CN107431292A - Duolateral sub-assembly - Google Patents

Abstract

Show and describe a kind of duolateral sub-assembly (1) for being used to construct distribution honeycomb shape part, the duolateral sub-assembly, which has, carries two end faces (3) and four side (4a, 4b, 4c, 4d) box-shaped case (2), four side (4a, 4b, 4c, 4d) extend between end face (3), wherein, two end faces (3) have at least one attachment areas (5) respectively.Particularly securely can (1') it be connected with another duolateral sub-assembly in the following manner according to the duolateral sub-assembly (1) of the present invention, i.e., at least one side (4a) has at least one spring (6) and relative and the corresponding groove (7) that at least one spring (6) being used for another duolateral sub-assembly (1') is connected is configured with the side (4c) put, also, connecting element is configured with least one spring (6) place and at least one groove (7) has corresponding mating connection element.

Description

Duolateral sub-assembly

Technical field

The present invention relates to a kind of duolateral sub-assembly for being used to construct distribution honeycomb shape part (Rangierwabe) (Wabenbaustein), case of the duolateral sub-assembly with the box-shaped for carrying two end faces and four sides, described four Side extends between the end face, wherein, two end faces have at least one attachment areas respectively.

Background technology

Duolateral sub-assembly is used to electric lead is connected at electric equipment or for electric lead to be connected with each other.Therefore, The connection element being generally connected with each other by corresponding bus-bar is disposed with the case of the box-shaped of duolateral sub-assembly, so as to By the conductor in front end face be introduced into the electric conductor that is introduced into of opening can with by the introducing opening in the rear end face of case The electric conductor being introduced into or connection contact (Anschlusskontakt) electrical connection.As connection element, especially using clamping bullet Spring, make to press against bus-bar by the insulated electric conductor that conductor introducing opening is introduced into by the fastening spring.Therefore, duolateral Sub-assembly is Electricity Federation connecting terminal (Anschlussklemme), itself however it is different from electrically coupled in series terminal (Reihenklemme), generally It is not to lock on the busbar, but the part as the distribution honeycomb shape part being made up of multiple duolateral sub-assemblies uses.

Distribution honeycomb shape part is especially used in such opening position, i.e. in this place must be in most compact spatially connection Multiple electric conductors.Therefore, known such distribution honeycomb shape part from practice, i.e. wherein, in the assembling frame of fixed rectangle Inside frame, multiple duolateral sub-assemblies are arranged in the corresponding chamber of framework.Electric conductor not only can be from front side, field side (Feldseite), and distribution honeycomb shape part or each duolateral group can be connected to from rear side, equipment side (Anlagenseite) At component.

It is known from the A1 of document DE 10 2,013 101 830 a kind of as what duolateral sub-assembly used to electrically connect end Son, it is used for electricity distribution for example in track vehicle technology.Two kinds of different dresses are shown in Fig. 7 of the printed document and 8 With framework or distributor case, wherein, the chamber of predetermined quantity (18 or 54) is configured with respectively in the matrix form, in these chambers In be respectively disposed with front end face two conductors introduce opening duolateral sub-assembly.In the known distribution honeycomb The manufacture of each duolateral sub-assembly should be simplified in shape part in the following manner, i.e. there is case main case part and case to close Part, so as to be simply plugged into the contact insert with connection element by the fitting opening in main case.

It is also known that the distribution honeycomb shape part with multiple duolateral sub-assemblies from the A1 of document DE 195 12 226.At this In distribution honeycomb shape part disclosed in printed document, each duolateral sub-assembly is also been inserted into the chamber of distribution honeycomb shape part, Wherein, all there is all duolateral sub-assemblies identical size and the conductor of identical quantity and size to introduce opening.In its top At edge side and lower edge side, distribution honeycomb shape part has fixed flange protuberance respectively, passes through the fixed flange protuberance distribution Honeycomb shape part can be fixed at assembling framework by means of threaded fastener.Additionally, terminal module can pass through dovetail connection machine It is fixed at fixed flange protuberance tool, wherein, it can be realized to gold by the contact plate inserted in the bottom of terminal module Belong to the electrical connection of assembling framework.If the quantity of conductor to be coupled must be improved, must use has greater number of list The corresponding bigger distribution honeycomb shape part of individual duolateral sub-assembly, wherein, it can obtain with 18,32,48,54 or 80 in practice The distribution honeycomb shape part of individual duolateral sub-assembly.

