DE10046712A1 - Shock absorber esp. for washing machine with spinning operation with tubular housing with plunger guided sliding in this and measuring element is respectively connected with housing and plunger and their relative position - Google Patents

Abstract

A friction damping unit is provided for producing a specified frictional damping between the housing (11) and the plunger (13), so that in the region of a specified alteration (DELTA T) of the push-in depth (T) of the plunger (13), compatred to the housing (11) is movable, approximately free of arresting friction. The first measuring element or the second measuring element has a coil unit (53). The coil unit has one or two coils (54,55).

Description

The invention relates to a damper, especially for washing machines with spin cycle.

From DE 22 04 325 C2 is a drum washing machine with Federbei or friction dampers to dampen the vibrations of the washing machine Known aggregate. These each have a housing with a ver slide-guided ram. To determine the insertion depth of the The plunger is hollow with a permanent magnet. The Ge The damper housing is arranged in the extension direction of the tappet the plunger surrounding ring coil is provided, which is able to the Posi tion of the permanent magnet to be detected in the toroid. Through the known device it is possible to set a certain predetermined critical Determine insertion depth of the plunger, and for example the Interrupt spin cycle due to particularly strong vibrations. The result is therefore only digital. The disadvantage of this arrangement is that the position of the plunger cannot be determined continuously. In addition, the Ge upstream of the coil velvet arrangement longer. Another disadvantage is that the determination of the Zula the washing unit is not possible because of the large Stiction between the friction lining and the housing no depth The measure of the payload is.

The invention has for its object a damper with a Ge to provide housing and a slidably guided plunger, where the insertion depth of the plunger into the housing is as simple as possible  can be determined and from this the acting on the plunger thrust can be determined.

The object is solved by the features of claim 1. The core the invention is that with the housing and the plunger each a measuring element is connected, the relative position of each other by electrical interaction is determined, the plunger over a Part of the insertion depth is an essentially idle stroke free of static friction having. This enables e.g. B. the weight of dry laundry and measure the water at rest and / or dynamic imbalance to be recorded during operation.

Further advantageous embodiments of the invention result from the Dependent claims.

Additional features and details of the invention emerge from the Description of 7 exemplary embodiments with reference to the drawing. It shows gene:

Fig. 1 is a drum type washing machine in a schematic representation in side view with the spring legs,

Fig. 2 is a drum type washing machine shown in FIG. 1 in front view,

Fig. 3 is a drum type washing machine in a schematic representation in side view with friction dampers,

Fig. 4 is a drum type washing machine shown in FIG. 3 in front view,

Fig 5 guide die. A longitudinal section of a strut according to a first stop,

Fig. 6 shows a longitudinal section of a strut according to a second embodiment,

Fig. 7 is a longitudinal sectional view of a friction damper according to an embodiment of he most,

Fig. 8 is a longitudinal sectional view of a friction damper according to a second embodiment,

Fig. 9 is a longitudinal sectional view of a friction damper according to a third embodiment,

Fig. 10 is a longitudinal sectional view of a friction damper according to a ge genüber Fig. 9 slightly modified fourth execution form,

Fig. 11 is a longitudinal section of a friction damper according to a slightly different from Fig. 8 fifth Ausfüh approximate shape and

Fig. 12 shows an enlarged detail of the friction damper ge in FIG. 11.

