DE3929229A1 - ELECTRICAL INSTALLATION DEVICE, ESPECIALLY PROTECTIVE CONTACT SOCKET - Google Patents

Abstract

The invention relates to an electrical installation apparatus, especially a safety socket. This installation apparatus has a supporting ring with retaining webs which hold a base of insulating material. The electrical connecting contacts, the earth clip and, if applicable, mechanical retaining elements and the like, are accommodated thereon. A board having overvoltage protection elements is also allocated to the insulating material base. The effectiveness of the overvoltage protection elements is indicated by means of a signalling device. The electrical installation apparatus also includes an insulating material housing which at least partially surrounds the insulating material base. This insulating material housing, together with the parts located inside it, is accommodated in the interior of a retaining socket, especially a flush-mounted socket. While the signalling device for indicating the effectiveness has in the past always been constructed as an optical signalling device it is now proposed to use an accoustic signalling device. This may consist, for example, of accoustic signalling devices of the type known under the designation "buzzers". In order to facilitate economical production of the electrical installation apparatus, it is provided for the insulating material housing to be fixed to parts of a commercially available electrical installation apparatus, which exists in any case. This can take place, for example, in such a manner that the insulating material housing is attached to the retaining webs of the supporting ring of the installation apparatus. <IMAGE>

Description

The invention relates to an electrical installa tion device, in particular on a safety plug can with a support having a support web ring insulated plastic base, which in addition to the electrical contacts, the earthing bracket and mechanical Holding elements additionally a circuit board with overvoltage has protective elements, the effectiveness of a Signal device can be displayed, with one the isolator fabric base at least partially surrounding insulation fabric housing and with a receptacle, such as a sub cleaning box.

Electrical installation devices of this type are known in numerous embodiments. They have the advantage in itself that it is connected to the socket protect closed devices from overvoltage; this because they are in the area of their insulating base have a circuit board with surge protection elements. These can occur when very high energy levels occur voltages are destroyed, so that the protective circuit becomes inoperable.

There are also electrical installation devices that  are equipped with a signaling device, which the user of this electrical installation device indicates whether the overvoltage protection element is defective or is still functional. As such, they are electrical Installation devices with a signal device very advantageous for the user because he is from the outside can see whether the inside of the installation overvoltage protection device still lying is functional or not. On the other hand such embodiments still have shortcomings. These are not least due to the fact that so far optically acting signal devices there. These are usually on a cover plate of the electrical Installation device attached. They usually consist of two lamps or the like from a colored lens are covered. One lens is green, the other colored red. As long as the surge protection elements are intact inside such an installation device, the green lamp lights up as soon as it is destroyed the overvoltage element (s) has taken place, the green lamp goes out and one is now lit. red lamp on. This is the sign for the user that the installation device with the surge protector element is defective and therefore at least partially out must be exchanged. It has now been shown that the not like optically working signaling devices meet all requirements in practice, in particular then not if they are placed in very bright rooms or if they are used in rooms with numerous indicator lights or the like. are equipped. in the the first case, namely in bright light, are the op table signaling devices difficult for the user detect. In the other case, if there are many indicator lights are present in the same room, you can easily overlook the red lamp of the installation device  lights up and indicates that the surge protector element is defective.

The invention seeks to remedy this. You are the one Task based on electrical installation equipment, ins special earthed sockets closer to the beginning to further improve the marked type, in particular with regard to the signaling device to be used. This should be designed so that the user immediately and clearly finds out whether the signaling device of the electrical installation device intact or defective is. In addition, the invention aims to show ways like the insulating housing with existing parts of a commercial electrical installation device ver can be bound. The customary In installation devices can continue to be used and thus also their manufacturing tools.

To solve this problem, the invention provides suggest that an acoustic Signal device is usable, and that the insulation fabric housing on existing parts of a commercially available electrical Installation device can be determined. The fiction has properly trained electrical installation equipment significant advantages over the known, in particular in that the previously optically acting Signaleinrich device now by an acoustic signal device is replaced. Because an acoustic signaling device e.g. emits a continuous tone, it is for the user of such an electrical installation device practical impossible that he doesn't notice that the surge protector of the installation device has failed, and that therefore remedial action has been taken must become. Such an acoustic signal device is both in very bright rooms, but also in rooms with  unmistakable in many display devices. Recommends it is an electronic acoustic signal generator to use known design. You can do it find such acoustic signalers that are known as so-called buzzers.

