CONTROL FLAP FOR CONTROLLED EXHAUST GAS RECIRCULATION AND METHOD FOR ITS PRODUCTION

Abstract

A control flap (1) has a flap body (2) and a circumferential seal (3) capable of sealing upon abutting to a sealing surface (7) of an opening (8). The flap body (2) and the seal (3) are made of elastomers. The seal (3) is joined to the flap body (2) by a pressure plate (4) made of a thermoplastic. The control flap may be made by a method that includes: producing the flap body (2) from a thermoplastic by injection molding; producing the pressure plate (4) from a thermoplastic by injection molding; producing the seal (3) from an elastomer by injection molding; introducing the pressure plate (4) into the undercut (10) of the seal (3); inserting the pressure plate (4) with the seal (3) into the recess (16) of the flap body (2) and bonding the pressure plate (4) and flap body (2).

Claims

1. A control flap (1) comprising a flap body (2) and a circumferential seal (3) that is capable of sealing upon abutting a sealing surface (7) of an opening (8) to be sealed, the flap body (2) being made of a thermoplastic and the seal (3) being made of an elastomer, wherein the seal (3) is joined to the flap body (2) via a pressure plate (4) made of a thermoplastic.

2. The control flap (1) of claim 1, wherein the flap body (2) has a recess (16) for receiving the seal (3) with the pressure plate (4), and the recess (16) forms a circumferential front abutment surface (17) toward the seal (3).

3. The control flap (1) of claim 1, wherein the seal (3) has a convex sealing lip (6) toward the sealing surface (7).

4. The control flap (1) of claim 1, wherein the seal (3) has an undercut (10) to receive an edge section (11) of the pressure plate (4).

5. The control flap (1) of claim 4, wherein the pressure plate (4) has first fixing lugs (18) at its edge section (11) toward the adjacent inner contact surface (12) of the seal (3).

6. The control flap (1) of claim 5, wherein the circumferential front abutment surface (17) of the recess (16) of the flap body (2) has second fixing lugs (19) toward the rear contact surface (14) of the seal (3).

7. The control flap (1) of claim 2, wherein the pressure plate (4) has a central receiving indentation (22) with a central ventilation opening (23), the recess (16) of the flap body (2) has a central connection frustum (24) that is received by the receiving indentation (22) of the pressure plate (4).

8. The control flap (1) of claim 1, wherein the pressure plate (4) and the flap body (2) are made of the same thermoplastic.

9. The control flap (1) of claim 1, wherein the pressure plate (4) is welded to the flap body (2).

10. The control flap (1) of claim 1, wherein the thermoplastic comprises at least one polyamide and has a glass fiber content.

11. The control flap (1) of claim 1, wherein the seal (3) is made of a fluoro-rubber.

12. A method for producing the control flap of claim 1, comprising: a) producing the flap body (2) from a thermoplastic using an injection molding process; b) producing the pressure plate (4) from a thermoplastic using an injection molding process; c) producing the seal (3) from an elastomer using an injection molding process; d) introducing the pressure plate (4) into the undercut (10) of the seal (3); e) inserting the pressure plate (4) with the seal (3) into the recess (16) of the flap body (2); and f) bonding the pressure plate (4) and flap body (2).

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0032] FIG. 1 shows a lateral cross-section view of a control flap with opening to be sealed and sealing surface.

[0033] FIG. 2 shows a lateral cross-section view of the control flap from FIG. 1.

[0034] FIG. 3 shows a lateral view of the control flap of FIG. 2 from Direction III.

[0035] FIG. 4 shows a lateral cross-section view of Detail IV from FIG. 2.

[0036] FIG. 5 shows a lateral cross-section view of the seal from FIG. 1.

[0037] FIG. 6 shows a lateral view of the seal from FIG. 5 from Direction VI.

[0038] FIG. 7 shows a lateral cross-section view of Detail VII from FIG. 5.

[0039] FIG. 8 shows a lateral cross-section view of the pressure plate from FIG. 1.

[0040] FIG. 9 shows a lateral cross-section view of the flap body from FIG. 1.

DETAILED DESCRIPTION

[0041] A control flap 1 that can be used, among other things, as a control flap (exhaust gas recirculation flap) for exhaust gas recirculation on the low-pressure side of a turbocharger (not shown), essentially consists of a flap body 2, a seal 3 and a pressure plate 4.

[0042] According to the embodiment of FIG. 1, the control flap 1 is mounted to be pivotable around an axis 5 and, in a sealing position, abuts with a sealing lip 6 of its seal 3 against a sealing surface 7 of an opening 8 to be sealed. Due to the required rigidity, the flap body 2 and the pressure plate 4 are made of a thermoplastic. Although in principle, different thermoplastics can be used for the flap body 2 and the pressure plate 4, bonding a flap body 2 and pressure plate 4 by means of a welding process has proven successful using the same thermoplastic. Due to the required elasticity of the seal 3, making the seal 3 from an elastomer has proven successful.