The drum washing machine with horizontal drum axis 1 shown in FIGS . 1 and 2 has an oscillating washing unit 2 with a drive motor 3 which drives a washing drum (not shown in detail) via a belt drive 4 . Other components connected to the washing unit 2 , for example a gear, are not shown for the sake of simplicity. The oscillating washing unit 2 is supported by two spring legs 5 described in more detail below in relation to a machine frame 7 standing on the floor 6 and forming a base frame. A washing machine housing 8 which gives the washing unit 2 is supported and connected to the machine frame 7 . The input and removal of laundry takes place through a flap 10 arranged on an end face 9 of the washing unit 2 . Each strut 5 has a tubular housing 11 with a central longitudinal axis 12 , in which a plunger 13 is guided slidably ver. A stop 14 is fastened in the region of the free end of the plunger 13 . One of the outside of the housing 11 section of the plunger 13 surrounding, biased compression spring 15 is supported against the stop 14 on the one hand and the stößelausgangsseiti conditions end of the housing 11 on the other hand, so that the plunger 13 against the force of the spring 15 in the housing 11th can be inserted. At the free end of the plunger 13 , an elastic link 16 is provided. This has a bearing 17 connected to the washing unit 2 , which is braced with the plunger 13 via elastic blocks 18 . In the same way, the free end of the housing 11 is articulated on the machine frame 7 .

The drum washing machine according to FIGS. 3 and 4 differs from that according to FIGS. 1 and 2 in that the washing unit 2 is suspended on the machine housing 8 by means of helical tension springs 19 . The tension springs 19 are attached on the one hand to eyelets 20 which are attached in the upper area of the washing unit 2 . On the other hand, they are suspended from eyelets 21 which are formed on the cover plate 22 of the washing machine housing 8 . On the underside of the washing unit 2 , two friction dampers 23 , which are described in more detail below, are attached in the center in the longitudinal direction and are connected to the machine frame 7 . Each friction damper 23 has a cylindrical housing 24 with a central longitudinal axis 25 , in which a plunger 26 is slidably guided coaxially. At the tappet exit end 27 of the housing 24 , a damping housing 28 is formed therein. A friction-damping covering 29 is fastened therein, which lies against the plunger 26 on the circumferential side. The plunger 26 has at its free end a joint bushing 30 as a link element, by means of which the friction damper 23 is attached to a bearing 36 on the washing unit 2 such that the friction damper 23 about a pivot axis 32 relative to the washing unit 2 is pivotable, the par allel to the drum axis 1 . At the outer end 33 of the housing 24 there is also an articulated bushing 34 , the pivot axis 35 of which, like the pivot axis 32, intersects the central longitudinal axis 25 perpendicularly. With this joint sleeve 34 , the friction damper 23 is attached to a bearing 31 on the machine frame 7 in such a way that the pivot axis 35 also runs parallel to the drum axis 1 .

The structure of the spring strut 5 according to a first embodiment is described in more detail below with reference to FIG. 5. At the Ge in the housing interior 37 of the housing 11 end of the plunger 13 , a damping piston 38 is provided which has an annular groove 39 , which is limited in the longitudinal direction by annular stops 40 , 41 , which is a part with the damping piston 38th are trained. Arranged in the annular groove 38 is a ring-cylindrical damping ring 42 which has an annular groove 43 on the outer circumference side, in which a friction damping coating 44 is provided. The damping ring 42 can be displaced in the annular groove 39 approximately without friction relative to the damping piston 38 . The friction-damping coating 44 is rubbing against the inside 45 of the housing 11 . The friction-damping coating 44 can consist of a lubricant-impregnated, foamed, closed-cell polyurethane. In the area of the tappet outlet end 46 of the housing 11 , a ring-cylindrical guide bushing 47 is seen before, which is connected to the housing 11 via beads 48 . In the Füh approximately bushing 47 , the plunger 13 is guided. For stabilization, the guide bushing 47 has a guide tube 50 , which is formed in one piece with the guide bushing 47 and is opposite to the insertion direction 49 and is surrounded by an annular cylindrical stop 51 , against which the helical compression spring 15 is attached to it is supported in the insertion direction 49 end.

