CN103545650B - Connector connects module and fixing framework thereof and connector arrangement - Google Patents

Connector connects module and fixing framework thereof and connector arrangement Download PDF

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Publication number
CN103545650B
CN103545650B CN201210366289.XA CN201210366289A CN103545650B CN 103545650 B CN103545650 B CN 103545650B CN 201210366289 A CN201210366289 A CN 201210366289A CN 103545650 B CN103545650 B CN 103545650B
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CN
China
Prior art keywords
fixing framework
frame
connector
guiding
fit
Prior art date
Application number
CN201210366289.XA
Other languages
Chinese (zh)
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CN103545650A (en
Inventor
德雷维斯马丁
拉贝.克劳斯
妮丝.克里斯廷
舒尔兹雷纳
Original Assignee
魏德米勒电联接有限公司
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Filing date
Publication date
Priority to DE202011051622 priority Critical
Priority to DE202011051622.9 priority
Priority to CN201210183684 priority
Priority to CN2012101836844 priority
Priority to CN201210183684.4 priority
Priority to EP12182950.1A priority patent/EP2581991B1/en
Priority to EP12182950.1 priority
Application filed by 魏德米勒电联接有限公司 filed Critical 魏德米勒电联接有限公司
Publication of CN103545650A publication Critical patent/CN103545650A/en
Application granted granted Critical
Publication of CN103545650B publication Critical patent/CN103545650B/en

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Classifications

    • HELECTRICITY
    • H01BASIC ELECTRIC ELEMENTS
    • H01RELECTRICALLY-CONDUCTIVE CONNECTIONS; STRUCTURAL ASSOCIATIONS OF A PLURALITY OF MUTUALLY-INSULATED ELECTRICAL CONNECTING ELEMENTS; COUPLING DEVICES; CURRENT COLLECTORS
    • H01R13/00Details of coupling devices of the kinds covered by groups H01R12/70 or H01R24/00 - H01R33/00
    • H01R13/46Bases; Cases
    • H01R13/516Means for holding or embracing insulating body, e.g. casing, hoods
    • H01R13/518Means for holding or embracing insulating body, e.g. casing, hoods for holding or embracing several coupling parts, e.g. frames
    • HELECTRICITY
    • H01BASIC ELECTRIC ELEMENTS
    • H01RELECTRICALLY-CONDUCTIVE CONNECTIONS; STRUCTURAL ASSOCIATIONS OF A PLURALITY OF MUTUALLY-INSULATED ELECTRICAL CONNECTING ELEMENTS; COUPLING DEVICES; CURRENT COLLECTORS
    • H01R13/00Details of coupling devices of the kinds covered by groups H01R12/70 or H01R24/00 - H01R33/00
    • H01R13/46Bases; Cases
    • H01R13/502Bases; Cases composed of different pieces
    • H01R13/506Bases; Cases composed of different pieces assembled by snap action of the parts

Abstract

A kind of connector connects module and fixing framework thereof and connector arrangement. Wherein, this fixing framework (1) has two frame half (2,3), a frame half (2) is moved linearly along travel direction (X) relative to another frame half (3), can by these two mutual kaysers of frame half, wherein, these frame half (2,3) are respectively arranged with mutually corresponding latch member (13,14a, 14b; 130,140), these latch member can make two frame half (2,3) when moving linearly at two mutual kaysers of different latched position, and these frame half (2,3) are in the different spaced spacing (91,92) of described different latched position. The connector of the present invention connects module and can align all the time straightly and as far as possible economical space saving in fixing framework, and unrelated with the fixed face of plane, can realize connecting module at the simple especially connector of but very reliably installing of fixing framework.

Description

Connector connects module and fixing framework thereof and connector arrangement

Technical field

The present invention relates to for settling the connector of multiple transmission power, signal or data connect the fixing framework of module or connect the fixing framework of module for pneumatic connector.

