Combined socket with network and USB Ports.

专利摘要:
The invention relates to a socket unit (1) with a first slot (6) for receiving a power plug by plugging in the direction of a first plug-in axis (5) and a second slot (17) for receiving a USB plug by plugging in the direction of a second Thru-axle (18). A Wandlerprint (21) serves to supply the second slot (17) with electrical energy from the first slot (6). The first slot (6) and the second slot (17) are arranged side by side in the direction of the first thru-axle (5). The converter print (21) defines a plane whose first directional component (45) extends in the direction of the first plug-in axis (5). The converter print (21) is arranged laterally next to the first slot (6).
公开号:CH709888A2
申请号:CH01077/14
申请日:2014-07-16
公开日:2016-01-29
发明作者:Siegfried Mayer
申请人:Abb Schweiz Ag；
IPC主号:

专利说明:

TECHNICAL AREA
The invention relates to a combination socket with two different types of slots for receiving different device connectors.
STATE OF THE ART
Increasingly, USB ports serve as standard ports for charging the batteries of mobile audio or communication devices such as cellular phones, smartphones, MP3 players, tablets, cameras. In addition, there is a steadily growing number of other small devices such as mini fans, lights and the like, whose power is also via USB ports. All these devices are referred to below as small devices.
With increasing performance of these devices also increases their power consumption, so that these devices are connected at ever shorter intervals for charging to the mains.
This is done either via a USB charging station with an associated power supply, or alternatively have USB ports from a USB port of a portable computer such as notebooks or laptops, which often allow charging the small devices. In the former case, the power supply converts the current type and current size of the primary power network (for example, a 230 V AC power supply) into the current type and current size for the USB port (5 V DC).
In order to spare a user of the small appliance a search for USB charging stations with their own power supplies and electrical cables, several power strip units have been developed in recent years, both at least a first slot for receiving a power plug, as well as at least one second slot to accommodate a USB connector.
From EP 2 523 273 A1, for example, designed as a flush-mounted socket outlet unit is known, which in addition to a first slot forming socket base with plug contacts for receiving contact pins of a power plug also has a power supply module. The power module has a circuit board for powering the second slot formed as a USB socket. This socket unit has a layer-like basic structure, wherein the socket base is arranged between the power supply module and a central disk.
The problem with this socket unit is that the power supply of the second slot must be performed by the printed circuit board through the socket base and that a depth of the socket unit is greater than the depth of a socket unit of the same type without the second slot. This larger installation depth requires a correspondingly deeper opening for the so-called wall-mounting box when mounted in a wall. The making of various holes is not only troublesome for an electrician in new buildings, but also prevents a replacement of a standard socket against a combination socket of the same type in the course of retrofitting an existing electrical installation, because the existing opening for the wall box must be increased.
From US 2009/0315 509 A1 a further socket unit is known, in which a front panel, together with a base module, divides the interior of the socket unit into cells. In these cells two each a first slot forming socket with plug contacts for receiving pins of a power plug, and arranged on a Wandlerprint second slot in the form of a USB slot are arranged.
Although this embodiment allows an exchange of a dual mains socket against a combo socket of the same type with a USB port, but unfortunately offers only a satisfactory solution for dual power outlets, not for single outlets so a socket with a slot for receiving a single power plug.
PRESENTATION OF THE INVENTION
It is therefore an object of the invention to further develop the power strip unit with two different slots that even in one embodiment as a single power socket in the same opening (hereinafter referred to as wall opening) fits for a wall socket, such as a single mains socket of the same type without the second slot to accept the USB connector.
Put simply, the idea of the invention is that the Wandlerprint for supplying the second slot with electrical energy from the first slot in the direction of a thru-axle seen not behind, but is arranged laterally next to the first slot. This arrangement of the transducer print provides a greater degree of freedom for the design of the socket unit because it decouples the installation depth of the socket unit from the total width of the opening required for installation for the wall socket into two separate sub-problems. This orientation of the Wandlerprints affects the installation depth of the socket unit no longer directly and therefore allows replacement of a socket unit of the same type but without the second slot against a socket unit according to the invention, without needing to enlarge the already existing opening for the wall box in a wall.
