Source: https://patents.google.com/patent/DE102013220462A1/en
Timestamp: 2020-01-22 19:54:47
Document Index: 643872292

Matched Legal Cases: ['art 101', 'art 102', 'art 101', 'art 102', 'art 101', 'art 101', 'art 101', 'art 102', 'art 101', 'art 102', 'art 101', 'art 101', 'arts\n2014']

DE102013220462A1 - Direct plug-in switching element and connection arrangement with a direct plug-in switching element - Google Patents
Direct plug-in switching element and connection arrangement with a direct plug-in switching element
DE102013220462A1
DE102013220462A1 DE201310220462 DE102013220462A DE102013220462A1 DE 102013220462 A1 DE102013220462 A1 DE 102013220462A1 DE 201310220462 DE201310220462 DE 201310220462 DE 102013220462 A DE102013220462 A DE 102013220462A DE 102013220462 A1 DE102013220462 A1 DE 102013220462A1
DE201310220462
Werner Kallee
WUERTH ELEKTRONIK ICS & CO KG GmbH
2013-10-10 Application filed by WÜRTH ELEKTRONIK ICS GMBH & CO KG, WÜRTH ELEKTRONIK ICS GMBH & CO. KG filed Critical WÜRTH ELEKTRONIK ICS GMBH & CO KG
2013-10-10 Priority to DE201310220462 priority Critical patent/DE102013220462A1/en
2015-04-16 Publication of DE102013220462A1 publication Critical patent/DE102013220462A1/en
There is provided a switching element for direct insertion into a printed circuit board, wherein the switching element comprises a switching element circuit and a plurality of plug contacts, wherein the plug contacts a connecting portion which is connected to the switching element circuit and having a mounting portion, wherein the mounting portion is arranged such that it can be inserted directly into the circuit board, and wherein the mounting portion has a securing element, which is set up such that unintentional release of the connector is prevented.
The present invention relates to a direct plug-in switching element for plugging with a printed circuit board, in particular a printed circuit board. Furthermore, the present invention relates to a connection arrangement with a direct plug-in switching element and a printed circuit board. Moreover, the present invention relates to a method for electrically connecting a switching element to a printed circuit board.
It is known an arrangement for the electrical and mechanical connection of plug-in elements via a socket with a printed circuit board, which is designed for high electrical and mechanical requirements. They are from the WO 2010/063459 the same applicant also known connection arrangements for printed circuit boards, which allows a direct insertion of a male part on a circuit board without attached to the circuit board socket.
EP 2 246 939 discloses an electrical connection element consisting of an electrical contact, a housing and a clamping pin. The electrical contact has a contact region and a connection region. A contact on a circuit board is done by inserting the contact area in an opening in the circuit board, wherein at least the inner surface of the opening is provided with an electrical contact surface. The electrical contact of the connecting element is formed in the contact area as a slotted sleeve-like part with a bulbous shape. This sleeve-like contact area tapers when inserted into a breakthrough elastically in the axial direction in diameter and assumes a correct seat approximately its original shape again. In this state, the clamping pin is inserted into the contact area, whereby the contact area is jammed with the inner surface of the opening. As a result, a substantially full-surface electrical contact is formed between the sleeve and the contacted opening of the printed circuit board.
The invention has for its object to provide a formable with reasonable effort and reliably under electrical load electrically contacting connection of a circuit board with a switching element.
The object is solved by the objects according to the independent claims. Further embodiments are described in the dependent claims
According to an exemplary aspect, there is provided a switching element for direct insertion into a printed circuit board (direct plug switching element), the switching element comprising a switching element circuit and a plurality of plug contacts, the plug contacts having a connection region connected to the switching element circuit and a mounting region, the mounting region is set up so that it can be inserted directly into the printed circuit board, and wherein the mounting portion has a securing element which is set up such that unintentional release of the connector is prevented.