Background technology

In order to fixing multiple connector connects module, it is known that they are arranged in same fixing framework. This kind of device being provided with housing is called heavy load connector junctor. Such as GB965560 discloses a kind of heavy load connector junctor, and it is configured with the fixing framework connecting module for connector assembled by two parts. The fixing framework part of this heavy load connector junctor can connector together and can kayser mutually.

DE19707120C1 also utilizes fixing framework this kind of design of two assembly types. The document discloses a kind of fixing framework connecting module for fixing multiple connector, this fixing framework is made up of the half portion that two are hinged. The connector of this kind of device connects module and is installed in unlimited fixing framework, and the half portion of fixing framework is alignd when being screwed on fixed face, thus is arranged on block-shaped for connector connection mode ordinatedly in fixing framework. But the prerequisite of this kind of device is, fixing framework is installed on the fixed face of plane. In addition, connector connection module can bend in this case.

Summary of the invention

It is an object of the invention to, a kind of fixing framework is proposed, wherein connector connect module all the time can straight ground and as far as possible economical space saving aliging in fixing framework, and unrelated with the fixed face of plane, and this kind of fixing framework can realize simple especially but very reliably installation connector connection module.

This object is achieved by a kind of fixing framework for connector connection module, this fixing framework has two frame half, a frame half is moved linearly along travel direction relative to another frame half, can by these two mutual kaysers of frame half, in these frame half, wherein it is respectively arranged with mutually corresponding latch member, these latch member can make two frame half when moving linearly at two mutual kaysers of different latched position, and these frame half are in the different spaced spacing of described different latched position.

Its advantage is, these frame half are in the spaced spacing enough far away of the first latched position so that connector connects module can be placed in fixing framework easily, and without the need to adjusting this fixing framework. In the 2nd latched position, this connector connects module and is just immovably fixed in fixing framework.

At this, fixing framework is preferably provided with the first form fit coupling component, these first form fit coupling component is connected the first form fit component cooperation effect of module in the first latched position with connector so that this connector connects module and aligns along the bearing of trend being perpendicular to travel direction in fixing framework in the first latched position simultaneously.

In addition, being preferably provided with the 2nd form fit coupling component on fixing framework, these the 2nd form fit coupling component coordinates effect in the 2nd latched position with the 2nd shape mating component. By along bearing of trend alignment, the 2nd shape mating component mates component with form fit and mutually aligns, thus these frame half can move and kayser in opposite directions, and connector can not be made to connect module in fixing framework inner bending.

First and second form fit components mate component with form fit preferably to be arranged by certain kayser amount each other so that the connector of different in width can be connected module and be arranged in fixing framework. At this preferably, kayser amount is very little, thus can use the module of multiple different size for fixing framework.

The frame half of the fixing framework of the present invention is opened by the pure rectilinear movement along travel direction or is closed. Here, these frame half preferably have guiding elements and the coupling guiding elements corresponding with it, wherein when a frame half moves relative to another frame half, guiding elements guides along coupling guiding elements, and guiding elements and coupling guiding elements form straight line guide. Frame half thus can also be made can not to bend when moving along travel direction. Therefore can very simply and fast connector connection module be arranged in the fixing framework of the present invention generally.

Can be used to realize a kind of in addition of described object and can connect module and the connector arrangement of a kind of fixing framework with the present invention and this connector connection module along the connector that direction of insertion is inserted in the fixing framework of the present invention.

Specifically, the expedients of the present invention can be obtained by following listed scheme.

A kind of fixing framework connecting module for connector, this fixing framework has two frame half, a frame half is moved linearly along travel direction relative to another frame half, can by these two mutual kaysers of frame half, wherein: in two frame half, be respectively arranged with mutually corresponding latch member, described latch member can make two frame half when moving linearly at two mutual kaysers of different latched position, and described frame half is in the different spaced spacing of described different latched position.

Fixing framework as above, wherein, this fixing framework has at least one guiding elements and at least one coupling guiding elements, they are separately positioned in one of frame half, wherein when a frame half moves linearly along travel direction relative to another frame half, guiding elements guides along coupling guiding elements.

