DE19611607A1 - Combustion engine gas valve timing adjustment mechanism - Google Patents

Abstract

An arrangement (1) for altering the opening and closing times of gas valves in combustion engines, which is located in cam shaft drive mechanism, comprises a hydraulically operated adjustment piston (7) which has a sealing agent (17) on its outer mantle (25), an inner mantle (16), pressure chambers for the hydraulic agent, and a drive wheel (2) and associated drive (3). The sealing agent comprises a double lipped sealing ring with an essentially Y-shaped profile. The shanks (19,18) extend towards one of the pressure chambers (13,14), and a radial section of the agent is located in the outer mantle (25). The sealing agent (17) preferably consists of e.g. PTFE.

Description

Field of the Invention

The invention relates to a device for changing the opening and Closing times of gas exchange valves of an internal combustion engine according to the Features of claim 1.

Background of the Invention

Such a device is generic from DE-PS 38 10 804 forth. This also divides its adjusting piston with its forehead sides each have a pressure chamber for hydraulic medium, this adjustment piston radially outside has a sealing surface as a sealant, via which a undesirable transfer of the hydraulic medium from a pressure chamber into the further should be prevented. It is disadvantageous with this known one Device that in the area of the sealing surface just shown with extreme high manufacturing accuracy must be worked to the just mentioned to rule out undesired transfer of the hydraulic medium. It comes now to manufacturing inaccuracies and in addition to thermal expansion, so is to expect the loss of hydraulic fluid to increase. It should also be noted that for the communicating with the adjusting piston  Housing on its inner casing requires extensive post-processing is to achieve the desired accuracy. At the same time is through the known seal with considerable wear over the operating time seen the device, through which wear the sealing effect wears off.

Solutions are also known to the experts in which a sealing of the Adjusting piston compared to its radial surrounding part, for example a blown steel sealing ring is made. Alone by the explosive device ge of the steel sealing ring there is an undesirable disadvantageous manner hydraulic fluid overflow. Also the inner jacket of the environment Part (housing) can be machined very precisely, for example, out of roundness exclude that lead to undesirable leakages of the adjusting piston can. In order to achieve the sealing effect mentioned, the steel sealing rings with a slight preload against the inner jacket of the surrounding part sets, which also tends to wear in this sealing area disadvantageously increased.

Object of the invention

The invention is therefore based on the object of a device to create the type mentioned, in which the disadvantages identified are eliminated are and especially with simple means an excellent sealing effect is achieved on the outer jacket of the adjusting piston and at the same time the previously necessary manufacturing tolerances for the sealing area can be refined can.

Summary of the invention

According to the invention, this object is characterized by the features of the Part of claim 1 solved, expedient concretizations of the Erfin the subject of subclaims 2 to 6.  

By the double lip seal listed in claim 1 is simple Means an excellent and approximately over the life of the device The sealing effect in the area of the adjusting piston remains constant fen. The fact that leg of the double lip seal in the direction of respective pressure chamber to the inner jacket of the corresponding housing extend, the necessary axial displacement movement of the adjustment piston the sealing effect through the wedge effect of the sealing described above reinforced by means. At the same time, it is possible to achieve manufacturing tolerances or Compensate for thermal expansion and wear due to the elasticity of the sealant chen. Those listed in the prior art mentioned as disadvantageous Oil leaks are thus eliminated with simple means. Likewise succeeds it, the housing surrounding the adjusting piston as a simple deep-drawn part without elaborate rework so that the inner jacket slightly Any out of roundness can be compensated for via the sealant without the oil spills indicated occur. At the same time is the fiction contemporary means according to claim 1, the possible wear on the inner surface of the Housing largely eliminated, since the sealant housing is in the friction composite abrasive material removal is not to be expected.

In a first embodiment of the invention, the adjustment is proposed form pistons in two in the area of the sealant, in such a way that that the sealant without radial expansion in a receptacle of the adjustment piston and then this recording by a separate limitation sealing agent is closed. This limitation means is to be further developed in Invention as a ring part welded to the adjusting piston, for example be made. Spot welding is a good weld. With from The scope of the invention also includes other ver Types of connection such as caulking, gluing, soldering, Laser welding or releasable such as screws, rivets and the like.

According to the invention, it is particularly advantageous if the sealant consists of a elastic material is made, for example from PTFE or fluorochlorine  rubber. The adjusting piston can be deep-drawn or be manufactured by fine stamping.

Should the device be such that the adjusting piston only is hydraulically displaceable in an axial direction, so there is also a solution within the scope of this invention in which the sealant only a corresponding leg in the direction of the respective pressure came mer has.

Brief description of the drawing

The invention is expediently illustrated by means of a drawing Embodiment explained in more detail. Show it:

Fig. 1 shows a longitudinal section through a device for changing the opening and closing times and

Figs. 2 and 3 in an enlarged representation of the detail X of FIG. 1.

Fig. 1 shows a device 1 for changing the opening and closing times of gas exchange valves of an internal combustion engine. This device 1 is arranged within a control drive of at least one inlet or exhaust camshaft (not shown) mounted in a cylinder head, preferably on a drive wheel 2 which is in drive connection with the camshaft. The drive wheel 2 merges radially on the inside into a drive unit 3 which has a hollow cylindrical axial shoulder 4 . The axial extension 4 has radially on the inside an oblique toothing 5 , which communicates with a complementary toothed section 6 of an adjusting piston 7 . The adjusting piston 7 in turn has a radially inner and preferably helically toothed section 8 , which meshes with a toothing 9 of a non-rotatably connected output element 10 with the camshaft, not shown.