The content of the invention

The present invention task be, there is provided a kind of duolateral sub-assembly for use, its can in a straightforward manner with it is other Duolateral sub-assembly is connected and therefore made with a part of other duolateral sub-assemblies together as distribution honeycomb shape part With.

In the distribution honeycomb shape part of the beginning description of the feature with Patent right requirement 1, the task passes through with lower section Formula solves, i.e. at least one side have at least one spring and it is relative and be configured with the side put it is at least one right The groove answered is configured with connection member for being connected with the spring of another duolateral sub-assembly at least one spring Part and mating connection element corresponding to being configured with least one groove.

It is accomplished by the following way first according to the distribution honeycomb shape part of the present invention and distribution honeycomb shape part is being placed in one Greater flexibility when rising, i.e. the duolateral sub-assembly that duolateral sub-assembly directly can be constructed correspondingly with others is connected, So as to eliminate the need for the assembling framework of quantity that is rigid, determining each duolateral sub-assembly.It is here, real in the following manner The connection of existing each duolateral sub-assembly, i.e. spring of the construction at the side of the first duolateral sub-assembly is pushed into the In corresponding groove in the side of two duolateral sub-assemblies, that is to say, that realized by groove-spring-connection.Thus, can build Distribution honeycomb shape part with any number of duolateral sub-assembly, if so as to be matched with corresponding demand and be possible to same Simply change the size and especially number of poles (Polzahl) of distribution honeycomb shape part.Such distribution honeycomb shape part or similarly structure The duolateral sub-assembly made is known from the subsequent disclosed A1 of document DE 10 2,014 101 528.

In the duolateral sub-assembly according to the present invention, further improve combined with neighbouring duolateral in the following manner Part is mechanically fixed, i.e. connecting element is constructed at spring and groove has corresponding mating connection element.Thus, not only lead to Groove-spring-connection is crossed, and is additionally realized also by connecting element and mating connection element in two duolateral sub-assemblies Between be mechanically fixed, wherein, connecting element construction is at spring and is connected element construction at groove, hence for the The space requirement of two types of attachment does not increase or only somewhat increased.

According to a kind of favourable design of the duolateral sub-assembly according to the present invention, spring and groove have dovetail respectively The cross section of shape, so that at least one spring is dovetail spring and at least one groove is corresponding dovetail groove.By dovetail spring With dove-tail into mechanical connection have the following advantages that, i.e. its can simple assembly or disassembly, and however can bear Relatively high power.Nevertheless, only by dovetail spring and dove-tail into mechanical connection in such risk be present, That is, can be slipped each other in the rotational motion of one or the situation of banking motion of spring and groove in two components.This is in basis Prevented in the following manner in the duolateral sub-assembly of the present invention, i.e. be additionally provided with connecting element and corresponding cooperation Connecting element.

Preferably, at least one spring or at least one is configured with respectively at all four sides of duolateral sub-assembly Groove, so as to which duolateral sub-assembly can not only be connected in the x direction but also with another duolateral sub-assembly in a z-direction. This, there is also such possibility in principle, i.e. be not only configured with single side at least one spring and also be configured with to A few groove.

In the distribution honeycomb shape part combined by multiple duolateral sub-assemblies, can further it improve in the following manner The stability of distribution honeycomb shape part, i.e. Longitudinal extending of at least one spring at first side is with least one spring another Longitudinal extending deviation at one side, wherein, deviation is preferably 90 °.In duolateral sub-assembly, such as in first side Place, spring can perpendicular to duolateral sub-assembly Longitudinal extending and relative to second of first side with 90 ° of angle At side, spring is longitudinally arranged parallel to duolateral sub-assembly.Thus, in the x direction and in a z-direction in interconnection Form fit can be not only realized between duolateral sub-assembly but also power cooperation can be realized.