Fixing framework as above, wherein, described latch member is arranged on guiding elements and coupling guiding elements.

Fixing framework as above, wherein, described guiding elements and coupling guiding elements form dovetail type guide.

Fixing framework as above, wherein, described guiding elements and coupling guiding elements form chute-type guide.

Fixing framework as above, wherein, described frame half is U shape structure, and has basic limit and two sides, wherein on one of guiding elements and coupling guiding elements two sides being separately positioned on frame half.

Fixing framework as above, wherein, described latch member has projection and two indents being spaced apart from each other, and its protrusions is arranged on the side of a frame half, and indent is arranged on the side of another frame half.

Fixing framework as above, wherein, described latch member comprises locking mechanism and two kaysers projections being spaced apart, and wherein locking mechanism is arranged on the side of a frame half, and kayser projection is arranged on the side of another frame half.

Fixing framework as above, wherein, is provided with latch member on guiding elements, is provided with coupling latch member on coupling guiding elements.

Fixing framework as above, wherein, latch member is configured to raised item, and coupling latch member is configured to recessed window.

Fixing framework as above, wherein, this fixing framework has the first form fit coupling component and the 2nd form fit coupling component, wherein the first form fit coupling component coordinates effect with being arranged for the first form fit component form fit of being connected module in the first latched position with the connector being arranged in fixing framework, and wherein the 2nd form fit is mated component and coordinated effect with being arranged for the 2nd shape mating component form fit that is connected module in the 2nd latched position with connector.

Fixing framework as above, wherein, the first form fit coupling component forming towards the edge notch on the edge of connector connection module by the basic limit in one of frame half.

Fixing framework as above, wherein, the 2nd form fit coupling component is made up of the indent on the basic limit of one of frame half.

A kind of connector connects module, it can be inserted into according in as above fixing framework described in arbitrary item along direction of insertion, wherein, this connector connects module and has the first form fit component and the 2nd shape mating component, and they are arranged for the first form fit coupling component with fixing framework and the 2nd form fit coupling component coordinates effect.

Connector as above connects module, and wherein, the first form fit component is made up of the fixing limit extended along travel direction.

Connector as above connects module, and wherein, the 2nd shape mating component is made up of profiled member.

A kind of connector arrangement, have and connect module according to as above fixing framework described in arbitrary item and connector that at least one is arranged in this fixing framework, wherein, fixing framework is provided with the first form fit coupling component, and it being provided with the first form fit component in connector connection module, this connector arrangement can realize making connector connect module in the first latched position of fixing framework and along being perpendicular to travel direction and be perpendicular to the bearing of trend alignment of direction of insertion.

Connector arrangement as above, wherein, fixing framework is provided with the 2nd form fit coupling component, and it is provided with the 2nd shape mating component in connector connection module, they arrange in the 2nd latched position of fixing framework with being bonded with each other so that connector connects module and is immovably fixed in fixing framework.

Accompanying drawing explanation

Detail the present invention with reference to the accompanying drawings. Wherein:

Fig. 1 is the stereographic map of the first embodiment of fixing framework, and multiple connector connects module and is inserted into or has been inserted in this fixing framework, and wherein this fixing framework is in enclosed card lock position;

Fig. 2 is the stereographic map that multiple connector connects module;

Fig. 3 is the stereographic map of the fixing framework in Fig. 1 in installing card lock position;

Fig. 4 is the broken away view of the fixing framework in Fig. 3;

Fig. 5 a, b are the detailed enlarged view of Fig. 4;

Fig. 6 a, b are the sectional view of the fixing framework in the side-view in the region, edge of the fixing framework in Fig. 1 and Fig. 1;

Fig. 7 a, b be the fixing framework in Fig. 1 relative to Fig. 6 a have rotated 90 �� side-view and along the sectional view of line A-A cutting;

Fig. 8 illustrates the upper shell of the device of Fig. 1 shown type;