In particular, the plug contacts may be configured to electrically contact the switching element circuit with the circuit board. Alternatively, the plug contacts may be designed to produce a purely mechanical and / or an electrical connection. For example, a subset of the plurality of plug contacts may be designed to produce an electrical contact, whereas a second subset of the plurality of plug contacts is adapted to perform a purely mechanical fuse. In particular, the plug contacts may be in two parts, for example, with two legs formed. The legs may in this case be separated from each other and have a certain elasticity or spring tension, so that they return to their initial position after insertion into plug holes of a printed circuit board, so that they are supported against the side walls of the drilled plug holes or openings in the circuit board or get stuck with this. For example, the switching element may be a switching element used in the automotive field. In particular, the switching element circuit may be a circuit capable of switching a high current, i. form a high current switching element. For example, the switching element circuit may be designed for a current of at least 10 A, in particular to a current of at least 20 A, preferably to a current between 30 A and 100 A. The switching element circuit may further be at a voltage of 12 V, 24 V, 110 V. or 230V.
According to an exemplary aspect, there is provided an adapter member for a clad switching element, the adapter member having a body having two surfaces, a plurality of plug contacts and a plurality of mounting holes adapted to contact pads of the packaged switching element, the plurality of Plug contacts on one of the two surfaces is formed and wherein the plurality of mounting holes formed on the second of the two surfaces.
In particular, the plurality of plug contacts may be adapted to corresponding plug holes of a printed circuit board to be inserted.
According to an exemplary aspect, there is provided a connection assembly comprising a switching element according to an exemplary aspect and a printed circuit board having a plurality of plug holes, the switching element having the plurality of plug contacts being inserted into the plurality of plug holes.
According to an exemplary aspect, there is provided a method of directly plugging a packaged switching element into a printed circuit board, the method comprising: providing a printed circuit board having a plurality of plug holes; direct insertion of a packaged switching element, which has a plurality of plug contacts, in the circuit board, wherein each of the plurality of plug contacts is inserted into a corresponding plug-in hole.
The term "switching element" may in particular be understood as meaning all elements which serve to switch an electric current, such as a relay, a fuse, a circuit breaker or a power transistor.
The term "directly pluggable" may in particular mean that the switching element or the plug contacts can be plugged directly without an additional connection and / or additional connecting elements in a circuit board, in particular in holes or plug holes of the circuit board. In particular, therefore, no soldering or welding processes may be necessary, and the switching element may be fastened directly to a printed circuit board or contacted with it without additional connections, such as electrically conductive cables or lines.
In particular, a directly pluggable switching element or direct plug-in switching element can thus be created, which can be manually inserted into a printed circuit board. Thus, soldering or welding may not be necessary to secure the switching element to the printed circuit board, such as a printed circuit board (PCB). Also may be made possible by the provision of a direct pluggable switching element that cable connections can be saved when the switching element is attached to the circuit board and / or contacted. It may also be possible to make flexible by means of the provision of directly pluggable switching element, the connection of the switching element on the circuit board. For example, it may be possible that a smaller number of slots must be provided on the circuit board than when fixed connections, i. Soldering, Pressfit connections or welded joints, are provided.
In the following, embodiments of the switching element will be described, but these also apply to the adapter part and the connection arrangement.
According to an exemplary embodiment of the switching element, the plug contacts are set up so that they can be inserted manually into the printed circuit board.
The term "manually insertable" may be understood in particular to mean that a force required to insert it is below a predefined threshold value and / or that the insertion can be carried out by hand without additional tools. For example, the threshold for the effort may be less than 250 N, in particular less than 150 N and preferably less than 100 N. The specified forces are to be understood here in particular as total force, i. they characterize the total force necessary to insert the switching element into the printed circuit board and thus do not affect the forces required for the individual plug contacts. A manually plugged connection may in particular be distinguished from a Pressfit connection, which is regularly not accessible without tools.
According to an exemplary embodiment of the switching element, the mating of the mounting region of the plug contacts is vibration robust.