The strut 5 has a tappet position measuring device for detecting the insertion depth T of the tappet 13 in the housing 11 . The Meßein direction has an annular cylindrical encoder 52 which is attached to the end in the insertion direction 49 of the end of the damping piston 38 coaxially to the central longitudinal axis 12 . The encoder 52 is made of metal, in particular iron or another ferritic material. The hous se 11 consists of a magnetically permeable, in particular non-metallic material. The measuring device also has a coil unit 53 which, in the case shown in FIG. 5, consists of two coils 54 and 55 connected in series. The coils 54 , 55 are connected via electrical connection lines 56 to an evaluation unit 57 . The coil unit 53 can, in particular, consist of one or two coils which are arranged adjacent to one another and surround the housing 11 in a cylindrical manner. The coil unit 53 extends in the longitudinal direction, in particular at least over the length that is covered by the encoder 52 at the maximum insertion depth T of the plunger 13 .

In the event that the coil unit 53 has exactly one coil 54 , the measuring device is a so-called inductive displacement sensor. In this, the inductance is changed by inserting the encoder 52 into the interior of the coil 54 . The evaluation of the inductance of the coil 54 is carried out on a quarter bridge that is generally known in electrical engineering. The advantage of this arrangement is the completely simple structure. The disadvantage is that changes in the insertion depth T are proportional to the change in inductance only in a narrow range around the operating point of a given insertion depth T.

In the event that the coil unit 53 has two coils 54 and 55 connected in series, as shown in FIG. 5, the measuring device is a so-called differential choke. At the connecting lines 56 , an electrical signal is applied or tapped from these. By moving the encoder 52 in the interior of the coils 54 , 55 , their inductance is changed. Over approximately 80% of the length of the coils 54 , 55 there is essentially a linear relationship between a change in the insertion depth T and the inductance.

The evaluation of the insertion depth T via the change in inductance presupposes that the transmitter 52 consists of a ferromagnetic material, for example, iron / steel. If an evaluation of the insertion depth takes place via an eddy current effect, then the encoder 52 should be made of a non-ferromagnetic but electrically conductive material, for example made of aluminum.

To operate the washing machine, the washing unit 2 is first loaded with laundry. As a result, the plunger 13 sinks from the initial position shown in FIG. 5 into the housing 11 , so that the insertion depth T is increased. The plunger 13 is inserted essentially without static friction over a range ΔT until the damping ring 42 comes into contact with the stop 41 . The plunger 13 thus has an empty stroke. In this range, the change ΔT in the insertion depth T is substantially proportional to the insertion force acting on the tappet 13 , so that the weight of the laundry loaded is measured by measuring the change ΔT in the insertion depth T of the spring struts 5 of the washing machine can. The insertion force can be calculated via the spring constant of the spring 15 and the change ΔT. When the plunger 13 is pushed further into the housing 11 , the movement is now damped by the friction-damping coating 44 . The spring force of the spring 15 is set such that the damping ring 42 does not come into contact with the stop 41 during loading. In addition, it is possible to measure the amount of water supplied and to measure an imbalance in the washing unit 2 due to uneven loading due to different insertion depths T between the different spring struts 5 . The evaluation mass 57 determines the payload mass of the washing unit 2 and any imbalance that may be present. During operation and in particular during the spinning process, the washing unit 2 vibrates, the amplitude of which is so large that the damping ring 42 alternately comes into contact with the stops 40 and 41 , so that the movement of the plunger 13 by the Friction-damping coating 44 is damped. The amplitude of the vibrations can be determined at any time by measuring the insertion depth T. If the amplitudes of the vibrations become too large, the spin speed can be reduced or the spin process can be stopped based on signals from the evaluation unit 57 . It is possible to provide only one of the spring struts 5 with a plunger position measuring device in the drum washing machine described at the outset. The other strut 5 can be designed as usual.

