DE3807913C1 - Hydraulic, controllable oscillation damper (shock absorber) - Google Patents

Abstract

Hydraulic, controllable oscillation damper in which an electromagnetically actuated valve, consisting of a coil, an armature, a tube and a magnetic return path pot, is provided for controlling the damping force. Here, the valve, the tube and the armature are permanently connected to the working cylinder and the coil which is held in the floor of the oscillation damper can be connected from the outside to an electric terminal, the tube which contains the armature being surrounded by the cylindrical coil.

Description

The invention relates to a hydraulic, adjustable vibration damper with a working cylinder and a damping device in the bottom area of the Vibration damper with an electromagnetically operated valve, which has a cylindrical coil, a Anchor, a tube and a yoke controlled is.

Vibration dampers for vehicles are already known (DE-OS 34 06 875, EP-OS 1 61 872) where a driving damping system with a variable electronic Damping control is provided. To optimize driving comfort, driving safety and driving behavior during the Driving is in the area of the floor of the Schwin tion damper provided a damping valve, which as is formed electronically controllable valve, wherein a control of the Valves can be made from the outside.

However, the assembly or assembly of such a construction is complex and difficult, since the valve with its individual parts must be installed in the vibration damper. Replacing or retrofitting in a shock absorber or a replacement cartridge for a shock absorber is particularly unfavorable, because the entire unit including the steering knuckle must be dismantled. In particular, the electrical connection must be disconnected and reinstalled.

The object of the invention is to provide a vibration damper with a simple, inexpensive and easy to assemble Lichen electromagnetic valve to provide that so probably a simple assembly, an exchange or a easy retrofitting of a valve as well as a simple one electrical connection can be made.

To achieve this object, the invention provides that the valve, the tube and the armature of the valve with form the working cylinder and the coil as independent component in the bottom area of the vibration damper mounted and via a separable plug contact is electrically connectable, the anchor of Ven tubes containing tils into the coil during assembly dives.

The advantage here is that individual units ago are adjustable, the valve itself with the exception of Coil is already part of the working cylinder and that after mounting the coil in the bottom of the working cylinder only the electrical connection from the outside got to.

A particularly favorable electrical contact is reached when the respective end of the winding of the coil has a plug contact.

Another essential feature is that the Coil is surrounded by a yoke pot with a Recess for the passage of the electrical supply is provided. This embodiment offers in advantageously standardization of the individual Components in which the yoke pot on an ent speaking bobbin is designed, the outside dimensions of the yoke with the help of a appropriate seal to the respective dimensions of the Vibration damper can be adjusted. About the Aus The electromagnetic valve is taken over the elec trical connection can be controlled from the outside.

To achieve a rotationally symmetrical arrangement and thus a simple manufacture of the components is featured  see that the contact surfaces are axially one behind the other are arranged and ver over the entire circumference of the coil to run. They can be designed in the form of a groove be so that a special positioning of the coils body in the bottom of the shock absorber is not required.

In another embodiment of the invention, that the plug contacts raised against the coil forms and are form-fitting in the recess of the back intervene in the end pot. Such training offers itself when the plug contacts on the same circumference should be arranged in parallel next to each other. Here must the coil in the interior of the vibration damper exactly be positioned to trouble the connector from the outside loose and safe to attach. This is the back closing pot in the bottom of the Vibration damper added, so that the location the plug contacts are clearly defined.

To avoid short circuits from the interior of the Vibration damper and for protection against moisture from the outside, in an embodiment of the invention, that the coil and the electrical lead relation assign the plug contacts to the interior of the Vibration damper and abge against the atmosphere are sealed.

To enable use in the need for spare parts, how to ensure the installation of a cartridge a particularly favorable embodiment that a Pa trone of a strut tight and tight with the back final pot is connected.

Preferred embodiments of the invention are in the Drawing shown schematically. It shows

Figure 1 is a vibration damper in the form of a strut in wet design together with an electromagnetic valve, cut.

Fig. 2 cut a bottom of the vibration damper as an individual part;

Fig. 3 shows a section of the bottom shown in Figure 2 in the area of the plug contacts.

Fig. 4 shows a section of the floor according to Figure 2 in the region of the rotation of the return path pot.

Figure 5 shows an embodiment of a vibration damper using a cartridge, partially cut.

Fig. 6, 7 and 8 individual sections of the embodiment shown in Fig. 5;

Fig. 9 is a vibration damper with an electromagnetic valve, in which the electrical plug contacts are arranged axially one behind the other, in section.

In the example shown in Fig. 1 damper 1 is an embodiment of a spring leg, wherein the stub axle 14 is illustrated only partially and the outer tube is provided with a spring plate 16 15. The piston rod 2 leads into the working cylinder 3 and is connected to a piston, not shown. This piston divides the working cylinder 3 into two working spaces. In the area of the bottom 8 of the vibration damper 1 there is an electromagnetically actuable valve 4 , the individual parts of the valve, the tube 6 and the armature arranged inside the tube 6 being part of the working cylinder 3 . The tube 6 is surrounded together quantitative installed state of the coil 5, where again the coil 5 is disposed within the return path pot. 7 From the outside, the electrical connecting line 9 is connected to the plug contact 10 via contact pins 17 . For this purpose, the yoke pot 7 has a recess 11 .