In particular, a force to release the connector between the mounting area and a circuit board may be greater than a predetermined threshold for the effort to release. For example, the threshold value may be higher than 100 N, in particular higher than 200 N, and preferably higher than 300 N. The term "vibration robust" or "vibration-resistant mechanical fuse" may in particular have the meaning that, even in the presence or occurrence of vibrations acting on a technical system having the connection arrangement, unintentional detachment of the plug element from the circuit board is avoided. In particular, vibrations, such as occur in a motor-driven, in particular combustion engine driven device (in particular vehicle), lead in a vibration robust mechanical fuse configured to no adverse effect on the system function. In particular, when installing the connection assembly in the engine compartment of an off-road vehicle usually occurring there vibrations do not lead to an undesirable loss of electrical contact between the plug contacts and the mating contact in the respective associated hole (plug opening) of the circuit board. Thus, to achieve the vibrational robustness, the mechanical Secured with regard to material, dimensions, fastening forces, etc. are designed so that the corresponding vibrations do not lead to any unwanted detachment of the Direktsteckschaltelement of the circuit board. The connection arrangement may be for realizing the vibration robustness in accordance with Industrial standard ISO TS 16750, in particular ISO TS 16750-3 be designed. ISO 16750 defines a standard for mechanical load requirements for off-road vehicles. In order to achieve the vibration robustness, the connection arrangement may be further designed, the Standard IEC 60512-4 fulfill, in particular at least one of the sub-requirements IEC 68.2.6 (vibration sinusoidal) . IEC 68-2-27 and IEC 68-2-29 (multiple shocking) . IEC 68-2-64 (broadband noise) . IEC-68-2-64 (vibration in cold atmosphere) and IEC 68-2-50 and IEC-68-2-51 (vibration in warm atmosphere) to fulfill.
According to an exemplary embodiment of the switching element, the securing element is a mechanical securing element.
In particular, the mechanical security feature may be hook-shaped or helical. For example, the security feature may be formed as a barb, which engages behind the circuit board after insertion into the circuit board. Thus, a stable and on the one hand easily manually plugged connection may be created, but at the same time is secured against unintentional loosening.
In particular, the fuse element may be integrally formed with the plug contact, i. The plug contact itself may be formed as a security feature, for example, be hook-shaped. Instead of or in addition to barbs the plug contact may also be in two parts, for example by means of two legs or legs, which have a certain elasticity, so that they are elastically compressed, for example when inserting the plug contact in a hole or breakthrough of a circuit board and after insertion again Press apart, so that a certain jamming of the plug contacts in the openings (plug holes) is given a circuit board.
According to an exemplary embodiment of the switching element, the switching element has a housing, in which the switching element circuit is arranged and on which the plurality of plug contacts is arranged.
The housing may thus on the one hand serve as protection for the switching element circuit and on the other hand can be simultaneously used as a mounting option for the plug contacts, so that a compact design of the direct plug switching element may be possible.
According to an exemplary embodiment of the switching element, the plurality of plug contacts is arranged in a predetermined arrangement pattern.
By the arrangement of the plug contacts in a predetermined arrangement pattern, it may be possible to prevent erroneous or twisted insertion of the switching element into a corresponding circuit board, when the insertion holes or holes are arranged in a corresponding arrangement pattern. In this way it may be possible to increase the security of the contact and to exclude the possibility of errors.
According to an exemplary embodiment of the switching element, the housing has a housing part and an adapter part, wherein in the housing part of the switching element circuit is arranged and wherein the plurality of plug contacts is attached to the adapter part.
According to an exemplary embodiment of the switching element, the housing part and the adapter part are detachably connectable to each other.
The formation of a separate adapter part, which is for example manually connectable to the housing part and / or detachable, may in particular be made possible in a flexible and simple manner to realize different switch element circuits which are adapted to the given requirements. Thus, it may be possible, for example, different to use different switching element circuits by means of one and the same adapter part or the same switching element circuits with different adapter parts. For example, a plurality of different switching element circuits with different arrangements of contacting plugs of the switching element housing can be rearranged to a uniform arrangement or a uniform arrangement pattern of plug contacts on the adapter part, which are inserted into the printed circuit board. In that sense, the adapter part may be a recontacting layer or a recontacting element which acts similarly to a redistribution layer or redistribution layer (RDL) in packaged electronic circuits.