Fig. 9 is the stereographic map of the 2nd embodiment of fixing framework;

Figure 10 is the stereographic map that multiple connector connects module;

Figure 11 is the stereographic map of the fixing framework in Fig. 9 in installing card lock position;

Figure 12 is the broken away view of the fixing framework in Figure 11;

Figure 13 a, b are the detailed enlarged view of Figure 12;

Figure 14 a, b are the sectional view of the fixing framework in the side-view in the region, edge of the fixing framework in Fig. 9 and Fig. 9;

Figure 15 a, b be the fixing framework in Fig. 9 relative to Figure 14 have rotated 90 �� side-view and along the sectional view of line E-E cutting;

Figure 16 illustrates the upper shell of the device of Fig. 9 shown type.

In this Fig. 1-16, the parts of each Reference numeral and instruction thereof are respectively: 1-fixes framework, and 2, 3-frame half, the basic limit of 4-, 5, 6-side, 7-guiding elements, guide ribs, 8-mates guiding elements, slide, the spacing of 91-when installing position, the spacing of 92-when closed position, 11-straight line guide, dovetail type guide, 13, 14a, 14b-latch member, 15a, b, c, d,-connector connects module, 16-housing, and 161-connects side, 162-connector side, 17-upper shell, 18-first form fit component, fixing limit, 19-the 2nd shape mating component, profiled member, 20-first form fit coupling component, edge notch, 21-the 2nd form fit coupling component, indent, 22-horizontal edge, the edge on the basic limit of 23-, X-travel direction, Y-bearing of trend, Z-direction of insertion, 70-guiding elements, guide ribs, 80-mates guiding elements, slide, 130-first latch member, 140-the 2nd latch member, locking mechanism, 131-first kayser is protruding, and 132-the 2nd kayser is protruding, 160-raised item, the recessed window of 170-, 220-horizontal edge.

Embodiment

Fig. 1 illustrates the fixing framework 1 of two assembly types, it by two can connector together and the frame half 2,3 of kayser mutually can assemble (see figure 4).

As shown in Figure 4, frame half 2,3 is in complete separated state. They are U shape structure in a top view, and have basic limit 4 and respectively have two shorter sides 5,6. Except also giving the fixing of detail and coding component after a while, two frame half 2,3 preferable configuration are identical, and this makes manufacture simple and with low cost.

Frame half 2,3 designs mutually accordingly so that they can connector together, wherein they can at the first latched position and the 2nd mutual kayser of latched position. According to enforcement mode shown here, two sides 5,6 of one of frame half 2,3 construct all in the same manner. But can also consider to adopt following enforcement mode: frame half 2,3 has the side 5,6 differently constructed respectively.

In order to mutual kayser, frame half 2,3 has corresponding interengageable guiding elements 7 and the coupling guiding elements 8 all being configured to guide profile body at this respectively in the region of side 5,6. Guiding elements 7 with guide profile body 8 can realize making frame half 2,3 connector in a straightforward manner together with and can move relative to each other. Fig. 3 shows the movement along travel direction X with arrow. Guiding elements 7 and coupling guiding elements 8 jointly achieve the favourable reliable straight line to frame half 2,3 at this and guide.

According to illustrated embodiment, guiding elements 7 define with coupling guiding elements 8 can the parts of form fit together with connector, namely to be trapezoidal guide ribs 7 and cross section be in the cross section of dovetail type guide trapezoidal slide 8. Guide is non-essential is dovetail type guide, but on the other hand, dovetail type guide is applicable to described object owing to it guides characteristic reliably very much. Therefore, term guiding elements 7 and guide ribs and coupling guiding elements 8 and slide synonymously use below. In a word, frame half 2,3 thus by two straight line guides 11 particularly dovetail type guide can move relative to each other.