The electromagnetic valve 4 is sealed off from the interior 12 of the vibration damper 1 via O-rings 18 and from the atmosphere by means of the seal 19 .

The screw 20 closes the bottom 8 of the vibration damper 1, wherein first the ring nut 21 is released for removing the individual parts of the damper 1, which by use of a longer screw 20 of the return pot 7 can be pushed out together with the working cylinder. 3 Of course, other suitable tools can also be used for disassembly.

Details are given of the assembly of Figs. 2-4. In the outer tube 15 , the back circuit pot 7 is first introduced and positioned over the projection 22 . By positioning the yoke pot 7 , the recess 11 is aligned with the subsequent electrical connection 9 . The coil 5 is raised in the region of the plug contacts 10 , so that here too a perfect positioning for later connection of the electrical connection 9 takes place. Then the working cylinder 3 is inserted and clamped to the outer tube 15 via the screw ring 21 . After assembly of the seal 19 , the attachment of the elec trical connection 9 and a possible screwing, the assembly is functional.

In FIG. 5, a vibration damper 1 is shown which is used in which a cartridge. 13 By using such a cartridge 13 , either a vibration damper 1 can be retrofitted with an outer tube 15 or replaced when worn. The working cylinder 3 forms together with the tube of the cartridge 13 from the equalization space for receiving the damping agent, the cartridge 13 being firmly and sealedly connected to the return cup 7 in the lower region. The entire unit is held over the screw ring 21 . Otherwise, the design of the electromagnetic valve 4 corresponds to the form already described in FIG. 1.

From FIGS. 6 to 8 the assembly is of an arrangement, according to Fig. Refer 5, wherein between the working cylinder 3 and the cartridge 13 damping means is provided, while the outer tube 15 and air is trapped between the cartridge 13. The sealing of the electromagnetic valve 4 therefore only needs to follow it between the yoke 7 and the cartridge 13 . Between the working cylinder 3 and the back circuit pot 7 , a seal against the coil 5 is also provided. From FIGS. 7 and 8 it can be seen that the yoke pot 7 is positioned in the bottom 8 of the vibration damper via the projection 22 . The type of projection 22 is irrelevant, since any form of positive locking that only allows a single position is possible. By positioning the yoke pot 7 , the orientation of the plug contacts 10 is given, so that the electrical connection 9 can be introduced from the outside together with the seal 19 .

In Fig. 9, a further embodiment is shown ge, in which the plug contacts 10 are arranged axially one behind the other, so that both the coil 5 and the yoke cup 7 can be performed rotationally symmetrically. The contact surfaces of the plug contacts 10 run over the entire circumference in the form of a groove. It is not necessary to position the coil 5 with respect to the electrical connection 9 . In the manufacture of the damper, it is only necessary to ensure that the yoke cup 7 , which in the case of FIG. 9 also forms the damper base 8, is brought into the correct position with the recess 11 and welded.

Claims (8)

1. Hydraulic, adjustable vibration damper with a working cylinder and a damping device in the bottom area of the vibration damper with an electromagnetically actuated valve, which is controlled via a cylindrical coil, an armature, a tube and a return cup, characterized in that the valve ( 4 ), the The tube ( 6 ) and the armature of the valve ( 4 ) form a unit with the working cylinder ( 3 ) and the coil ( 5 ) is mounted as an independent component in the base area ( 8 ) of the vibration damper ( 1 ) and via a separable connection ( 10, 17 ) can be electrically connected, the tube ( 6 ) holding the armature of the valve being immersed in the coil ( 5 ) during assembly of the vibration damper ( 1 ). 2. Vibration damper according to claim 1, characterized in that the respective end of the winding of the coil ( 5 ) has a plug contact ( 10 ). 3. Vibration damper according to claim 1, characterized in that the coil ( 5 ) is from a yoke pot ( 7 ) to give, which is provided with a recess ( 11 ) for guiding the electrical supply line ( 9 ) ( Fig. 1, 5th ). 4. Vibration damper according to claim 2, characterized in that the plug contacts ( 10 ) are arranged axially one behind the other and extend over the entire circumference of the coil ( 5 ) ( Fig. 9). 5. Vibration damper according to claim 3, characterized in that the plug contacts ( 10 ) with respect to the coil ( 5 ) he have formed and positively engage in the recess ( 11 ) from the yoke pot ( 7 ) ( Fig. 2, 3). 6. Vibration damper according to claim 3, characterized in that the yoke pot ( 7 ) is positively and rotatably in the bottom ( 8 ) of the vibration damper ( 1 ) is taken up. 7. Vibration damper according to claim 1, characterized in that the coil ( 5 ) and the electrical supply line ( 9 ) or the plug contacts ( 10 ) with respect to the interior ( 12 ) of the vibration damper ( 1 ) and against the atmosphere are sealed. 8. Vibration damper according to claim 3, characterized in that a cartridge ( 13 ) of a strut is firmly and tightly connected to the yoke cup ( 7 ) ( Fig. 5).