The fact that the insulating housing in front anyway existing parts of a commercially available electrical In installation device, for example a protective contact socket, it is particularly advantageous that the existing manufacturing tools for such Installation devices can continue to be used. The The cost of creating new tools can therefore largely saved. Beyond that it is also not necessary, special embodiments of electrical installation equipment to create for example, those with shortened supporting bars of the support ring. In addition, normal standard flush-mounted boxes can be used, and that, for example, it is fully enclosed in a wall can be brought without a disturbing lead arises.

With regard to the definition of the insulating material housing the existing parts of a commercially available electrical Installation device are several embodiments think bar.

According to a first proposal of the invention, the insulation fabric housing on the retaining webs of the support ring of the In installation device attachable. This will be one Attachment preferred where the usual spreading claws the retaining webs of the support ring can be removed. The Be boundary walls of those provided for the expanding claws Breakthroughs now serve as a counter  snaps for snapping the insulating housing. The Ent The spreading claws can be removed easily because this usually be releasable with a screw on the base be consolidated. By removing this attachment screw can be changed without the insulating base to have to remove the expanding claw. This will the breakthrough in the footbridge free and fiction are used as counter detents. Through one of the like counter-rest a change against about the previous training of the landing stage. With this Counter-latching works together with a latching of the insulating material housing.

It is recommended that the side walls of the insulation fabric housing on diametrically opposite areas to have bent arms that are at their free Each end has a molded catch. The bent Arms of the insulating housing can be used in its manufacture co-generated. The strength of the turn is shown chosen so that the hooks at the front free end of the Arms in good active contact with the counter catches in the area of the breakthroughs of the holding bridges come. In this way creates a snap connection with simple means, the furthermore has the advantage that it can be used again if necessary can be solved.

According to a second proposal of the invention is against the insulating material housing using fastening pins on Insulated plastic base. The one ends of such Fastening pins are equipped with retaining projections. These each take a breakthrough of the abge angled end of the footbridge after going through it beforehand an existing breakthrough of the base are inserted. The holding projections then take part the boundary walls of the breakthrough of the angled End of the footbridge in the sense of a hold together.  

The opposite other end of each attachment pin penetrates the bottom of the insulating material housing and is fixed to the outside of the floor sets. This can be done, for example, with a backup element, such as a locking washer.

It is recommended to attach each mounting pin to his the end facing the insulating material at its end starting surface several in a row in the axial direction preferably arranged regularly and with each other to have identical retaining projections. From each of these retaining projections then comes with the mentioned boundary walls of the breakthrough of the angled end of the holding bridge in operative connection. On this way you can, for example, adapt to Reach the insulating base with different heights.

In the preferred embodiment of the invention grabs the lower end of each mounting pin Allowing a change in their mutual ab there was a slot in the bottom of the insulation material house. These elongated holes thus make it possible to counter the lateral distance between the two existing fastening pencils to enlarge or reduce, of course only as far as the length of the elongated holes allows.

In the preferred embodiment of the invention the lower part of each of the holding projections Fastening pin surrounded by a spring. That feather is supported with one end on the inner surface of the Bottom of the insulating case while your other End if necessary with the interposition of a sub presses the washer against the circuit board, which the over voltage protection elements and the acoustic signal  furnishings. In this way it can be on a special connection between the mentioned board and the insulating base can be dispensed with. Much more serve the two existing springs of the two Be fastening pins for pressing this board at the same time against the bottom of the insulating base.

In a third embodiment of the invention the insulating material housing at least two diametrically opposite sides of its peripheral surface one each Mounting arm on, one of each in the support ring in front reaches through holes. The one after the crackdown area of the fastening protruding from the support ring level low supply has one on the outside of the support ring supporting holding element. This holding element can be designed and designed differently. It can be a separate holding element, which, for example, is a breakthrough of the trag ring-level protruding part of the mounting arm reaches through and extends across the boundaries of the the respective hole of the support ring. That way avoided a return movement of the mounting arm.