Specifically, now, a variety of possibilities be present, such as connecting element and corresponding be connected member of the construction at spring As part construction.Here, connecting element and mating connection element equally may be configured to groove-spring-connection.Alternatively, connect Element can also form clamping lock with mating connection element and connect.

According to favourable first embodiment, spring has the bridge joint stretched out in its front end on assembly direction Portion, with respect to the bridge part, recess corresponding with bridge part is configured with case in the end of groove corresponding with spring.Construction At spring, also referred to as pin bridge part therefore the function with plug and recess with groove corresponding with plug Function.Prevented by such design of spring and groove, spring and groove can pass through rotational motion or banking motion Slip each other., also can be at the end of groove alternatively in constructing bridge part in the front end of spring and constructing recess in the end of groove Bridge part is constructed at portion and constructs recess in the spring, so as to which bridge part engagement is arrived in spring when spring is pushed into groove In recess in.

In a kind of alternative embodiment slipped each other of the spring caused by rotational motion and groove is prevented from, Spring has the rear section on assembly direction with larger width, and corresponding groove has with corresponding larger width Front section.If spring is driven fully into groove, the section of the spring with larger width is located at what is equally widened In the section of groove.Here, widening on the both sides of spring is respectively corresponding to the plug being joined in corresponding groove.In order to also enter One step reduces the risk slipped each other of groove and spring, and two embodiments described above can be also mutually combined, that is to say, that Spring can its front end on assembly direction with stretch out bridge part and with carry larger width in assembling side Upward rear section.So, correspondingly, recess corresponding with bridge part is configured with case in the end of groove, and And groove has the front section with larger width in addition.

As having been illustrated as more than, groove-spring-company can be not only realized between connecting element and mating connection element Connect and can realize that clamping lock connects.So here, spring has latch elements, and groove is with coordinating latch elements to be connected.At this In a kind of advantageous embodiment of the clamping lock connection of type, spring has clamping lock in its front end on assembly direction Pin or clamping lock hook.So, in the end of corresponding groove, be configured with case clamping lock recess corresponding with clamping lock pin or with card Latch openings corresponding to latch hook.If spring is driven fully into groove in such design, clamping lock pin can Lock in clamping lock recess or clamping lock hook can be locked in latch openings, thus, it is therefore prevented that with assembly direction on the contrary inadvertently Unclamp two duolateral sub-assemblies being so connected with each other.

If spring has clamping lock hook, as described above, the clamping lock hook can be constructed in the leading section of spring Place.However, there is also such possibility in addition, i.e. relative to the Longitudinal extending of spring, in another position structure at spring Make clamping lock hook.For example, clamping lock hook can be constructed at the rearward end on assembly direction of spring or in central area.If card Latch hook is located in the central area of spring, then wherein, clamping lock corresponding with clamping lock hook is also configured with the central area of groove Recess is configured with latch openings in case, then, thus can realize only can extremely difficult ground or even completely non-releasably Clamping lock connection.

According to also answer herein brief explanation according to the present invention duolateral sub-assembly last favourable design, Spring has two clamping lock hooks pointed in the opposite direction in its front end on assembly direction.In the design In, corresponding clamping lock recess laterally is configured with case relative to the Longitudinal extending of groove in the end of corresponding groove.Such as Fruit spring is driven fully into groove, then the clamping lock that two clamping lock hooks are joined respectively to be laterally adjacent in case at groove is recessed In mouthful, thus, it reliably prevent and the assembly direction pull-off spring from groove on the contrary.