A second embodiment of the strut 5 'is described below with reference to FIG. 6. Identical parts are given the same reference numerals as for the strut 5 according to the first embodiment, to the description of which reference is hereby made. Structurally different, but functionally similar parts get the same reference numbers with a prime. The central difference compared to the first embodiment is that the damping ring 42 'is not, as in the first embodiment, essentially freely displaceable relative to the damping piston 38 '. Between the damping ring 42 'and the stops 40 ' and 41 'coaxial to the central longitudinal axis 12 ring-cylindrical, biased compression springs 58 and 59 are provided. These ensure that the damping ring 42 'is regularly arranged in the rest position shown in FIG. 6 centrally between the stops 40 ' and 41 '. On the function described in the context of the first embodiment, the compression springs 58 , 59 have an impact in that not only the helical compression spring 15 , but also the compression spring 59 are compressed when the plunger 13 is inserted slightly, which is important in determining the mass of the washing - Unit 2 from the insertion depth T is to be taken into account by the evaluation unit 57 .

The friction damper 23 according to a first embodiment will be described in more detail below with reference to FIG. 7. At the end of the plunger 26 located in a thrust direction 60 , a guide piston 61 is formed which has two longitudinally offset, integrally formed annular guide webs 62 , 63 , between which an annular groove 64 is formed. The guide webs 62 , 63 bear in a leading manner on the inner wall 65 of the housing 24 . In the annular groove 64 , a ring-cylindrical damping ring 66 is provided, which has a lining ring groove 67 along the outer circumference, in which the friction damping lining 29 is arranged, which abuts the inner wall 65 in a frictional manner. The friction damping covering 29 consists of foamed plastic or felt impregnated with lubricant. The guide piston 61 can be displaced relative to the damping ring 66 in the region of the longitudinal extent of the annular groove 64 , essentially without static friction. At the opposite end of the insertion direction 60 of the housing 24 , the ses is provided with a bead 68 so that the plunger 26 cannot be pulled out of it. The plunger 26 and the guide piston 61 are made in one piece from plastic. The housing 24 consists of a non-metallic material, in particular plastic, or of a magnetically permeable metal.

The plunger position measuring device has an at the lying in the insertion direction 60 end of the plunger 26 coaxial with the central longitudinal axis 25 arranged, annular cylindrical encoder 69 . Furthermore, a coil unit 70 is provided with two coils 71 , 72 which are arranged adjacent to one another and surround the housing 24 in ring-cylindrical fashion and are electrically conductively connected to an evaluation unit 74 via connecting lines 73 . With regard to the structure of the transmitter 69 and the coil unit 70 , reference is made to the description of the transmitter 52 and the coil unit 53 of the spring strut 5 according to the first embodiment.

With regard to the description of the operating function of the friction damper 23 , reference is made to that of the spring strut 5 . As with the spring strut 5 , the tappet 26 can be inserted essentially without static friction via a change ΔT in the insertion depth T which represents an idle stroke, until the web 63 comes into contact with the damping ring 66 . If the movement continues in the same direction, the frictional force between the friction-damping coating 29 and the inner wall 65 must be overcome. The friction damper 23 is thus equally as the spring leg 5 suitable to measure both the payload of the washing unit 2 and possibly unbalance and to determine the amplitude of the washing unit vibrations in the spin cycle. Unlike the spring strut 5 , the evaluation unit 74 must also take into account the counter forces exerted by the coil tension springs 19 on the washing unit 2 . As with the spring strut 5 'according to the second embodiment, it is possible to support the damping ring 29 with compression springs 58 , 59 with respect to the webs 62 and 63 , whereby the same effects described there arise.