According to an exemplary embodiment of the switching element, the housing part has a plurality of contacting plugs, which are set up in such a way that by means of these the housing part can be connected to the adapter part. In particular, the contacting plug may be designed as a flat plug.
In particular, the contacting plugs may be tongue-shaped as flat plugs, and correspond to a corresponding number of fork contacts which are formed in the adapter part. Thus, it may be possible in a simple way to contact the housing part and the adapter part mechanically and / or electrically with each other. Such fork-tongues contacts may be an effective way of manually contacting or connecting two parts (housing part and adapter part), the connection being manually detachable, on the one hand, and adequate resistance or sufficient resistance against inadvertent loosening, for example by Vibrations, allow.
According to an exemplary embodiment of the switching element, the housing part and the adapter part are integrally formed. In particular, therefore, the housing part and adapter part may not be detachable, but only form portions of the overall housing.
In the following, embodiments of the adapter part will be described, but these also apply to the switching element and the connection arrangement.
According to an exemplary embodiment of the adapter part, the mounting holes are arranged in a predetermined arrangement pattern, which corresponds to a predetermined arrangement pattern of Kontaktierungssteckern a housed switching element.
By providing a predetermined arrangement pattern or an arrangement of the mounting holes in the adapter part, it may be possible to prevent a twisted mounting or fixing of the housed switching element on the adapter part, so that the reliability may be increased.
According to an exemplary embodiment of the adapter part, at least one of the plurality of fastening holes has a conductive region, which is electrically conductively connected to a corresponding one of the plurality of plug contacts.
In particular, several or all of the plurality of mounting holes may have a conductive portion, each of the conductive portions being connected to a corresponding one of the plurality of plug contacts. The conductive region may in this case be formed on the inner sides of the fastening holes, so that a slight electrical contacting of the housed switching element with the adapter part is made possible.
In summary, therefore, a key idea for an exemplary embodiment may be seen in providing a direct plug-in switching element which may be plugged directly into a printed circuit board, such as a printed circuit board, used, for example, in an automobile. This eliminates expensive soldering or welding processes. Preferably, the corresponding plug contacts of the direct plug-in switching element and corresponding to the plug holes of the printed circuit board to an arrangement pattern, which prevents unintentionally twisted insertion of the switching element in the circuit board. In addition, the plug contacts have a fuse feature, i. an element such as a barb, which prevents inadvertent release, for example by vibrations, or at least reduces the risk of the occurrence of such loosening. The Direktsteckschaltelement is preferably housed, wherein the housing may be integrally formed or alternatively has a housing part and an adapter part, which are connectable to each other.
In the following, for further explanation and for better understanding of the present invention, embodiments will be described in detail with reference to the accompanying drawings. Show it:
1 a spatial view of a direct plug-in switching element according to an exemplary embodiment;
2 an exploded view of the direct plug-in switching element 1 ;
3 a plug contact of a direct plug-in switching element in an enlarged view; and
4 a schematic view of a connection arrangement. The same or similar components in different figures are provided with the same reference numerals.
1 shows a spatial view of a direct plug-in switching element 100 , In particular shows 1 a housing part 101 and an adapter part 102 , what a 1 are plugged together or contacted. In the housing part 101 a switching element circuit, for example a relay or a fuse, (not shown) is arranged, which via Kontaktierungsstecker 103 with the adapter part 102 is contacted. The Kontaktierungsstecker are in the embodiment of 1 designed as a flat plug, which with contact holes (see. 2 ) of the adapter part 101 in contact or in connection to step. However, other suitable forms of Kontaktierungssteckern, such as spring-like or banana plugs are possible.
