin is inserted into the hole for fastening the bolt. After the case is assembled to the housing, the guide pin is pulled out, the guide pin is pulled out, and then the bolt is fastened.

When the fluid enters the case unit constituted as described above, the case may be assembled by applying the liquid sealant to the joint surface of the housing in order to maintain the sealability of the fluid. However, when applying the liquid sealant to the joint surface of the housing, and when assembling the case, the liquid sealant may leak from the joint surface to the bolt fastening hole and be attached to the guide pin. When the liquid sealant adheres to the guide pin, the guide pin must be cleaned, and the workability is deteriorated.

SUMMARY OF THE INVENTION The present invention has been made to solve such a problem, and it is an object of the present invention to prevent the liquid sealant from adhering to the guide pin when assembling the case to the housing by using the guide pin.

A case unit according to an embodiment of the present invention is formed by applying a liquid sealant to a flange of one of two cases and bonding a flange of the other case to a flange of one case through a liquid sealant The case unit is provided with a knock pin provided on the flange for positioning the two cases and a hollow portion into which the guide pin is inserted when the two cases are assembled is formed on the knock pin.

A method of assembling a case unit according to another aspect of the present invention is a method of assembling a case unit in which flanges of two cases are bonded to each other through a liquid sealant. In a method of fitting a knock pin to a hole provided in a flange of one case A step of applying a liquid sealant to a flange of one of the cases, a step of inserting a guide pin into a hollow portion provided on the knock pin, a step of assembling the other case to a case along the guide pin, , And a step of removing the guide pin from the knock pin.

According to these configurations, it is possible to prevent the liquid sealant from adhering to the guide pin by inserting the guide pin into the hollow portion provided on the knock pin to assemble the case.

1 is a perspective view showing a part of a continuously variable transmission.
2 is a schematic sectional view of the side cover assembled to the transmission case using a guide pin.
3 is a view showing a process of assembling the side cover.
4 is a view showing a state in which a liquid sealant is applied to the junction surface of the transmission case.
5 is a view showing a state in which a guide pin is inserted into a knock pin.
6A is a view showing an assembled state of the side cover.
Fig. 6B is a view showing an assembled state of the side cover.
6C is a view showing an assembled state of the side cover.

Hereinafter, embodiments of the present invention will be described with reference to the accompanying drawings.

1 is a perspective view showing a state in which the side cover 6 of the continuously variable transmission 1 is removed.

The primary pulley 2, the secondary pulley 3 and the belt 4 are fixed to the transmission case 1. The primary pulley 2, the secondary pulley 3 and the belt 4 are connected to each other through a belt 4 between the primary pulley 2 and the secondary pulley 3, Is housed in a room formed by the side cover (5) and the side cover (6).

A lubricating oil tube 10 for supplying a lubricating oil to the belt 4 and the like is provided in the transmission case 5. An engaging hole 11 into which the knock pin 7 is fitted and a bolt hole 12 into which a bolt is inserted, Etc. are formed in the flange 5b. As shown in Fig. 2, the side cover 6 is provided with a fitting hole 13 into which the knock pin 7 is fitted, a guide hole 14 formed coaxially with the fitting hole 13, A bolt hole (not shown) or the like is formed in the flange 6b and the lubricant tube 10 is inserted to form the tube hole 15 (the tube hole 15 is shown in Fig. 6A) . 2 is a schematic cross-sectional view of the side cover 6 assembled to the transmission case 5 using the guide pin 20. As shown in Fig.

When the transmission case 5 and the side cover 6 are assembled, a high positioning accuracy is required, for example, the lubricating oil tube 10 is not buckled. Thereby, the transmission case 5 and the side cover 6 are attached using the two knock pins 7 provided on the flanges 5b and 6b.

The knock pin 7 is a cylindrical pin having a through hole 7a formed in the axial direction. A guide pin (20) is inserted into the through hole (7a) when the side cover (6) is assembled to the transmission case (5).