Brief description of the drawings

Specifically, there is the duolateral sub-assembly of a variety of designs and improvement according to the present invention now.Therefore, not Only with reference to the Patent right requirement come behind claim 1 and with reference to reference to following description of the accompanying drawing to preferred embodiment. In the accompanying drawings：

Fig. 1 shows a kind of embodiment of duolateral sub-assembly,

Fig. 2 shows spring at a side for being arranged in duolateral sub-assembly and construction in relative and at the side put groove Enlarged diagram,

Fig. 3 shows the schematic diagram of the first embodiment of the connection between spring and groove according to the present invention,

Fig. 4 shows the schematic diagram of the second embodiment of the connection between spring and groove according to the present invention,

Fig. 5 shows the schematic diagram of the 3rd embodiment of the connection between groove and spring according to the present invention,

Fig. 6 shows the schematic diagram of another embodiment of the connection between spring and groove according to the present invention,

Fig. 7 shows the schematic diagram of another embodiment of the connection between spring and groove,

Fig. 8 shows the schematic diagram of the last embodiment of the connection between spring and groove according to the present invention, and

Fig. 9 shows the distribution honeycomb shape part formed by three according to Fig. 1 duolateral sub-assembly.

Embodiment

Fig. 1 shows a kind of embodiment of duolateral sub-assembly 1, and the duolateral sub-assembly 1, which has, carries two Hes of end face 3 The case 2 of four side 4a, 4b, 4c and 4d box-shaped.Three are provided with the front end face 3 of duolateral sub-assembly 2 preferably It is configured to the attachment areas 5 of spring force terminal interface (Federkraftklemmanschluss).Each side 4a, 4b, 4c, 4d Extend respectively between two end faces 3 and be respectively arranged to the angle in 90 ° of opposing end surface 3.Therefore, duolateral sub-assembly 1 Or case 2 has the cross section of rectangle, it has width B, height H and length or depth T.In shown duolateral sub-assembly In 1 situation, size B × H × T is, for example, 12mm × 11mm × 30mm, wherein, the size is by no means limitative.

In order to be connected with other duolateral sub-assembly 1', 1'', figure 1 illustrates duolateral sub-assembly 1 in side 4a Spring 6 of the place with four swallow-tail forms, the spring 6 is in different opening positions, not only in the x direction but also in a z-direction cloth Put at the 4a of side.In the situation of shown embodiment, each spring 6 has Longitudinal extending in a z-direction respectively, its Corresponding to about the 1/3 of the height H of the case 2 of duolateral sub-assembly 1.It is relative with side 4a in duolateral sub-assembly 1 and put Groove 7 corresponding with spring 6 is configured with the 4c of side, it equally has the cross section of swallow-tail form, so as to by that will be arranged in one Spring 6 at the side 4a of duolateral sub-assembly 1 is pushed into groove 7 of the construction at the side 4c of neighbouring duolateral sub-assembly In, two duolateral sub-assemblies 1 can be connected with each other in the x direction.In addition, two clamping locks are also configured with first side 4a Lug boss 8, its (sightless herein) clamping lock protuberance collective effect corresponding with the 4c of side.

Groove 9 is configured with the upper side 4b of case 2, it almost extends on the entire depth T of duolateral sub-assembly 1. With groove 9 accordingly, spring 10 is configured with the downside 4d of duolateral sub-assembly 1, so as to by by duolateral up Spring 10 at sub-assembly 1' downside 4d is pushed into the groove 9 at the upper side 4b of the duolateral sub-assembly 1 of lower section, Two duolateral sub-assembly 1,1' can be stackedly arranged in a z-direction.Additionally, it is also configured with the downside 4d of case 2 Two clamping lock lug bosses 11, its collective effect of clamping lock protuberance 12 and hence in so that two with two constructions at upper side 4b The duolateral sub-assembly 1,1' of the individual interconnection release that is not intended to becomes difficult.