[0043] According to the embodiment of FIGS. 1 to 9, the seal 3, facing toward the sealing surface 7, has a sealing lip 6 that is convex in shape. Furthermore, the seal 3, facing toward the sealing surface 7, has an annular facing surface 9, beyond which the sealing lip 6 projects in the direction of the sealing surface 7, i.e. facing away from the pressure plate 4. In a direction away from the sealing lip 6 and the facing surface 9 and toward the flap body 2, the seal 3 has an undercut 10 for receiving a circumferential edge section 11 of the pressure plate 4. The undercut 10 has an inner contact surface 12 upon which the pressure plate 4 with a rear abutment surface 13 of its edge section 11 abuts. At a distance from the inner contact surface 12, the seal 3 has a rear contact surface 14.

[0044] The flap body 2, on its front side 15 facing toward the sealing surface 7 to be sealed, has a recess 16 with a circumferential front abutment surface 17, upon which the seal 3 with its rear contact surface 14 abuts in the assembled state.

[0045] In the exemplary embodiments, the rear abutment surface 13 of the pressure plate 4 has, at its edge section 11 toward the adjacent inner contact surface 12 of the seal 3, first fixing lugs 18. The first fixing lugs 18 are shaped as convex or conical protrusions that press into the adjacent inner contact surface 12 of the seal 3 and support the fixing of the seal 3 in the assembled state. Accordingly, the front abutment surface 17 of the flap body 2 has second fixing lugs 19 toward the rear contact surface 14 of the seal 3. The second fixing lugs 19 are formed as convex or conical protrusions, like the first fixing lugs 18. The second fixing lugs 19 press into the adjacent rear contact surface 14 of the seal 3 and also support the fixing of the seal 3 in the assembled state. In this manner, the seal 3 is additionally fixed both at its inner contact surface 12 as well as at its distanced rear contact surface 14 by the fixing lugs and is rigidly clamped in the assembled state between the pressure plate 4 and the flap body 2.

[0046] By means of the undercut 10, the pressure plate 4 made of a thermoplastic can be “clicked into,” i.e. relatively rigidly set into, the seal 3 made of an elastomer. Next, the pressure plate 4 together with the seal 3 can be set into the recess 16 of the flap body 2 and the pressure plate 4 can be bonded to the flap body 2 by welding, for example.

[0047] The pressure plate 4, toward the opening 8 to be sealed, has a front surface 20 and toward the front abutment surface 17 of the flap body 2, has a rear surface 21 with a central frustum-shaped receiving indentation 22. The pressure plate 4 can additionally have a central ventilation opening 23 connected to the receiving indentation 22. The recess 16 of the flap body 2 has a central connection frustum 24 that is at least partially received by the receiving indentation 22 of the pressure plate 4. When the receiving indentation 22 and connection frustum 24 are joined together, air can escape through the central ventilation opening 23. The pressure plate 4—with clicked-in, i.e. set in seal 3—and the flap body 2 can be bonded together via the central connection frustum 24 of the flap body 2 and the receiving indentation 22 of the pressure plate 4, such as by plastic welding.

[0048] A thermoplastic based on at least one polyamide is suitable for the thermoplastic for both the flap body 2 as well as the pressure plate 7.

[0049] To increase rigidity and temperature resistance, the thermoplastic has a glass fiber content. A thermoplastic known in the ISO 1874 designation as “PA66+PA6, MHR, 14-11ON, GF35” has proven itself especially well.

[0050] An elastomer that is a fluoro-rubber has proven a suitable elastomer for the seal 3.

LIST OF REFERENCE NUMBERS

[0051] 1 control flap [0052] 2 flap body [0053] 3 seal [0054] 4 pressure plate [0055] 5 axis [0056] 6 sealing lip of 3 [0057] 7 sealing surface [0058] 8 opening [0059] 9 facing surface of 3 [0060] 10 undercut of 3 [0061] 11 edge section of 4 [0062] 12 inner contact surface of 10 [0063] 13 rear abutment surface of 4/11 [0064] 14 rear contact surface of 3 [0065] 15 front side of 2 [0066] 16 recess of 2 [0067] 17 front abutment surface of 2 [0068] 18 first fixing lugs of 13 [0069] 19 second fixing lugs of 17 [0070] 20 front surface of 4 [0071] 21 rear surface of 4 [0072] 22 receiving indentation of 4′ [0073] 23 ventilation opening of 4 [0074] 24 connection frustum of 2