However, an embodiment is preferred in which the end of the mounting arm projecting beyond the support ring plane at the same time as interacting with the support ring Fastening end is formed. In such a case the mounting end of each mounting arm of the Isolierstoffgehäuses appropriate by head formation ver widens in such a way that this head is both broad the hole of the support ring as well as the attached to it closing widening towering over it. At a modified embodiment of the invention Isolierstoffgehäuse on its inner wall below the Holding strips for the bottom of the insulating base  the circuit board of the surge protection elements or the acoustic signaling device. It can be done in pairs Arranged retaining strips are present, which is one of the Thickness of the board corresponding mutual distance from each other. This way you can in between the existing gap in pairs arranged retaining strips Insert the end of the board and lay it to back up.

In the figures of the drawings, the invention is in shown several embodiments, namely demonstrate:

Figure 1 is a longitudinal section through a first imple mentation form of an electrical installation device formed according to the invention in the form of a safety socket.

Fig. 2 also in longitudinal section from a second imple mentation form of an electrical installation device formed according to the invention;

Fig. 3 is a partial section along the line III-III of Figure 2, partially broken away.

Fig. 4 shows a third embodiment of a fiction, designed according to electrical installation device in longitudinal section, but with respect to the embodiment of FIGS . 1 and 2 of the drawing rotated by 90 °, and

Fig. 5 partially broken away a plan view of a portion of the electrical installation device according to FIG. 4 of the drawing.

It should first be mentioned that in the figures the drawing only those parts of an electrical installation tion device are shown, which for understanding nis of the invention have meaning. For example, they are missing on the insulating base of the installation ge advises the contacts and the associated Cables. Furthermore, those assigned to the board are missing Parts, namely the surge protection elements. The Signaling device is only shown schematically. This is because all of the figures in the drawings Parts not shown on a known training can point so that on their graphic representation is largely dispensed with.

In Fig. 1 of the drawing, a first embodiment of the electrical installation device according to the invention is shown, in the form of a generally designated 10 socket. This protective contact socket 10 includes a one-piece support ring 11 made of a metallic material, which on two diametrically opposed sides has retaining webs 12 bent approximately at right angles; these merge into an angled end denoted by 14 . With its outside, the angled end 14 lies on the facing surface of a basically known insulating material base 16 . To produce the connection between the support ring 11 and the insulating base 16 are fastening screws 15 which pass through an opening 35 in the angled end 14 of the holding web 12 and end with their shank in a blind hole of the insulating base 16 .

The support ring 11 is a commercially customary embodiment, but differs from it in that it removes the spreading claws in front of them. These spreader claws usually reach through with their rear end an opening 13 in the retaining web 12 , the rear end can cooperate with a screw, such that when the screw is actuated, the spreader claw is moved outwards with its pointed claw to the outer surface of a Can, for example a flush-mounted box, to be able to interact. This expanding claw and the fastening screw assigned to it are omitted in the embodiment of the support ring according to FIG. 1. As far as the hole for the screw of the expanding claw is concerned, this is now used to accommodate the fastening screw 15 Be. It is therefore not necessary to create a special blind hole to accommodate the screw shaft, because this already exists. The opening 13 of the retaining web is also used in a conventional design. However, it now has a different function. It serves namely with its boundary walls as a counter-latch for receiving a latch 27 , which is part of an insulating material housing generally designated 25 . This detent 27 sits at the end of a bent arm 26 of the insulating housing 25 . In the selected game Ausführungsbei are on the side walls of the Isolierstoffge housing 25 on two diametrically opposite sides, the arms 26 are provided, which are bent by about 45 ° from the plane of the side wall, and each carry a catch 27 at its front free end, which the opening 13 of the retaining web 12 passes through in the position illustrated in Fig. 1 manner and thereby cooperate with the mating latches of the retaining web 12, which are formed by the boundary walls as said this breakthrough 13.