The spring 6 and construction for the first side 4a for being arranged on the first duolateral sub-assembly 1 are schematically shown in fig. 2 Groove-spring-connection between groove 7 in the side 4c that the relative of the second duolateral sub-assembly 1' is put.Fig. 2 a are shown Spring 6 and groove 7 in the state of separation, and Fig. 2 b show spring 6 and groove 7 in the state of connection.Here, from Fig. 2 In diagram in can be seen that, not only spring 6 but also groove 7 have the cross section of swallow-tail form respectively.Shown in figure 2, Jin Jinyou In the situation for groove-spring-connection that dovetail spring 6 and dovetail groove 7 are formed, such risk be present, i.e. spring 6 and groove 7 are two It can be slipped relative to each other when the rotational motion of individual component or banking motion.This leads in the duolateral sub-assembly according to the present invention In the following manner is crossed to be prevented from, i.e. in addition to spring 6 and groove 7, connecting element and corresponding mating connection element are additionally provided with, As being explained in greater detail below according to the schematic diagram of the connection according to the present invention.

Figure 3 illustrates the schematic diagram of the first embodiment of the connection according to the present invention between spring 6 and groove 7. Here, case 2 of spring 6 (also duolateral sub-assembly 1 as illustrated in fig. 1 the is such) construction in the first duolateral sub-assembly 1 First side 4a at, so as to which spring 6 can be pushed into groove 7 of the construction at the second duolateral sub-assembly 1' second side 4c In.Although relative with first side 4a and be also configured with corresponding groove at the side 4c that puts at the first duolateral sub-assembly 1 7, but what is schematically shown in Fig. 2 to 8 mechanically connects all the time in two duolateral sub-assemblies 1,1' to be interconnected Between realize, so as to which spring 6 is constructed at a duolateral sub-assembly 1 and groove 7 is constructed at another duolateral sub-assembly 1'. Here, common for the schematic diagram of the different embodiments shown in Fig. 3 to 8, be configured with respectively at spring 6 to A few additional connecting element and groove 7 has at least one corresponding mating connection element respectively.

In the embodiment illustrated in figure 3, spring 6 has the bridge joint stretched out in its front end on assembly direction R Portion 13, the bridge part 13 have the function of plug.Here, bridge part 13 has the thickness smaller than spring 6.It is right with bridge part 13 Ying Di, in the end of groove 7, recess 14 is configured to extension of the groove 7 in case 2, when spring 6 is pushed fully into groove 7 When, the bridge part 13 is joined in the recess 14.In fig. 3 a, spring 6 and groove 7 in still knocked-down state are shown, And in the diagram according to Fig. 3 b, spring 6 is driven fully into groove 7.Fig. 3 c and 3d show the He of spring 6 with longitudinal section respectively Groove 7, wherein, spring 6 is not yet inserted into groove 7 in figure 3 c, and spring 6 is fully inserted into groove 7 in Fig. 3 d, so as to Bridge part 13 is also coupled in recess 14.

Figure 3 illustrates, groove-spring-connection between bridge part 13 and recess 14 in stretching be responsible for it is as follows, i.e. Spring 6 can not inadvertently by tilt from groove 7 outlet swing come.The identical principle of the groove-spring-connection also can be by following Mode is realized, i.e. bridge part is configured with the end of groove 7 and is configured with corresponding recess in the front end of spring 6, from And so when spring 6 is pushed into groove 7, construct the recess that the bridge part at groove 7 is joined in the front of spring 6 In.

Additional groove-spring-connection is equally realized in Fig. 4, and spring 6 caused by rotational motion are prevented by it With the slippage each other of groove 7.With Fig. 3 similarly, spring 6 and groove in still knocked-down state are also shown in this Fig. 4 a and 4c 7, and Fig. 4 b and 4d show the state being bonded together.Here, show spring 6 and groove to perspective respectively in figs 4 a and 4b 7, and in the diagram according to Fig. 4 c and 4d, a part for spring 6 and groove 7 has been cut parallel to Longitudinal extending.