The adapter part 101 has on a first side of the contact holes and on another side, which in the embodiment of 2 opposite the first page is, plug contacts 104 on which a mounting area 107 and a connection area, which in 1 is not visible because it is inside the adapter part 101 is arranged. However, in other embodiments, the plug contacts may also be formed or arranged on lateral surfaces or sides of the adapter part. In the embodiment of 1 Each plug contact has two legs or legs 105 on, which together form a single plug-in contact and can be plugged together into a slot of a circuit board, such as a printed circuit board. By inserting two legs into a single plug hole, a relatively fixed attachment of the adapter part and thus the Direktsteckschaltelement be achieved on the circuit board when the individual legs have a certain elasticity and are compressed during insertion into plug holes of the circuit board and after insertion move something back outwards.
Preferably, all or at least one of the plug contacts to a security feature, by means of which an additional backup of the adapter part 102 and thus the entire Direktsteckschaltelements 100 is made possible on the circuit board. In the embodiment of 1 For example, this security feature is the provision of a barb 106 at the end of the plug contact 104 which is plugged into the circuit board. These barbs 106 engage behind the same after insertion into a printed circuit board and thus lead to unintentional release, for example by vibrations, is made impossible or at least made more difficult. As a result, the reliability of the switching element can be increased because the connection with the printed circuit board is made stronger or failsafe.
2 shows an exploded view of the Direktsteckschaltelement, from 1 which forms, for example, a direct plug-in relay or a direct-fuse. In particular shows 2 the housing part 101 and the adapter part 102 in a separate position, so that on the one hand the Kontaktierungsstecker 103 and the corresponding contact holes 210 are better visible in the adapter part. Corresponding to the flat plug-like shape of the Kontaktierungsstecker 103 have the contact holes 210 fork-shaped contact tongues 211 on, between which the flat plug-type Kontaktierungsstecker 103 of the housing part 101 be trapped. The tongues 211 provide, in case they are made of an electrically conductive material, at the same time a via of the Kontaktierungsstecker, which are connected to the switching element circuit of the housing part, and the plug contacts 104 of the adapter part available. so that the switching element circuit at a plugging in the plug contacts 104 in a circuit board is electrically connected to the circuit board. Furthermore, in 2 to realize that the contacting plug 103 of the housing part 101 have a predetermined arrangement or a predetermined arrangement pattern, which results in an arrangement of the contact holes 210 corresponds in the adapter part.
It should be noted that not all contact holes 210 with electrically conductive tongues 211 must be equipped. Through a specific selection, which of the contact holes 211 are provided with conductive contacts / tongues, a specific choice is possible as the corresponding switching element circuit is to be electrically contacted. In particular, the adapter component 102 also be designed or conceived as a kind of rewiring component or Umkontaktierungsbauteil, in which the arrangement of the terminals between an assignment in the switching element housing itself and the insertion of the adapter part in the circuit board can be adjusted depending on the wishes or needs.
3 shows a plug contact 104 of the direct plug-in switching element 100 in enlarged view. In particular, here are the two legs 105 of the plug contact and as a barb 106 recognize trained end of the plug contact. Furthermore, in 3 to recognize that a tip of the plug contact 104 rounded may be formed, whereby it is possible that an insertion of the plug contact 104 is simplified in a circuit board.
4 a schematic view of a connection arrangement 420 , In particular shows 4 a circuit board 421 into which a direct plug-in switching element, for example a direct plug-in relay or a direct plug-in fuse, 422 is plugged in. In contrast to the embodiment of 1 to 3 has the direct plug-in switching element 422 a one-piece housing 423 on, ie there is no separable from a housing part adapter part provided. plug contacts 405 are directly on the case 423 formed by barbs 406 the circuit board 421 engage behind, so that a fixed attachment of the Direktsteckschaltelements is made possible, which resists, for example, vibrations in a vehicle.
It should be noted that in addition to or as an alternative to the barbs on the plug contacts, which also serve for electrical contacting, plug-in contacts or screw contacts can also be provided as securing features which do not provide electrical contact, but only serve for a mechanical fuse. In this case, then also electrically contacting plug contacts are provided.