The insulating base 16 also has a customary training. It is made in one piece from one of the insulating materials commonly used in the electrical industry; it serves, among other things, to accommodate the circuit contacts and the earthing clip. Only a few of the electrical devices carried by the insulating base 16 are shown. So raised walls 17 are provided from the level of the insulating base in the direction of the support ring 11 , which limit the recordings. There is first the receptacle 18 , which is used to accommodate the contacts, not shown. These contacts also include the resilient parts that are used to engage the plug, not shown.

The lying in the middle of the insulating base 16 on is designated 19 ; this is used to bring a grounding bracket 20 , which is usually firmly connected to the insulating base 16 with a rivet, not shown, in its center. To the right and left of the web of the earthing bracket 20 , the earthing screws 21 are attached, of which only one is shown in FIG. 1. The connecting cables on the base are missing.

Below the base 16 , a board 23 is arranged, the length dimensions of which corresponds approximately to that of the insulating material base 16 , this serves for the storage of overvoltage protection elements. This surge protection elements, which are attached to the board 23 , have a fundamentally known design. Their intended use is also known, so that their drawing is largely omitted.

According to the invention, this circuit board 23 is now assigned an acoustic signal device designated by 24 , which is shown schematically, since its structure is also known in principle. For example, it can be electronic, acoustic signal transmitter, which are known under the name buzzer.

The board 23 can be fastened with basically known fasteners to the inner walls of the insulating material housing 25 at a distance from the insulating base 16 ; Mention may be made, for example, of clamp connections, adhesive connections, snap-in connections or the like. The attachment can be done to secure the position of the board 23 by 25 arranged on the inner walls of the insulating housing retaining strips 41 , which include the board 23 at the edge in some areas. These retaining strips 41 are present in pairs, for example, in such a way that they enclose a gap between them, the width of which is adapted to the thickness of the board.

As already mentioned, in the selected exemplary embodiment, the insulating material housing designated by 25 is seen in cross-section approximately U-shaped body, the bottom 36 of which forms the web of this U's. The side walls, which correspond to the leg of the U ', are pulled up to the level of the underside of the support ring 11 in the embodiment of FIG. 1. In this embodiment, all parts located on the insulating base 16 are surrounded by the insulating housing 25 . There are only areas left where the bent arms 26 lie.

The horizontally lying area of the support ring 11 is provided in a generally known manner with a total of four holes 44 ; one of these is shown in FIG. 5 of the drawing. It follows from this that each hole 44 has curved boundary walls and that the hole 44 merges at one end into a circular extension 45 when viewed in plan view. Such a hole 44 of the support ring 11 can now be used to bind this support ring to a box 28 , which is designed in the embodiment of FIG. 1 of the drawing as a flush-mounted box. The connection between the support ring 11 and the flush-mounted box 28 is carried out by means of retaining screws 30 which pass through two diametrically opposite holes 44 of the support ring and engage with their shafts in a blind hole 29 of the flush-mounted box 46 . In the exemplary embodiment according to FIG. 1 of the drawing, the flush-mounted box 28 has such a large wall thickness that the blind holes 29 can easily be accommodated in them, as the drawing shows. If necessary, however, it is also possible to use thin-walled ones in place of such flush-mounting boxes. In this case, in order to create accommodation spaces for the shafts of the holding screws 30 , domes are used which in turn receive the blind holes 29 . It is possible to form these domes on both the outside and the inside of the side wall of the flush-mounted box.

It is not shown in FIG. 1 to draw in the wall which has an opening in which the flush-mounted box 28 is accommodated. This can be done in a known manner. In addition, the box 28 does not always need to be a flush-mounted box, rather it is also possible to use it here for a surface-mounted box. In addition, however, such cans can be used, or the like in connection with cable ducts. are used. The box-like design of the receiving space for the insulating material housing 25 and the parts lying inside it is also conceivable. It is only important that the electrical installation device according to the invention is assigned an acoustic signal device 24 , which emits an acoustic signal when overvoltages occur and the resulting destruction of overvoltage protection elements, which cannot be overlooked by the user, and by which it is indicated that the protective elements of the circuit board are ineffective. The user can then react accordingly and, for example, replace the circuit board or the entire base.