In this embodiment, spring 6 has the rear section 15 on assembly direction R, and the rear section 15 has than spring 6 The bigger width of remainder.Correspondingly, groove 7 has the front section 16 with corresponding bigger width.Therefore, in front section Widening for groove 7 in 16 has slotted function respectively for widening on the both sides of spring 6, wherein, at spring 6 Widen and functionally correspond to plug.If spring 6 is driven fully into groove 7, the back zone with larger width of spring 6 Section 15 is in the front section 16 equally widened of groove 7.In addition, spring 6 also has stopper section 17, so as to also by stopper section 17 Maximum push-in distance in limited spring 6 to groove 7.

Fig. 5 schematically shows a kind of embodiment of the connection between spring 6 and groove 7, and wherein, spring 6 is at it Front end on assembly direction R has clamping lock pin 18 and the corresponding card in case 2 is configured with the end of groove 7 Lock recess 19.Here, Fig. 5 a and 5b show spring 6 and groove 7 in the state being not yet connected with each other, wherein, Fig. 5 a are shown Perspective view.The part of the amplification of the spring 6 and groove 7 in the state of connection is shown in fig. 5 c.If spring 6 is complete It is pushed into groove 7, then clamping lock pin 18 is locked into the corresponding clamping lock recess 19 in case 2, is thus prevented and assembly direction R The inadvertently pull-off spring 6 from groove 7 on the contrary.

In the embodiment of the connection according to Fig. 6 to 8, the additional clamping lock also achieved between spring 6 and groove 7 connects Connect.Here, in the embodiment according to Fig. 6 and 7, clamping lock hook 20 is configured with respectively at spring 6, clamping lock hook 20 exists in spring 6 It is locked into the state being pushed fully into groove 7 in latch openings 21, the latch openings 21 construct in case 2 and and groove 7 are connected.In the embodiment according to Fig. 6, clamping lock hook 20 is almost arranged in center on the longitudinal direction of spring 6, so as in case 2 In corresponding latch openings 21 be arranged in center also relative to groove 7.If in this embodiment can not be close from the inside of case 2 Latch openings 21, then dismounting correspondingly only could be realized in the situation in structural dip portion 22 at the clamping lock hook.

In the embodiment according to Fig. 7, clamping lock hook 20 () structure with the clamping lock pin 18 in the embodiment according to Fig. 5 similarly Make in the front end of spring 6.If here, in the state assembled of spring 6 and groove 7, the end of clamping lock hook 20 is from card Stretched out in lock opening 21, then there is a possibility that to utilize instrument, the top of such as screwdriver to unclamp clamping lock again, so as to dress With direction R pull-off springs 6 from groove 7 again on the contrary.

A kind of embodiment of the connection between spring 6 and groove 7, wherein, spring 6 are schematically shown in fig. 8 There is clamping lock hook 23 in the opposite direction outwardly at its leading section 2 on assembly direction R.In the end of groove 7 Place, is adjacent to groove 7 and two clamping lock recesses 24 is configured with case 2 on the side, when spring 6 is driven fully into groove 7, two Individual clamping lock hook 23 is joined in the clamping lock recess 24.By additionally construct it is at case 2, stretch into the end of groove 7 Wedge 25, in the state of having assembled in groove 7 of spring 6, rebounding for clamping lock hook 23 is prevented, so that in this embodiment, no longer Can realize dismounting, that is with the assembly direction pull-off spring 6 from groove 7 on the contrary.

Schematically illustrated in Fig. 9 by (only) three matching somebody with somebody according to Fig. 1 duolateral sub-assembly 1,1', 1'' composition Electric honeycomb shape part, wherein, three duolateral sub-assemblies 1,1', 1'' is stackedly arranged in a z-direction.In three honeybees according to Fig. 9 Room formula sub-assembly 1,1', in 1'' diagram, structure is shown in a manner of the interface unit not added (in the same manner as in Fig. 1) Make the spring 6 of the swallow-tail form at first side 4a.Instead of swallow-tail form only show in Fig. 1 and in fig.9, simple Spring 6, it is disposed with according to the side 4a in duolateral sub-assembly 1 of the invention for example in case 2 and is shown in Fig. 3 to 8 One implemented in flexible program of spring 6, then wherein, relative and be configured with corresponding groove respectively on the side 4c that puts 7。