The friction damper 23 'according to a second embodiment will be described below with reference to FIG. 8. Identical parts are given the same reference numerals as in the friction damper 23 according to the first embodiment, to the description of which reference is hereby made. Structurally different, but functionally similar parts are given the same reference numerals with a prime. The central difference from the first embodiment is the structure of the ram position measuring device. At the end of the housing 24 located in the insertion direction 60 , a base 75 is provided connected to the housing 24 via a bead 76 . On the base 75 there is arranged a pin 77, which is arranged coaxially to the central longitudinal axis 25 and protrudes counter to the direction of insertion 60 , on the free end of which the transmitter 69 'is fastened. The pin 77 is made of a non-metallic material, such as. B. plastic. The encoder 69 'is surrounded by the material of the pin 77 , in particular plastic. The guide piston 61 'has coaxially to the central longitudinal axis 25 an open at the insertion direction 60 at the end of the insertion channel 78 , which is so formed that the pin 77 with the encoder 69 ' in this when inserted of the plunger 26 'can be inserted without contact. The coil unit 70 'has two coils 71 ' and 72 'which are arranged adjacent to one another and which surround the insertion channel 78 in a ring-cylindrical manner and which are arranged adjacent to one another on the guide piston 61 '. The Verbindungsleitun gen 73 'are made of the plunger 26' led out in the region of the free end such that they 'not gen an insertion of the plunger 26 impair., With regard to the further construction and functioning of the plunger position sensing means to the description of the first Execution example of the friction damper 23 referenced. The main un difference is that the encoder 69 'is fixedly connected to the housing 24 and the coil unit 70 ' with the plunger 26 can be inserted into the housing 24 . This has the advantage that the housing 24 made of any material, such as. B. steel, can be made, since the co-operation between encoder 69 'and coil unit 70 ' takes place entirely within half of the housing 24 .

The friction damper 23 ″ according to a third embodiment is described below with reference to FIG. 9. Identical parts are given the same reference numerals as the friction damper 23 according to the first embodiment, to the description of which reference is hereby made. Structurally different, but functionally similar parts are given the same reference numerals with two prime lines. The housing 24 '', the end of which is located in the insertion direction 60 is closed with a bottom 79 , has a stop collar 80 at the opposite end of the insertion direction 60 to which there is an annular cylindrical receiving section 81 with latching lugs 82 Locking arms 83 connects. The damping ring 66 ″ is arranged displaceably in the annular space 84 formed between the receiving section 81 and the tappet 26 ″. The damping ring 66 ″ lies on the outer circumference on the inner side of the receiving section 81 in a manner that is essentially free of friction. On the inside, the damping ring 66 ″ has the friction damping covering 29 , which abuts the plunger 26 ″ in a rubbing manner. On the acquisition section 81 is closed by a ring-cylindrical cover 85 with locking openings 86 into which the locking lugs 82 engage. On the insertion direction 60 pointing inside of the lid 85 and the counter to the insertion direction 60 facing inner side of the stop collar 80 are 87 and 88 respectively provided stops. The plunger 26 '' has a made of metal, in particular steel, Rei section 89 , which is in contact with the lining 29 . In the area of the housing interior 90 , the plunger 26 ″ has a transmitter support section 91 connected to the section 89 , which is made of a non-metallic material, in particular plastic. The transmitter 69 ″ is arranged in the region of the end of the section 91 in the insertion direction 60 . The housing 24 '' is made of a non-metallic material, in particular plastic. With regard to the structure and operation of the encoder 69 ″ and the coil device 70 , reference is made to the description of the friction damper 23 according to the first exemplary embodiment.

With regard to the description of the operating function of the friction damper 23 ″, reference is also made to that of the friction damper 23 . The central difference is that with small insertions of the plunger 26 '' of the damping ring 66 in the receiving section 81 is moved in a manner essentially free of static friction to form an idle stroke until it comes to a stop with the stop 88 . The evaluation of the load of the washing unit 2 , a possible unbalance and the determination and vibration amplitudes is thus equally possible. It is possible to bias the damping ring 66 '' with compression springs against the strikes 87 , 88 , as described for the strut 5 'according to FIG. 6.

The friction damper 23 '''of FIG. 10 according to a fourth execution form differs from that of FIG. 9 only in that the plunger 26' '' is not a separate transducer is mounted, but that as the transmitter 69 ''', the edge of the plunger 26 ''', that is, its end located in the housing interior 90 .

In the following, with reference to FIGS. 11 and 12 of the bung Rei damper 23 'described''' according to a fifth embodiment.