In Figs. 2 and 3 of the drawings, a second guide is off form the electrical installa tion according to the invention illustrated apparatus; this in turn is designed as a protective contact socket 10 . No changes have been made to the design of the insulating base and the socket 28 . In this respect, reference can be made to the description of the figures relating to FIG. 1. However, the attachment of the insulating material housing 25 to the insulating material base 16 has changed . The following applies: the insulating base 16 is again held by the support ring 11 , using the holding webs 12 . The openings 13 present in the holding webs 12 are of no importance in this embodiment. However, the expanding claws are also removed in this exemplary embodiment because they are not used to establish a connection between the support ring and the inner wall of the box 28 . Instead, the support ring 11 is in turn connected to the socket 28 via the retaining screws 30 .

The angled end 14 of each retaining web is provided with an opening 33 which, however, no longer interacts with a fastening screw 15 , as in the first exemplary embodiment, but now with the upper part of a fastening pin, generally designated 31 .

This fastening pin 31 has lying on the circumferential surface of its upper part a plurality of holding projections 32 which are arranged circumferentially and are arranged one behind the other in regular order in the longitudinal direction of the fastening pin 31 . The holding projections 32 have the same configuration with one another, which facilitates the manufacture. From these Haltvor jumps 32 interacts with the boundary walls of the opening 33 of the angled end 14 of the retaining web 12 of the support ring 11 . In this way, a connection between the fastening pin 31 and the insulating base 16 is made. The fastening pin 31 also passes through a bore in the insulating base 16, which is not specified in any more detail, and, on the other hand, also extends through a bore in the circuit board 23 which is also not specified. The lower end of the fastening pin 31 is free of retaining projections 32 , it is thus kept smooth-walled. The fastening pin engages with its lower end 35 slots 37 , which are provided in the bottom 36 of the insulating material 35 . On the end 35 of the fastening pin 31 protruding through the elongated hole 37 , a locking washer 38 is placed which exceeds the dimensions of the elongated hole 37 and can therefore lay against the outside of the bottom 36 of the insulating material housing.

The lower end 35 of the mounting pin 31 is also surrounded by a generally designated 39 spring, which is designed as a compression spring, that is, the lower end 35 of the mounting pin 31 is in the interior of this spring 39th One end of the spring 39 is supported on the inside of the bottom 36 of the insulating material housing, the other end against a washer 34 , which in turn rests on the underside of the board 23 . By arranging the springs 39 , which find an abutment on the bottom 36 , the washer 34 presses the circuit board 23 and thus the acoustic signal device 24 onto the outside of the insulating base 16 .

In Fig. 3 of the drawing, the formation of one of the elongated holes 37 can be seen, which are penetrated by the fastening pin 31 . By using the elongated holes 37 , the mutual distance between the two existing mounting pins 31 can be varied. In the exemplary embodiment from FIG. 2 of the drawing, the two fastening pins have approximately their smallest mutual distance. This can be increased by moving the mounting pins 31 in the slot 37 to different sides until the peripheral surface of the mounting pin strikes the limiting edge of the slots 37 .

From Fig. 2 it can also be seen that in this embodiment the insulating housing 25 is kept much smaller in length. The side walls of the insulating housing protrude only approximately to the height of the lower angled end 14 of the retaining web 12th The peripheral surface of the insulating material housing can be held continuously; In this case, only the bottom 36 is broken through, namely through the two elongated holes 37 spaced apart from one another.

In Figs. 4 and 5 of the drawings is a third From guide die reproduced tion device of the electric installa invention. This electrical installation device is again a safety socket. The Fig. 4 differs from Figs. 1 and 2 insofar as the section through the parts of the earthing contact socket is offset by 90 °. As a result, the earthing bracket 20 has now become visible in FIG. 4.

The insulating base 16 has maintained its training. The circuit board 23 with the acoustic signaling device 24 is also not directly connected to the bottom of the insulating base 16 , but lies at a distance below it. In order to secure the position of the board 23 , 25 holding strips 41 are placed on the inner walls of the insulating housing. In the selected embodiment, these are present in pairs, such that they include a gap between them, the dimensions of which are the thickness of the board 23 fits.