Spring 6 from the diagram according to Fig. 1 and 9 duolateral sub-assembly 1 it is also seen that at first side 4a it is vertical 90 ° of the Longitudinal extending deviation of spring 10 to extension and at the 4b of side.Correspondingly, the Longitudinal extending of the groove 7 at the 4c of side Also 90 ° of the Longitudinal extending deviation of the groove 9 and at the 4b of side.Be achieved in, with multiple not only in the x direction but also in z The duolateral sub-assembly 1,1' being connected with each other on direction, in 1'' distribution honeycomb shape part, improve the stabilization of distribution honeycomb shape part Property, because, then only by the different springs 6 at different side 4a, 4b, 10 orientation is realized in all directions Fixed distribution honeycomb shape part.

Claims (10)

1. a kind of duolateral sub-assembly for being used to construct distribution honeycomb shape part, the duolateral sub-assembly, which has, carries two end faces (3) and the box-shaped of four sides (4a, 4b, 4c, 4d) case (2), four sides (4a, 4b, 4c, 4d) are in the end face (3) extend between, wherein, described two end faces (3) have at least one attachment areas (5) respectively,

Characterized in that,

At least one side (4a) have at least one spring (6) and it is relative and be configured with the side (4c) put for At least one corresponding groove (7) that the spring (6) of another duolateral sub-assembly (1') is connected, also,

Connecting element is configured with least one spring (6) place and at least one groove (7) has corresponding coordinate Connecting element.

2. duolateral sub-assembly according to claim 1, it is characterised in that at least one spring (6) and it is described extremely A few groove (7) has the cross section of swallow-tail form respectively.

3. duolateral sub-assembly according to claim 1 or 2, it is characterised in that the duolateral sub-assembly (2) is owned Side (4a, 4b, 4c, 4d) has at least one spring (6) or at least one groove (7) respectively.

4. duolateral sub-assembly according to claim 3, it is characterised in that at least one spring (6) is in the first side The Longitudinal extending at face (4a) place and at least one spring (10) second side (4b) place Longitudinal extending deviation, preferably with 90 ° of deviations.

5. duolateral sub-assembly according to any one of claim 1 to 4, it is characterised in that the spring (6) its Front end on assembly direction (R) has a bridge part (13) stretched out, and in the end of corresponding groove (7), in case (2) recess (14) corresponding with the bridge part (13) is configured with.

6. duolateral sub-assembly according to any one of claim 1 to 5, it is characterised in that the spring (6) has band There is the rear section (15) on assembly direction (R) of larger width, and the corresponding groove (7) has with corresponding larger The front section (16) of width.

7. duolateral sub-assembly according to any one of claim 1 to 4, it is characterised in that the spring (6) has card Locking element (18,20), and the corresponding groove (7) is with coordinating latch elements (19,21) to be connected.

8. duolateral sub-assembly according to claim 7, it is characterised in that the spring (6) is at it at assembly direction (R) On front end there is clamping lock pin (18) or clamping lock hook (20), also, in the end of the corresponding groove (7), described It is configured with case (2) and the clamping lock pin (18) or clamping lock recess (19) corresponding with the clamping lock hook (20) or latch openings (21)。

9. duolateral sub-assembly according to claim 7, it is characterised in that the spring (6) has clamping lock hook (18), and And at corresponding groove (7) place, be configured with the case (2) clamping lock recess corresponding with the clamping lock hook (18) or Latch openings (21).

10. duolateral sub-assembly according to claim 7, it is characterised in that the spring (6) is at it in assembly direction (R) front end on has two clamping lock hooks (23) pointed in the opposite direction, and in the corresponding groove (7) End is laterally configured with clamping lock recess (24) corresponding with the clamping lock hook (23) in the case (2).