This is advantageous not only for retrofitting existing electrical installations, because the electrician does not have to laboriously increase the existing opening for the wall socket to accommodate the combination socket, but also in new buildings, because he made for all power outlet units of the same type massively identical openings for wall mounting boxes can.
In a basic embodiment, the socket unit has a first slot for receiving a power plug by plugging in the direction of a first thru axle, and a second slot for receiving a USB connector by plugging in the direction of a second thru axle. The socket unit further has a Wandlerprint for supplying the second slot with electrical energy from the first slot, wherein the first slot and the second slot seen in the direction of insertion are arranged side by side. Due to its planar basic shape, the converter print defines a plane whose first directional component extends in the direction of the first plug-in axis. The resulting vertical arrangement of the transducer print in the direction of the first plug-in axis permits an arrangement of the transducer print laterally next to the first slot. This is the key to the realization of a dimensionally compact socket unit, which should have no thermal problems in the installed state of the socket unit.
If the first slot is recessed in a central disk, so that a socket receptacle for receiving the power plug is formed, the Wandlerprint is arranged laterally next to the socket receptacle of the first slot.
The lateral distance in the direction of a defined by the central disk transverse plane can be kept low at a wall socket with a single first slot for receiving a power plug, so that a mounting width of the socket unit, the installation width of a conventional power outlet unit with only a single first slot for recording of a power plug. As a result, the socket unit according to the present invention does not claim any wider opening for the wall boxes than that for conventional socket unit with only a single first slot for receiving a power plug.
The Wandlerprint has a switching logic, with which an electrical overload is detected during operation of the socket unit, and with which the power supply of the second slot is interruptible.
The second slot is mechanically connected to the Wandlerprint via a USB holder. The USB holder is designed so that it receives when inserting a USB connector in the second slot (ie the USB port) occurring mechanical forces in the direction of the second thru-axle and transmits in the installed state of the socket unit at attachment points of the socket unit to the wall without the converter print having to absorb these mechanical forces. In one embodiment, the USB holder has conically outwardly flared side flanks, which conform to the standard side cheeks of the USB ports when installed.
The connection between the USB holder and converter print is thus limited to the fact that only the Wandlerprint is mechanically attached to the USB holder, while the electrical connection between the second slot and Wandlerprint in operation use of the inventive socket unit is mechanically largely unencumbered, which is essential to Operational stability and error reduction of the inventive socket unit contributes. The USB holder is preferably made of electrically insulating material in order to keep the distance to the first slot as small as possible.
In order to keep the number of components as small as possible, the second slot is electrically connected directly to the Wandlerprint, for example via a solder joint.
The required plug contact tulips for receiving contact pins of the power plug are arranged in a carrier unit. In order to reliably and reliably ensure the electrical insulation between the individual current phases of the first slot during operation of the socket unit according to the invention, the carrier unit is preferably made of electrically insulating material. A plug contact tulip assigned to the neutral conductor has a first contact lug, and a plug contact tulip assigned to the phase conductor has a second contact lug. These tabs are used to power the Wandlerprints and the second slot.
In order to facilitate automated assembly of the inventive socket unit, the Wandlerprint has pluggable intermediate contacts for making electrical contact with the Wandlerprints on the tabs. An embodiment of the pluggable intermediate contacts as spring-cutting contacts allows a cost-effective yet very reliable electrical contacting of the Wandlerprints with the tabs.
In order to protect the Wandlerprint from unwanted mechanical damage, the inventive socket unit has an inner cover, which in turn has a recess for the implementation of the USB holder. In this case, the inner cover is shaped such that it forms after putting on the carrier unit together with the carrier unit a chamber in which chamber of the Wandlerprint is arranged. Depending on requirements, the chamber surrounds the converter print largely or even completely. If necessary, the connection between the carrier unit and the inner cover may have a seal.