The structure is similar to the friction damper 23 'shown in FIG. 8, to the description of which reference is hereby made. Identical parts are given the same reference numerals as in the friction damper 23 'according to the second embodiment. Structurally different, but functionally similar parts are given the same reference numerals with four prime lines. The plunger 26 'has an annular cylindrical wall 92 in the area of its inside of the housing, in which radially outwardly extending recesses 93 are provided. At the end of the wall 92 located in the insertion direction 60 , the radially projecting, annular guide web 63 is provided. The guide piston 61 '''' comprises wesentli chen the shape of an annular cylindrical sleeve, the direction of insertion 60 proximal end are provided radially outwardly projecting detents 94 on its opposite to that in latched engagement with the latching recesses 93 are located. The radially outwardly projecting guide web 62 is provided at the end of the guide piston 61 '''' in the insertion direction 60 , the annular groove 64 being delimited in the axial direction by the guide webs 62 and 63 . As with the exporting approximate shape shown in FIG. 6, two compression springs 95 and 96 are provided between the damping ring 66 and the guide ridge 63 on the one hand and the damping ring 66 and the Füh approximately-web 62 on the other hand arranged to ensure that the damping ring 66 is arranged approximately centrally between the two webs 62 and 63 . Arranged at the end of the guide piston 61 '''' in the insertion direction 60 is a cylindrical ring 97 formed as a transmitter 69 '''', which is arranged in a corresponding annular groove 98 on the inside of the guide piston 61 '''' is set. The ring 97 is made of metal, in particular aluminum. The cylindrical pin 77 made of metal, in particular iron, carries the coil unit 70 '''', which consists of a coil 71 ', in particular made of copper wire, arranged on the surface of the pin 77 . The coil 71 is insulated from the pin 77 by a thin plastic layer 102 , the individual windings of the coil 71 'also being insulated from one another. At the end of the pin 77 lying opposite to the insertion direction 60 , a spacer 99 projecting radially with respect to the pin 77 and the coil unit 70 '''' is provided, which has a cross section, between the spacer 99 and the inner wall 100 of the guide piston 61 '''' there is a game. The spacer 99 ensures that the coil 71 'does not come into contact with the transmitter 69 ''''. This is particularly important when transverse forces act on the friction damper 23 '''or the pin 77 warps. The connecting line 73 ″ ″ is led from the end of the coil 71 ′ lying in the insertion direction 60 through the base 75 to a plug 101 , from which a connection to the evaluation unit 74 can be established. An advantage of this arrangement is that the housing 24 can be selected from the metal tappet position measuring device without disadvantage. In addition, there are no electrical components on the moving plunger 26 ', so that the plunger position measuring device is as robust as possible. By means of the snap-in connection of the guide piston 61 '''', the ring 97 can first be connected to it before the guide piston 61 '''' is connected to the tappet 26 '. Otherwise, the insertion depth T is determined as in the embodiment according to FIG. 8.

Claims (12)

1. Damper ( 5 ; 5 ';23; 23 '; 23 ''; 23 '''; 23 ''''), in particular for washing machines with a spin cycle, with

• a) a central longitudinal axis ( 12 ; 25 ) having a tubular housing ( 11 ; 24 ; 24 ''),
• b) a plunger ( 13 ; 26 ; 26 '; 26 ''; 26 ''') slidably guided in the housing ( 11 ; 24 ; 24 '') and protruding from one end thereof,
• c) fastening elements ( 18 ; 30 , 34 ) attached to the free end of the housing ( 11 ; 24 ; 24 '') and the plunger ( 13 ; 26 ; 26 '; 26 ''; 26 '''),
• d) a plunger position measuring device for detecting the insertion depth T of the plunger ( 13 ; 26 ; 26 '; 26 ''; 26 ''') into the housing ( 11 ; 24 ; 24 ''), which has
  • a) a first measuring element connected to the housing ( 11 ; 24 ; 24 ''),
  • b) with the plunger ( 13 ; 26 ; 26 '; 26 ''; 26 ''') connected to the second measuring element for electrical and / or magnetic interaction with the first measuring element, the first measuring element and the second measuring element being insertable into one another are and
  • c) an evaluation unit ( 57 ; 74 ), which is electrically conductively connected to the first measuring element or the second measuring element, for giving electrical signals and for receiving and processing electrical signals for determining the insertion depth T and
• e) a friction-damping unit for generating a predetermined friction damping between the housing ( 11 ; 24 ; 24 '') and the plunger ( 13 ; 26 ; 26 '; 26 ''; 26 '''), in the area a predetermined change ΔT of the insertion depth T of the plunger ( 13 ; 26 ; 26 '; 26 ''; 26 ''') relative to the housing ( 11 ; 24 ; 24 '') can be displaced almost without static friction.