According to the embodiment of the safety socket according to FIG. 4 of the drawing, the insulating material 25 at least at two diametrically opposite sides of its peripheral surface an attachment arm each 42nd This is in the embodiment of the ground plane of the circumferential surface of the insulating case 25 to the outside bent out, namely so far that the bracket 42 respectively of the support ring 11 comes to lie in the area of a hole 44th The mounting arm 42 is dimensioned so long that it can pass through a hole 44 of this support ring 11 . The area of the fastening arm 42 protruding from the support ring plane has a holding element which is supported on the outside of the support ring. In the selected embodiment, for example, the end of each fastening arm 42 projecting beyond the supporting ring plane is in each case designed as a fastening end 43 interacting with the supporting ring 11 . The fastening end 43 of each fastening arm 42 of the insulating housing 45 is widened by forming a head in such a way that the width of this head projects beyond both the hole 44 and the widening 45 adjoining it. This training can best be seen from FIG. 5 of the drawing. In this embodiment of the fastening end 43 of the fastening arm 42 , additional holding elements can thus be dispensed with, which come into connection with the supporting ring 11 . If desired, holding elements made separately can also be used. These must then, for example, cooperate with a breakthrough of the protruding from the support ring plane, the end of the fastening arm 42 and be dimensioned such that they exceed the dimensions of the hole 44 or the extension 45 and can therefore be supported on the outer side of the support ring 11 .

As already mentioned, the illustrated embodiments are only examples of implementations of the invention and are not limited to them. Rather, many other designs and applications are possible. Thus, any known acoustically operating signal device can be used in particular as a signal device, provided that its external dimensions are such that they can be accommodated in the gap between the circuit board 23 and the bottom of the insulating material housing 25 . The size of this gap can still be varied, for example, by placing the bottom 36 of the insulating housing higher than Darge. In this way, the prescribed distance between the underside of the bottom 36 of the insulating material housing and the undesignated bottom of the flush-mounted box 28 can be maintained.

As already mentioned, it is not necessary for the invention that the box - as in the exemplary embodiments - is designed as a flush-mounted box 28 . Rather, it can also be a surface-mounted box or a cable box, that is, one that is used in connection with cable ducts. The term "can" should also include box-shaped embodiments. A cross-sectional circular design of the can is therefore not necessary. However, this is preferred because, in practice, circular designs of the flush-mounted box are generally used in cross-section. It is also advantageous that the manufacturing tools previously used for the parts of the safety socket can continue to be used. For example, this applies to the support ring. By removing the expanding claws nothing changes because these expanding claws are not an integral part of the Tragrin ges, but only with their one leg penetrate through the break of the retaining bridge, in order to then be attached to the insulating base 16 using one screw each. The insulating base 16 can also have a known training. It may have to be equipped on its underside by fasteners to hold the board. However, this only applies to some of the statements presented. Not, for example, for the one according to FIGS. 2 and 4 of the drawing. In the former case, the cohesion between the board 23 and the insulating material base 16 takes place by the force of the springs 39 . In the case of the embodiment according to FIG. 4 of the drawing, the circuit board 23 is not directly connected to the base with the insulating material, but rather to the inner wall of the insulating material housing using retaining strips.

The flush-mounted box 28 can also receive a different design than the one shown. In particular, it can be kept much thinner. In this case, fastening domes are to be formed on the inner walls in order to make room for the accommodation of the blind holes 29 for receiving the retaining screws 30 .

Reference symbol list

10 safety socket (= electrical installation device)
11 support ring
12 retaining ring (on 11 )
13 breakthrough (in 11 )
14 angled end
15 fastening screw
16 insulating base
17 raised walls (on 16 )
18 receptacle (for connection contacts)
19 holder (for earthing bracket)
20 earthing brackets
21 grounding screws
22 bottom (of 16 )
23 circuit board
24 acoustic signaling device
25 insulating housing
26 bent arm (of 25 )
27 rest
28 box = flush-mounted box
29 blind hole (in 28 )
30 retaining screw
31 mounting pin
32 retaining tabs
33 breakthrough (from 14
34 washer
35 lower end (of 31 )
36 floors (of 25 )
37 slot (in 36 )
38 lock washer
39 spring (of 31 )
40 ends (of 23 )
41 retaining strip
42 mounting arm (of 25 )
43 fastening ends (of 42 )
44 holes (in 11 )
45 expansion (of 44 )