In addition, in frame half 2,3, preferably respectively in guiding elements 7 and coupling guiding elements 8 or on, be provided with correspond to each other interengageable latch member 13,14a, 14b, these latch member are through appropriate structuring, making them can at two mutual kaysers of different latched position, wherein a segment distance be moved and be spaced from each other two latched position in two basic limits 4.

First latch member 13 is preferably configured to projection, and is arranged on guiding elements 7 (see Fig. 5 a). Thus term projection is synonymously used for the first latch member 13 below. Projection 13 is latchable in two corresponding indent 14a, 14b, and these indents are arranged on travel direction X with being spaced from each other, and is arranged on coupling guiding elements 8 (see Fig. 5 b). Thus term indent is synonymously used for the 2nd and the 3rd latch member 14a, 14b below. Projection is incorporated on guiding elements, or can settle thereon individually, such as, be placed in indent such as groove. This projection can also be made up of another kind of material. Preferably-but force-do not make framework be made up of metal and projection is made up of plastics.

Here, thus protruding 13 be arranged in guide ribs 7, and thus two indent 14a, b are arranged on slide 8.

First latched position shown in Fig. 3. In this latched position, the spacing 91 between two basic limits 4 is slightly larger than the spacing 92 during the 2nd shown in FIG latched position. For installing position shown in Fig. 3. And the 2nd latched position at Fig. 1, basic limit 4 is closely arranged. This is closed position.

The advantage of detail the design below.

Fixing framework 1 connects module 15a, b, c, d for fastening or Fixing plug ... (see Fig. 1 and 2). Connector connects module 15a, b, c, d ... it is being perpendicular on the bearing of trend Y of travel direction X to have different width. They all have housing 16, and there is connection side 161 and the connector side 162 with connector appearance usually, connect side for connecting at least one conductor or plug etc., connector side is used for connecting module (not shown) connector together with corresponding connector, and wherein connection side 161 and connector side 162 are not shown specifically at this.

Whole fixing framework 1 connects module 15a, b, c, d together with the connector installed ... can be encased in upper shell 17. Fig. 8 show can be encased in upper shell 17 without connector connect module 15a, b, c, d ... fixing framework 1. Realize so-called heavy load connector junctor in this way, it can with corresponding heavy load connector junctor (not illustrating here) connector together.

Module 15a, b, c, d is connected at the connector can being inserted in fixing framework 1 ... housing 16 on be configured with the first and second form fit components 18,19, these form fit components can be corresponding with on fixing framework 1, and the first and second form fit coupling components 20,21 engage. Form fit coupling component 20,21 is also configured to form fit profile body at this.

At this, the first mutually corresponding form fit component 18 and form fit coupling component 20 are through design so that they are bonded with each other in installation position. And in installation position, the 2nd shape mating component 19 and form fit coupling component 21 are not yet bonded with each other.

First form fit component 18 and form fit coupling component 20 are configured to the form of backstop, and these backstop restriction connector connects module 15a, b, c, d ... it is inserted in fixing framework 1 along the direction of insertion Z being perpendicular to travel direction X and being perpendicular to bearing of trend Y.

Useful and favourable, the first form fit component 18 is fixing limit, and these fixing limits are all arranged on the side towards the basic limit 4 of fixing framework 1 of housing 16, and preferably extend on travel direction X. Correspondingly, first form fit coupling component 20 advantageously edge notch, these edge notches be all arranged on basic limit 4 towards connector connect module 15a, b, c, d ... edge 23 on. 2nd shape mating component 19 can be one or more profiled members of the side towards basic limit 4 at housing 16, and these profiled members coordinate effect with the 2nd form fit coupling component 21 being arranged on basic limit 4 being configured to indent 21. Thus term first form fit component 18 and fixing limit, the first form fit coupling component 20 and edge notch, the 2nd shape mating component 19 and profiled member and the 2nd form fit coupling component 21 and indent are synonymously used below.

In order to improve firm property, utilize horizontal edge 22 to make to be arranged on connector respectively at this and connect module 15a, b, c, d ... housing 16 on fixing limit 18 be interconnected.