The guide pin 20 has an insertion portion 21 which is inserted into the through hole 7a of the knock pin 7 and an insertion portion 21 which is larger in diameter than the insertion portion 21 and which is larger in diameter than the guide hole 14 of the side cover 6. [ An adjustment section 23 provided between the insertion section 21 and the guide section 22 and having a diameter larger than that of the insertion section 21 and smaller than the diameter of the guide section 22 Respectively. The diameter of the insertion portion 21 is formed so as to be loosely fitted to the through hole 7a of the knock pin 7. A stepped portion 24 is formed between the insertion portion 21 of the guide pin 20 and the adjustment portion 23. The stepped portion 24 contacts the upper surface of the knock pin 7 when the guide pin 20 is inserted into the knock pin 7 and functions as a stopper.

Next, a method of assembling the side cover 6 will be described with reference to Fig. 3 is a view showing a process of assembling the side cover 6. Fig.

The knock pin 7 is fitted into the fitting hole 11 of the transmission case 5 as shown in Fig. 1 (S1). The knock pin 7 protrudes further toward the side cover 6 than the joint surface 5a formed on the flange 5b of the mission case 5. [

Next, the liquid seal agent 8 is applied to the joint surface 5a of the mission case 5 (S2). The liquid sealant 8 is applied to the entire circumference of the joint surface 5a of the mission case 5 as shown in Fig.

Next, as shown in Fig. 5, the insertion portion 21 of the guide pin 20 is inserted into the through hole 7a of the knock pin 7 (S3). The guide pin 20 is supported by the knock pin 7 so that the step portion 24 abuts on the upper surface of the knock pin 7. The knock pin 7 protrudes toward the side cover 6 side more than the joint surface 5a of the mission case 5. When the guide pin 20 is inserted into the knock pin 7, The guide pin 20 comes into contact with the upper surface of the knock pin 7 and the guide pin 20 does not come into contact with the joint surface 5a of the mission case 5.

Next, the guide hole 14 of the side cover 6 is inserted into the guide pin 20, and the side cover 6 is lowered along the guide pin 20 (S4). The case in which the side cover 6 is lowered along the guide pin 20 will be described in detail with reference to Figs. 6A to 6C.

First, the position of the side cover 6 is adjusted so that the guide hole 14 of the side cover 6 is inserted into the guide portion 22 of the guide pin 20, and the side cover 6 is lowered (Fig. 6A) . The diameter of the guide hole 14 is larger than the diameter of the guide portion 22 and the guide portion 22 can be easily inserted into the guide hole 14. [ At the same time, the lubricant tube 10 is inserted into the tube hole 15 of the side cover 6 at the same time. The lubricant tube 10 can be accurately inserted into the tube hole 15 by positioning the transmission case 5 and the side cover 6 using the guide pin 20 inserted into the knock pin 7 have.

Next, the side cover 6 is lowered to the adjusting portion 23 (Fig. 6B). Since the diameter of the adjustment portion 23 is smaller than the diameter of the guide portion 22, it is easy to finely adjust the position of the side cover 6 with respect to the transmission case 5. [

The position of the side cover 6 with respect to the transmission case 5 is finely adjusted and the side cover 6 is further lowered to fit the knock pin 7 into the fitting hole 13 of the side cover 6 6c). At this time, the liquid sealant 8 spreads between the joint surface 6a formed on the flange 6b of the side cover 6 and the joint surface 5a of the transmission case 5. A portion of the liquid sealant 8 reaches the outer periphery of the knock pin 7 and is attached to the outer periphery of the knock pin 7. However, since the insertion portion 21 of the guide pin 20 is inserted into the through hole 7a of the knock pin 7, the liquid sealant 8 is not attached to the guide pin 20. It is possible to prevent the lubricant tube 10 from being deformed by reducing the load applied to the lubricant tube 10 at the time of assembling by assembling the transmission case 5 and the side cover 6 with the knock pin 7 with high accuracy can do.

3, the guide pin 20 is taken out from the knock pin 7 (S5), and the flange 6b of the side cover 6 and the flange 5b of the transmission case 5 are fastened by bolts . Thereby, the flanges 5b and 6b are joined together via the liquid sealant 8, and the side cover 6 is installed in the mission case 5 (S6).