At the same time, the adjusting piston 7 has end faces 11 , 12 which limit pressure chambers 13 , 14 for hydraulic means.

The pressure chambers 13 , 14 are delimited radially outwards by a housing 15 , which is connected here in a rotationally fixed manner to the drive wheel 2 . The adjusting piston 7 is sealed against an inner jacket 16 of the housing 15 by means of a sealant 17 to be explained below. Now, in a manner known per se in the technical field, a supply of hydraulic means into one of the pressure chambers 13 or 14 causes an axial displacement of the adjusting piston 7 , whereby a relative rotation of the drive wheel 2 to the camshaft, not shown, is produced.

About the sealant 17 : According to the invention, it is proposed to produce the sealant 17 (see FIGS. 2 and 3) as a double lip sealing ring. This double lip sealing ring has approximately Y-profile, its legs 18 , 19 extending obliquely in the direction of the respective pressure chamber 14 , 13 and with its outer edge 20 on the inner jacket 16 of the housing 15 sealingly. At the same time, a radial section 21 of the sealing means 17 is fastened in a complementary receptacle 22 of the adjusting piston 7 . Since it is in the sealant 17, for example, a polymeric material, the sealant 17 can be used by radial expansion into the one-piece 22 on FIG. 3.

However, there is also provision for the receptacle 22 (see FIG. 2) to be formed in two parts. For this purpose, the end face 11 has an annular opening 23 , which is closed by a limiting means 24 designed as a circular disk. The limiting means 24 also forms with its inner end face 24 a part of the receptacle for the sealant 17th The legs 18 , 19 of the sealing means 17 , which extend specifically from the outer jacket 25 of the adjusting piston 7 , provide an excellent seal between the pressure chambers 13 , 14 . When caused by hydraulic means method of the adjusting piston 7 in one of the pressure chambers 13 or 14 , the sealing effect of the sealant 17 is reinforced by the obliquely in the respective Druckkam mer 13 or 14 extending leg 19 of the sealant 17 via Keilwir effect this.

Fig. 2 is shown in addition that the limiting means 24 is mounted at the adjusting piston 7 via a welded connection 26. At this point, caulking or a similarly suitable connection type is also conceivable.

By its legs 18 on the inner jacket 16 of the housing 15 sealant 17 , it also succeeds advantageously, manufacturing tolerances occurring on the inner jacket 16 (for example, out-of-roundness) compensate Chen without causing undesirable transgressions of hydraulic means. Elaborate rework on the inner jacket 16 of the housing 15 thus fall ent.

Reference list

1 device
2 drive wheel
3 drive unit
4 axial approach
5 teeth
6 section
7 adjusting pistons
8 section
9 gearing
10 output unit
11 end face
12 end face
13 pressure chamber
14 pressure chamber
15 housing
16 inner jacket
17 sealant
18 legs
19 legs
20 outer edge
21 radial section
22 recording
23 ring opening
24 limiting means
24 a front side
25 outer jacket
26 welded connection

Claims (6)

1. Device ( 1 ) for changing the opening and closing times of gas exchange valves of an internal combustion engine, which is arranged within a control drive of at least one inlet or exhaust camshaft mounted in a cylinder head, preferably on a drive wheel ( 2 ) which is in drive connection with the camshaft The device ( 1 ) has an adjusting piston ( 7 ) which can be displaced axially via hydraulic means and has sealing means ( 17 ) on its outer jacket ( 25 ), via which the adjusting piston ( 7 ) seals against an inner jacket ( 16 ). of a housing ( 15 ), the end faces ( 11 , 12 ) of the adjusting piston ( 7 ) delimiting pressure chambers ( 13 , 14 ), preferably for hydraulic means, and the adjusting piston ( 7 ) with two, preferably counter-rotating, helically toothed sections ( 6 , 8 ) is provided, of which the first section ( 6 ) with a complementary toothing ( 5 ) rotatably with the drive wheel d ( 2 ) connected drive unit ( 3 ) and the second section ( 8 ) with a toothing ( 9 ) of a rotationally fixedly connected to the camshaft driven unit ( 10 ) is engaged, characterized in that the sealing means ( 17 ) as a double lip sealing ring with approximately Y-profile is made in cross section, the opening in the direction of each pressure chamber ( 13 , 14 ) legs ( 19 , 18 ) with their outer edge ( 20 ) on the inner shell ( 16 ) of the housing ( 15 ) sealingly and where a radial section ( 21 ) of the sealing means ( 17 ) in a complementary receptacle ( 22 ) of the outer jacket ( 25 ) of the adjusting piston ( 7 ) is arranged stationary. 2. Device according to claim 1, characterized in that the receptacle ( 22 ) of the adjusting piston ( 7 ) on one of its end faces ( 11 or 12 ) as a ring opening ( 23 ) is made, which is at least partially by at least one separate limiting means ( 24 ) is closed. 3. Apparatus according to claim 2, characterized in that the limita tion means ( 24 ) as an outgoing from the open end face ( 11 or 12 ) of the adjusting piston ( 7 ) is formed concentric circular disk which covers at least partial areas of the ring opening ( 23 ). 4. Apparatus according to claim 2 or 3, characterized in that the limiting means ( 24 ) is coupled to the adjusting piston ( 7 ) by a welded connection ( 26 ). 5. The device according to claim 1, characterized in that the sealing means ( 17 ) consists of an elastic material at the operating temperature of the device ( 1 ) or a plastic. 6. The device according to claim 5, characterized in that the sealant ( 17 ) is made of a material such as PTFE or chlorofluorinated rubber.