In this kind of favourable enforcement mode, connector is being connected module 15a, b, c, d ... when being pushed in the fixing framework 1 being in and installing position, fixing limit framework fixing with this when arriving the edge 23 of fixing framework 1 engages, so that connector connects module 15a, b, c, d ... it is resisted against on fixing framework 1. At this, fixing limit 18 is responsible for making corresponding connector connect module 15a, b in installation position ... correctly align along direction of insertion Y. Edge notch 20 can according on spaced one or two limit 4 being configured in fixing framework 1 of turning up the soil of certain kayser amount. By selecting little kayser amount, it is also possible to make very narrow connector connect module 15a, b, c, d on bearing of trend Y ... correctly align in fixing framework 1.

The extension distance of profiled member 19 on the travel direction X of frame half 2,3 is less than fixing limit 18. The through hole that indent 21 preferably is configured to around close, and there is the profile body corresponding with profiled member 19, this profile body is inserted in indent 21, and described profile body coordinates with concave shape. Owing to connector connects module 15a, b, c, d ... correctly align in installation position relative to fixing framework 1, equally correctly the mutually alignment in installation position of profiled member 19 and indent 21, thus can connector together, but be not yet bonded with each other. They are just bonded with each other when two frame half 2,3 move to closed position. Owing to closing around indent 21, connector connects module 15a, b, c, d ... firmly immovably it is fixed in fixing framework 1 now.

Particularly the 2nd shape mating component can also construct " on the contrary ", that is, profiled member is arranged on the inner side on basic limit 4, and indent such as receiving member, hole or blind hole are configured in connector and connect (not shown) in module.

2nd shape mating component 19 can be arranged on one or two basic limit 4 of fixing framework 1. They can also have identical or different profiles, such as to realize anti-torsion and/or coding.

According to Fig. 4, the 2nd shape mating component 19 being configured to hole is such as circle on a basic limit 4, and be Polygons on another basic limit, thus connector connects module 15a, b, c, d ... utilize corresponding profiled member that is circular and Polygons can only be in alignment direction in fixing framework 1. This is because when not correct alignment, fixing framework 1 can not be in its closed position.

The 2nd embodiment of the fixing framework 1 of two assembly types shown in Fig. 9 to 16. It also by two can connector together and can the frame half 2,3 of kayser mutually form, but these frame half have shorter longitudinal length compared to the first embodiment. But also not mandatory requirement is like this. As shown in figure 12, two frame half are in complete separated state. They are also U shape structure in a top view, and have basic limit 4 and respectively have two shorter sides 5,6.

Frame half 2,3 designs mutually accordingly so that they can connector together, wherein they can at the first latched position and the 2nd mutual kayser of latched position. In order to mutual kayser, frame half 2,3 also has corresponding interengageable guiding elements 70 and coupling guiding elements 80 respectively in the region of side 5,6. Guiding elements 70 with guide profile body 80 can realize making frame half 2,3 connector in a straightforward manner together with and can move relative to each other. Guiding elements 70 and coupling guiding elements 80 jointly achieve the favourable reliable straight line to two frame half 2,3 at this and guide.

According to the 2nd embodiment, guiding elements 70 define with coupling guiding elements 80 can the parts of form fit together with connector, the rectangular slide 80 of guide ribs 70 that namely cross section of chute-type guide is rectangular and cross section. Guide is non-essential is chute-type guide, but on the other hand, chute-type guide is applicable to described object owing to it guides characteristic reliably very much. Therefore, term guiding elements 70 and guide ribs and coupling guiding elements 80 and slide synonymously use below.

In addition, in frame half 2,3, preferably respectively in guiding elements 70 and coupling guiding elements 80 or on, it is provided with the interengageable latch member 130,140 corresponded to each other, these latch member are through appropriate structuring, making them can at two mutual kaysers of different latched position, wherein a segment distance be moved and be spaced from each other two latched position in two basic limits 4.