2. damper ( 5 ; 5 ';23; 23 '; 23 ''; 23 '''; 23 '''') according to claim 1, characterized in that the first measuring element or the second measuring element is a coil unit ( 53 ; 70 ; 70 '; 70 ''''). 3. damper ( 5 ; 5 ';23; 23 '; 23 ''; 23 '''; 23 '''') according to claim 2, characterized in that the coil unit ( 53 ; 70 ; 70 '; 70 '''') has one or two coils ( 54 , 55 ; 71 , 72 ; 71 ', 72 '). 4. damper ( 5 ; 5 ';23; 23 '; 23 ''; 23 '''; 23 '''') according to claim 2 or 3, characterized in that the first measuring element or the second measuring element, which no coils -Unit ( 53 ; 70 ; 70 '; 70 '''') has, as transmitter ( 52 ; 69 ; 69 '; 69 ''; 69 '''; 69 '''') is formed from metal. 5. damper ( 5 ; 5 ';23; 23 '; 23 '''') according to claim 4, characterized in that at the inside of the housing end of the plunger ( 13 ; 26 ; 26 ') an an annular groove ( 39 ; 64 ; 96 ) having a piston ( 38 ; 61 ; 61 '; 61 '''') is provided. 6. damper ( 5 ; 5 ';23; 23 '; 23 '''') according to claim 5, characterized in that the friction-damping unit in the annular groove ( 39 ; 64 ) longitudinally displaceable damping ring ( 42nd ; 42 '; 66 ), which abuts the inner wall ( 45 ; 65 ) of the housing ( 11 ; 24 ). 7. damper ( 5 ') according to claim 6, characterized in that the annular groove ( 64 ) has longitudinal stops ( 40 ', 41 ') and between these and the damping ring ( 42 ') biased compression springs ( 58 , 59 ) arranged are. 8. damper ( 23 '') according to claim 4, characterized in that at the tappet outlet end of the housing ( 24 '') an annular cylindrical receiving portion ( 81 ) with a displaceable therein, against the tappet ( 26 '') friction damping adjacent damping ring ( 66 '') is provided. 9. damper ( 5 ; 5 ';23; 23 '') according to one of claims 5 to 8, characterized in that the transmitter ( 52 ; 69 ; 69 '') at the housing-side end of the plunger ( 13 ; 26 ; 26 '') and the coil unit ( 53 ; 70 ) the housing ( 11 ; 24 ; 24 '') is arranged in a ring-cylindrical manner. 10. damper ( 23 '; 23 '''; 23 '''') according to claim 4, characterized in that a guide piston ( 61 '; 61 '''') on the inside of the plunger ( 26 '). with an insertion channel ( 78 ) arranged coaxially to the central longitudinal axis ( 25 ). 11. Damper ( 23 ') according to claim 10, characterized in that the coil unit ( 70 ') on the guide piston ( 61 ') is arranged around the insertion channel ( 78 ) in a ring-cylindrical manner. 12. Damper ( 23 ') according to claim 11, characterized in that in the region of the free end of the housing ( 24 ) arranged coaxially to the central longitudinal axis ( 25 ), a transmitter ( 69 ') carrying pin ( 77 ) is provided, which can be inserted into the insertion channel ( 78 ).