Claims (12)

1. Electrical installation device, in particular protective contact socket with an insulating base held by a support webs on the supporting ring, which in addition to the electrical contacts, the earthing clip and mechanical holding elements additionally has a circuit board with overvoltage protection elements, the effectiveness of which can be indicated by a signaling device, with an insulating base at least in areas surrounding insulating material housing and with a receptacle, such as a flush-mounted box, characterized in that an acoustic signal device ( 24 ) can be used as a signaling device, and that the insulating material housing ( 25 ) on existing parts of a commercially available electrical installation device ( 10 ) firmly can be laid. 2. Installation device according to claim 1, characterized in that the insulating housing ( 25 ) on the retaining webs ( 12 ) of the support ring ( 11 ) of the installation device ( 10 ) can be fastened. 3. Installation device according to claim 1 and 2, characterized in that the expanding claws of the holding webs ( 12 ) of the support ring ( 11 ) removed and the Be boundary walls of the for these expanding claws seen openings ( 13 ) as counter-detents for detents ( 27 ) of the insulating housing ( 25 ) can be used ( Fig. 1). 4. Installation device according to claims 1 to 3, characterized in that the side walls of the insulating housing have bent arms ( 26 ) on diametrically opposite areas, each having a molded catch ( 27 ) at its free ends ( Fig. 1). 5. Installation device according to claim 1, characterized in that the insulating housing ( 25 ) by means of fastening pins ( 31 ) on the insulating base ( 16 ) can be fixed, each having an opening ( 33 ) of the angled end ( 33 ) with a holding projections ( 32 ). 14 ) reach through the retaining web ( 12 ), and which can be fixed with their other end to the bottom ( 36 ) of the insulating material housing ( 25 ) ( FIG. 2). 6. Installation device according to claim 1 and claim 5, characterized in that each fastening pin ( 31 ) at its end facing the insulating base ( 16 ) on its circumferential surface in the axial direction behind one another has several preferably mutually identical and in a regular arrangement before existing retaining projections ( 32 ) , while with its other end ( 35 ) passes through the bottom ( 36 ) of the insulating material housing ( 25 ), and on the outside of which is secured in position by a securing element, such as a locking washer ( 38 ) ( FIG. 2). 7. Installation device according to claim 6, characterized in that the lower end ( 35 ) each fastening supply pin ( 31 ) to enable a change in their mutual distance, an elongated hole ( 37 ) in the bottom ( 36 ) of the insulating housing ( 25 ) passes through ( Fig. 2 and 3). 8. Insulating material housing according to claim 1, characterized in that the insulating material housing ( 25 ) has at least on two diametrically opposite sides of its circumferential surface each has an attachment arm ( 42 ), each of which penetrates a hole ( 44 ) of the support ring ( 11 ), and that Out of the support ring plane Be rich of the mounting arm ( 42 ) has a supporting element on the outside of the support ring ( 11 ) supporting ( Fig. 4). 9. Installation device according to claim 1 and claim 8, characterized in that the supporting ring plane projecting beyond the end of the fastening arm ( 42 ) is designed at the same time as a fastening element ( 43 ) interacting with the supporting ring ( 11 ) (FIGS . 4 and 5). 10. Installation device according to claim 9, characterized in that the fastening element ( 43 ) of each fastening arm ( 42 ) of the insulating housing ( 25 ) is widened by the formation of a head, such that the width of both the head ( 44 ) and the adjoining it Widening ( 45 ) dominates the same ( Fig. 4 and 5). 11. Installation device according to claim 1, characterized in that the insulating housing ( 25 ) on its inner wall below the bottom of the insulating material base ( 16 ) lying retaining strips ( 41 ) for the board ( 23 ) ( Fig. 4). 12. Installation device according to claim 1, 5, 6 and 7, characterized in that the lower end ( 35 ) of each fastening pin ( 31 ) is surrounded by a spring ( 39 ) which is at one end on the bottom ( 36 ) of the insulating material housing ( 25th ) and at the other end on the surface of the board ( 23 ) facing it and holding it in contact with the underside of the insulating material base ( 16 ).