Another advantage of the chamber is that it protects the Wandlerprint against unwanted manipulation during installation of the socket.
In order to realize a compact as possible inventive socket unit, it is advantageous if the inner cover is electrically insulating.
If the patch on the carrier unit inner cover at the same time at least partially covers the Steckkontakttulpen, so the Steckkontakttulpen<tb> a) <SEP> against being accidentally dropped out of the carrier unit; and<b> <b> <SEP> the plug-in socket fixing should be protected against tampering when installing the socket.
In order to realize a rational mounting and mounting of the USB holder on the inner cover, the USB holder with the inner cover in one embodiment is directly connected or connected via a first positive connection. In one embodiment variant of the first positive connection is designed as a latching connection, such as snap hook closure. Depending on requirements, the snap-lock hook can be arranged on the USB holder (or on the inner cover), while complementary-shaped latching lugs on the counterpart, so the inner cover (or the USB holder) are arranged.
The positive connection ensures that mechanical forces during insertion of the USB connector on the USB port on the inner cover are derived on the carrier unit and can not act on the Wandlerprint.
In another embodiment, the USB holder is not directly connected to the inner cover via a first positive connection, but indirectly via a USB cover. The term USB cover is understood to mean a component which at least partially covers the USB holder, but which does not obstruct access to the at least one second slot from the front side of the socket unit according to the invention.
If the USB holder in the mounted state of the inventive socket unit in a wall for some observers should not be visible for certain reasons, it is recommended that between the central pane and the USB holder an aesthetic cover in the form of the just mentioned USB Cover to provide. Possible reasons for an embodiment with such a USB cover may be:<tb> a) <USB> The USB holder does not meet the aesthetic requirements, for example, because it is purely functional and manufacturing process optimized;<b> <b> <SEP> the center plate and the USB cover are made of materials other than the USB holder, for example because they have to meet different electrical requirements;<tb> c) <SEP> the center plate and the USB cover are made of materials other than the USB holder, for example because they have different mechanical requirements such as impact resistance;<tb> d) <SEP> any mixture of the reasons a) to c).
To facilitate automated assembly of the inventive socket unit in these variants, it may be useful to connect the USB cover via a second positive connection with the inner cover, while the USB holder together with the Wandlerprint via a third positive connection connectable to the USB cover. Depending on requirements and manufacturability requirements, the second positive connection and / or the third positive connection can be designed as a latching connection with snap hooks and latching lugs.
Depending on the embodiment of the second and third positive connections, these can be zusammengeküppelt and decoupled non-destructive. The term "first positive connection" in this case can be understood as a generic term or collective term for the subsets "second form-fitting connection" and "third form-fitting connection".
In one embodiment of the inventive socket unit, the USB cover has a slot for receiving the USB holder. Connecting elements of the second positive connection are in such a way integrated into a shaft-forming structure of the USB cover that the second positive connection after attaching the USB cover to the inner cover, followed by inserting and locking the USB holder in the slot of the USB Cover is no longer unlocked by third positive connection. In other words, the mounting of the USB-C disk from a front side of the inventive socket unit forth to the inner cover, before the converter printing unit is inserted and locked with the USB holder and attached Wandlerprint in the shaft-forming structure of the USB cover. The term "front side" is understood to mean that side of the socket unit which, when installed, faces a viewer, while in this document a "back side" of the socket unit is understood to mean a bottom of the opening for the wall socket in a wall.
The USB holder prevents the USB cover can decouple from the inner cover, since, for example, in a snap connection, the snap hooks of the USB cover pending on the housing of the USB holder.
An advantage of such an embodiment is that the connection between the USB cover and the inner cover after the coupling together and the insertion of the USB holder together with transducer print is not non-destructive, whereby the manipulation security can be increased. An intact second positive connection can therefore serve as a guarantee seal for an intact USB unit.