In addition, it should be noted that "encompassing" does not exclude other elements or steps, and "a" or "an" does not exclude a multitude. It should also be appreciated that features or steps described with reference to one of the above embodiments may also be used in combination with other features or steps of other embodiments described above. Reference signs in the claims are not to be considered as limiting.
WO 2010/063459 [0002]
EP 2246939 [0003]
Industrial standard ISO TS 16750, in particular ISO TS 16750-3 [0019]
Standard IEC 60512-4 [0019]
IEC 68.2.6 (vibration sinusoidal) [0019]
IEC 68-2-27 [0019]
IEC 68-2-29 (multiple shocking) [0019]
IEC 68-2-64 (broadband noise) [0019]
IEC 68-2-64 (vibration in a cold atmosphere) [0019]
IEC-68-2-50 [0019]
IEC-68-2-51 (vibration in a warm atmosphere) [0019]
Switching element ( 100 . 422 ) for direct insertion into a printed circuit board ( 421 ), wherein the switching element ( 100 . 422 ): a switching element circuit; and a plurality of plug contacts ( 104 ), whereby the plug contacts ( 104 ) a connection area connected to the switching element circuit and a mounting area ( 107 ), wherein the attachment area ( 107 ) is set up so that it directly into the circuit board ( 421 ) is insertable, and wherein the attachment area ( 107 ) a fuse element ( 106 ), which is set up such that inadvertent release of the connector is prevented.
Switching element ( 100 . 422 ) according to claim 1, wherein the plug contacts ( 104 ) are set up so that they are manually inserted into the printed circuit board ( 421 ) are plugged.
Switching element ( 100 . 422 ) according to claim 1 or 2, wherein the attachment of the attachment area ( 107 ) of the plug contacts ( 104 ) is vibration resistant.
Switching element ( 100 . 422 ) according to one of claims 1 to 3, wherein the securing element ( 106 ) is a mechanical security element.
Switching element ( 100 . 422 ) according to one of claims 1 to 4, wherein the switching element ( 100 . 422 ) a housing ( 101 . 102 . 423 ), in which the switching element circuit is arranged and on which the plurality of plug contacts ( 104 ) is arranged.
Switching element ( 100 . 422 ) according to one of claims 1 to 5, wherein the plurality of plug contacts ( 104 ) is arranged in a predetermined arrangement pattern.
Switching element ( 100 . 422 ) according to claim 5 or 6, wherein the housing ( 101 . 102 . 423 ) a housing part ( 101 ) and an adapter part ( 102 ) wherein in the housing part ( 101 ) the switching element circuit is arranged and wherein the plurality of plug contacts ( 104 ) on the adapter part ( 102 ) is attached.
Switching element ( 100 . 422 ) according to claim 7, wherein the housing part ( 101 ) and the adapter part ( 102 ) are releasably connectable to each other.
Switching element ( 100 . 422 ) according to one of claims 7 to 8, wherein the housing part ( 101 ) a plurality of contacting plugs ( 103 ), which are arranged such that by means of these the housing part ( 101 ) with the adapter part ( 102 ) is connectable.
Switching element ( 100 . 422 ) according to one of claims 1 to 7, wherein the housing part and the adapter part are integrally formed.
Adapter part ( 102 ) for a clad switching element ( 100 . 422 ), wherein the adapter part ( 102 ) has: a body, with two surfaces, a plurality of plug contacts ( 104 ); a plurality of mounting holes ( 210 ), which are adapted to Kontaktierungssteckern ( 103 ) of the housed switching element ( 100 . 422 ) to contact; wherein the plurality of plug contacts ( 104 ) is formed on one of the two surfaces and wherein the plurality of mounting holes ( 210 ) is formed on the other of the two surfaces.
Adapter part ( 102 ) according to claim 11, wherein the mounting holes ( 210 ) are arranged in a predetermined arrangement pattern, which corresponds to a predetermined arrangement pattern of Kontaktierungssteckern ( 103 ) of a packaged switching element ( 100 . 422 ) corresponds.