Effects of the embodiment of the present invention will be described.

The guide pin 20 is inserted into the through hole 7a provided in the knock pin 7 and the side cover 6 is assembled to the transmission case 5 using the guide pin 20 so that the liquid sealant 8 can be prevented from being attached to the guide pin 20. When the liquid sealant 8 is attached to the guide pin 20, it is necessary to remove the attached liquid sealant 8, but this operation is not required and the working efficiency can be improved (claim 1 , 5).

The knock pin 7 protrudes further toward the side cover 6 than the joint surface 5a of the mission case 5. The insertion portion 21 of the guide pin 20 can be inserted into the through hole 7a of the knock pin 7 without the tip end of the guide pin 20 contacting the liquid seal member 8 . If the guide pin 20 comes in contact with the liquid sealant 8, the liquid sealant 8 may fall off, which may cause a shortage of seal. According to the present embodiment, it is possible to prevent the shortage of the seal and to prevent the liquid sealant 8 from adhering to the guide pin 20 (the effect corresponding to claims 1 and 5).

Further, by inserting the guide pin 20 into the knock pin 7 provided with high accuracy with respect to the transmission case 5, the positional accuracy of the guide pin 20 is also good. Therefore, when assembling the side cover 6 to the transmission case 5 along the guide pin 20, the positional deviation of the side cover 6 with respect to the transmission case 5 is reduced, It can be easily assembled to the transmission case 5 (the effect corresponding to claims 1 and 5).

The through hole 7a of the knock pin 7 and the insertion portion 21 of the guide pin 20 are loosely fitted so that the side cover 6 is fitted to the transmission case 5 along the guide pin 20 The positional deviation of the side cover 6 with respect to the transmission case 5 can be reduced and the side cover 6 can be easily assembled to the transmission case 5 at the time of assembling.

The guide pin 20 can be supported by the insertion portion 21 and the stepped portion 24 by the contact of the stepped portion 24 with the upper surface of the knock pin 7 and the stability of the guide pin 20 is good . The positional deviation of the side cover 6 with respect to the transmission case 5 can be reduced and the side cover 6 can be easily assembled to the transmission case 5 along the guide pin 20 Corresponding effect).

When the side cover 6 is lowered by forming the guide hole 14 in the side cover 6 that is smaller than the diameter of the knock pin 7 and larger in diameter than the guide pin 20, The side cover 6 can be easily assembled to the transmission case 5 (effect corresponding to claim 4).

Although the embodiments of the present invention have been described above, the above embodiments are only illustrative of some of the application examples of the present invention, and the technical scope of the present invention is not limited to the specific configurations of the above embodiments.

5: Transmission case (case)
5a:
5b: Flange
6: Side cover (case)
6b: Flange
7: knock pin
7a: Through hole (hollow portion)
8: Liquid sealant
14: Guide hole
20: guide pin
21:
24:

Claims (5)

A case unit which is formed by applying a liquid sealant to one flange of one of the two cases and bonding a flange of the other case to the flange of the one case through the liquid sealant,
And a knock pin provided on the flange for positioning the two cases,
The knock pin is provided with a hollow portion into which the guide pin is inserted when assembling the two cases
Wherein the casing unit comprises: The method according to claim 1,
Wherein the hollow portion of the knock pin and the insertion portion of the guide pin are loose fit. 3. The method according to claim 1 or 2,
Wherein the guide pin is formed with a stepped portion that contacts the upper surface of the knock pin. 3. The method according to claim 1 or 2,
In the case to be attached using the guide pin,
Wherein a guide hole having a diameter smaller than that of the knock pin and a diameter larger than that of the guide pin is formed. A method of assembling a case unit in which flanges of two cases are joined through a liquid sealant,
A step of fitting a knock pin into a hole provided in a flange of one of the cases,
Applying the liquid sealant to a flange of the one case;
A step of inserting a guide pin into a hollow portion provided on the knock pin,
Assembling the other case to the one case along the guide pin,
A step of removing the guide pin from the knock pin
Wherein the case unit is provided with a plurality of protrusions.

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