First latch member 130 is preferably made up of two kayser projections 131,132, and forms (see Figure 13) by the notch on the limit (or narrow limit/narrow side) being positioned at guide ribs 70, above this limit is on the exemplary direction of Figure 13. Latch member 140 is preferably arranged on the locking mechanism engaged with kayser projection 131,132 above slide 80. Locking mechanism 140 is preferably made of plastics, to realize enough elasticity, and is embedded in side 6 inside in corresponding protuberance or indent.

?When locking mechanism 140 engages with the first kayser protruding 131, the first latched position will be realized. This first latched position figure 9 illustrates. In this first latched position, the spacing 91 between two basic limits 4 is slightly larger than the spacing 92 during the 2nd shown in fig. 11 latched position. For installing position shown in Fig. 9. And the 2nd latched position at Figure 11, basic limit 4 is closely arranged. This is closed position. This closed position will be realized when protruding 132 kayser of locking mechanism 140 and the 2nd kayser.

In order to reliably supplement locking mechanism 140 and corresponding kayser projection 131,132, in guide ribs 70, preferably it is provided with another latch member 160, this latch member coordinates effect with coupling latch member 170, to prevent user from damaging plastic areas when he uses too big power to open fixing framework.

Latch member 160 is raised item preferably, and it is arranged on the horizontal edge of guide ribs 70. Raised item 160 is used as terminal backstop in closed position, and is inserted in coupling latch member 170, the recessed window that this coupling latch member is formed in the rear portion of slide 80 or indent. Raised item 160 forms the stable locking connection firmly preventing external influence when being inserted in recessed window 170.

Being compared to the advantage of the first enforcement mode, the cross section of guide ribs can construct narrow, it is thus possible to save material and install space. In the first embodiment, latch member is arranged on guide ribs inside, and constructs relatively thick, and kayser projection 131,132 is formed at the simple indent on the top of guide ribs, thus they save space very much. This point is equally applicable to corresponding locking mechanism 140.

Claims (15)