Adapter part ( 102 ) according to claim 11 or 12, wherein at least one of the plurality of mounting holes ( 210 ) a conductive area ( 211 ), which is electrically conductive with one of the plurality of plug contacts ( 104 ) connected is.
Connection arrangement ( 420 ), which comprises a switching element ( 100 . 422 ) according to any one of claims 1 to 10; and a printed circuit board ( 421 ) having a plurality of plug holes, wherein the switching element ( 100 . 422 ) with the plurality of plug contacts ( 104 . 405 ) is plugged into the plurality of plug holes.
Method for direct insertion of a packaged switching element ( 100 . 422 ) in a printed circuit board ( 421 ), the method comprising: providing a printed circuit board ( 421 ) with a plurality of plug holes; direct insertion of a packaged switching element ( 100 . 422 ), which has a plurality of plug contacts ( 104 . 405 ), wherein each of the plurality of plug contacts ( 104 . 405 ) is inserted into a corresponding plug hole of the circuit board.
DE201310220462 2013-10-10 2013-10-10 Direct plug-in switching element and connection arrangement with a direct plug-in switching element Pending DE102013220462A1 (en)
DE201310220462 DE102013220462A1 (en) 2013-10-10 2013-10-10 Direct plug-in switching element and connection arrangement with a direct plug-in switching element
CN201480055340.2A CN105684221A (en) 2013-10-10 2014-10-08 Direct plug switch element and connection arrangement comprising a direct plug switch element
TW103134950A TWI587583B (en) 2013-10-10 2014-10-08 Direct plug-in switching element and connection arrangement with a direct plug switching element
PCT/DE2014/000495 WO2015051778A2 (en) 2013-10-10 2014-10-08 Direct plug switch element and connection arrangement comprising a direct plug switch element
EP14808811.5A EP3055904A2 (en) 2013-10-10 2014-10-08 Direct plug switch element and connection arrangement comprising a direct plug switch element
US15/028,125 US9893443B2 (en) 2013-10-10 2014-10-08 Switch element having a housing part with switch element circuit and an adapter part with a plurality of plug contacts fastened therein
DE102013220462A1 true DE102013220462A1 (en) 2015-04-16
ID=52013796
DE201310220462 Pending DE102013220462A1 (en) 2013-10-10 2013-10-10 Direct plug-in switching element and connection arrangement with a direct plug-in switching element
US (1) US9893443B2 (en)
EP (1) EP3055904A2 (en)
CN (1) CN105684221A (en)
DE (1) DE102013220462A1 (en)
TW (1) TWI587583B (en)
WO (1) WO2015051778A2 (en)
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2013-10-10 DE DE201310220462 patent/DE102013220462A1/en active Pending
2014-10-08 US US15/028,125 patent/US9893443B2/en active Active
2014-10-08 EP EP14808811.5A patent/EP3055904A2/en active Pending
2014-10-08 WO PCT/DE2014/000495 patent/WO2015051778A2/en active Application Filing
2014-10-08 TW TW103134950A patent/TWI587583B/en active
2014-10-08 CN CN201480055340.2A patent/CN105684221A/en not_active Application Discontinuation
IEC 68.2.6 (vibration sinusoidal)
IEC 68-2-29 (multiple shocking)
IEC 68-2-64 (broad band noise)
IEC-68-2-50
IEC-68-2-51 (vibration in warm atmosphere)
IEC-68-2-64 (vibration in cold atmosphere)
Industrienorm ISO TS 16750, insbesondere ISO TS 16750-3
Norm IEC 60512-4
US20160248182A1 (en) 2016-08-25
WO2015051778A3 (en) 2015-07-30
WO2015051778A2 (en) 2015-04-16
TW201521293A (en) 2015-06-01
TWI587583B (en) 2017-06-11
US9893443B2 (en) 2018-02-13
EP3055904A2 (en) 2016-08-17
CN105684221A (en) 2016-06-15
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2014-07-09 R082 Change of representative
2014-09-08 R163 Identified publications notified