1. one kind connects the fixing framework (1) of module for connector, this fixing framework has two frame half (2,3), a frame half (2) is moved linearly along travel direction X relative to another frame half (3), can by these two mutual kaysers of frame half, it is characterised in that: be respectively arranged with in two frame half (2,3) mutually corresponding latch member (13,14a, 14b; 130,140), described latch member can make two frame half (2,3) when moving linearly at two mutual kaysers of different latched position, and described frame half (2,3) is in the different spaced spacing (91,92) of described different latched position;
This fixing framework also has at least one guiding elements (7; 70) and at least one coupling guiding elements (8; 80), they are separately positioned in one of frame half (2,3), wherein when a frame half (2) moves linearly along travel direction X relative to another frame half (3), and guiding elements (7; 70) along coupling guiding elements (8; 80) guide;
Described latch member (130; 140) locking mechanism (140) and two kayser projections being spaced apart (131,132) are comprised, wherein said locking mechanism (140) is arranged on the side (5,6) of a frame half (2,3), and kayser projection (131,132) is arranged on the side (5,6) of another frame half (2,3);
Described guiding elements (70) is provided with the 2nd latch member (160), described coupling guiding elements (80) is provided with coupling latch member (170).
2. framework (1) as claimed in claim 1 fixing, it is characterised in that: described latch member (13,14a, 14b; 130,140) guiding elements (7 it is arranged on; 70) and coupling guiding elements (8; 80) on.
3. fixing framework (1) as according to any one of claim 1-2, it is characterised in that: described guiding elements (7) and coupling guiding elements (8) form dovetail type guide (11).
4. fixing framework (1) as according to any one of claim 1-2, it is characterised in that: described guiding elements (7) and coupling guiding elements (8) form chute-type guide.
5. fixing framework (1) as according to any one of claim 1-2, it is characterized in that: described frame half (2,3) is U shape structure, and there are basic limit (4) and two sides (5,6), wherein guiding elements (7; 70) and coupling guiding elements (8; 80) on one of two sides (5,6) being separately positioned on frame half (2,3).
6. fixing framework (1) as according to any one of claim 1-2, it is characterized in that: described latch member (13,14a, 14b) has projection (13) and two indents being spaced apart from each other (14a, 14b), its protrusions (13) is arranged on the side (5,6) of a frame half (2,3), and indent (14a, 14b) is arranged on the side (5,6) of another frame half (2,3).
7. fixing framework (1) as claimed in claim 1, it is characterised in that: described 2nd latch member (160) is configured to raised item, and coupling latch member (170) is configured to recessed window.
8. such as claim 1-2, fixing framework (1) according to any one of 7, it is characterized in that: this fixing framework has the first form fit coupling component (20) and the 2nd form fit coupling component (21), wherein the first form fit coupling component (20) is arranged for the first form fit component (18) the form fit ground cooperation effect being connected module (15) in the first latched position with the connector being arranged in fixing framework (1), wherein the 2nd form fit coupling component (21) is arranged for the 2nd shape mating component (19) the form fit ground cooperation effect being connected module (15) in the 2nd latched position with connector.
9. fixing framework (1) as claimed in claim 8, it is characterised in that: the first form fit coupling component (20) forming towards the edge notch on the edge (23) of connector connection module (15) by the basic limit (4) in one of frame half (2,3).
10. fixing framework (1) as claimed in claim 9, it is characterised in that: the 2nd form fit coupling component (21) is made up of the indent on the basic limit (4) of one of frame half (2,3).
11. 1 kinds of connectors connect module (15), it can be inserted into according in fixing framework (1) in any one of the preceding claims wherein along direction of insertion Z, it is characterized in that: this connector connects module and has the first form fit component (18) and the 2nd shape mating component (19), they are arranged for the first form fit coupling component (20) with fixing framework (1) and the 2nd form fit coupling component (21) coordinates effect.
12. connectors as claimed in claim 11 connect module (15), it is characterised in that: the first form fit component (18) is made up of the fixing limit extended along travel direction X.
13. connectors as according to any one of claim 11-12 connect module (15), it is characterised in that: the 2nd shape mating component (19) is made up of profiled member.
14. 1 kinds of connector arrangements, have according to connector connection module (15) that fixing framework (1) in any one of the preceding claims wherein and at least one are arranged in this fixing framework (1), it is characterized in that: on fixing framework (1), be provided with the first form fit coupling component (20), and it is provided with the first form fit component (18) on connector connection module (15), this connector arrangement can realize making connector connect module (15) in the first latched position of fixing framework (1) and align along the bearing of trend Y being perpendicular to travel direction X and being perpendicular to direction of insertion Z.
15. connector arrangements as claimed in claim 14, it is characterized in that: on fixing framework (1), be provided with the 2nd form fit coupling component (21), and it is provided with the 2nd shape mating component (19) on connector connection module (15), they arrange in the 2nd latched position of fixing framework (1) with being bonded with each other so that connector connects module (15) and is immovably fixed in fixing framework (1).
CN201210366289.XA 2011-10-13 2012-09-28 Connector connects module and fixing framework thereof and connector arrangement CN103545650B (en)

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DE202011051622 2011-10-13
DE202011051622.9 2011-10-13
CN2012101836844 2012-06-05
CN201210183684.4 2012-06-05
CN201210183684 2012-06-05
EP12182950.1A EP2581991B1 (en) 2011-10-13 2012-09-04 Holder frame for connector
EP12182950.1 2012-09-04

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EP2581991B1 (en) 2016-12-28
ES2620765T3 (en) 2017-06-29
DE202012103360U1 (en) 2013-01-15
CN103545650A (en) 2014-01-29
SI2581991T1 (en) 2017-03-31
EP2581991A2 (en) 2013-04-17
PL2581991T3 (en) 2017-06-30
EP2581991A3 (en) 2013-10-30
CN202977856U (en) 2013-06-05

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