A particularly efficient installation of the inventive socket unit can be achieved if the positive connection between the USB holder and inner cover when placing the inner cover on the carrier unit is automatically zusammenkuppelbar, for example by snap hooks engage in locking lugs.
Depending on requirements, it may be advantageous if a width of the Wandlerprints in the direction of the first thru axle is massively tuned to the USB holder and the inner cover, so that the spring cutting contacts when placing the inner cover on the carrier unit a predefinable minimum Have penetration depth in the contact lugs. An advantage of such an embodiment is that a precise and therefore expensive pre-positioning of the USB holder at a certain geometric location can be largely dispensed with, since sufficient positioning of spring-cutting contacts relative to the contact lugs via the inner cover with the USB cover is sufficient can be guaranteed.
Alternatively to the aforementioned embodiment, it may be advantageous if a width of the Wandlerprints in the direction of the first thru axle is massively tuned to the USB holder and the inner cover, that the spring cutting contacts when placing the inner cover on the carrier unit a predefinable have minimal penetration depth in the contact lugs, and thereby the USB holder is positionally positionable relative to the carrier unit via the Wandlerprint. In this installation variant, the converter print with the USB holder is first placed on the contact lugs and only then placed the inner cover on the carrier unit and coupled together.
In order to achieve optimal, convenient operation of both slots, it is recommended to arrange the second thru axle with respect to the first thru-axle so that the second thru axle extends in the same direction as the first thru axle.
If an installation depth of the inventive socket unit in the direction of the first thru-axle is equal to the same size as a mounting depth of a socket unit of the same type without the second slot, the latter can be replaced conveniently and with minimal effort against a combination socket according to the present invention, for example in the course of retrofit work in an existing building.
With regard to the mountability of the inventive socket unit on a wall (or on a wall-like structure), it has proved to be advantageous if the inventive socket unit has a support ring for securing the socket unit to the wall. In addition to a secure attachment of the socket unit on the wall, the mechanical forces occurring in the direction of the second thru axle when inserting and pulling out of power and USB plugs so ideal over attachment points of the support ring to the wall are transferable.
Least components are required if the support ring is releasably fastened to other attachment points of the inner cover. The detachable connection is preferably carried out via screws, which at the same time connect the inner cover firmly to the carrier unit.
In one embodiment of the inventive socket unit, this is designed as a so-called flush-mounted socket.
BRIEF DESCRIPTION OF THE DRAWINGS
Hereinafter, an embodiment of the invention will be explained in detail with reference to the drawing. This shows purely schematically<Tb> FIG. 1: <SEP> a spatially illustrated exploded view of a first embodiment of the socket unit according to the invention;<Tb> FIG. 2: <SEP> a three-dimensional view of a first pre-assembly unit comprising a transducer print, a USB holder and two second slots in the form of two USB ports;<Tb> FIG. 3: <SEP> is a perspective view of a second pre-assembly unit including an inner cover and a USB cover;<Tb> FIG. 4: a spatial view of a third preassembly unit comprising a carrier unit and plug contact tulips for receiving contact pins of a mains plug;<Tb> FIG. 5: <SEP> is a perspective view of certain parts of a fifth pre-assembly unit, in which the second pre-assembly unit is mounted on the third pre-assembly unit; and<Tb> FIG. FIG. 6 is a side view in partial section including the first embodiment of the socket unit installed in an opening in a wall. FIG.
The reference numerals used in the drawings and their meaning are summarized in the list of reference numerals. Basically, the same parts are provided with the same reference numerals in the figures. The described embodiments are exemplary of the subject invention and have no limiting effect.
WAY FOR CARRYING OUT THE INVENTION
From Fig. 1, in conjunction with Fig. 6 shows a first embodiment of the inventive socket unit 1. In particular, from the exploded view of the socket unit 1 shown in FIG. 1, it can be seen that the socket unit 1 has a central disk 2, a support ring 3 and a fifth preassembly unit 4, which are connected to one another in the direction of a first through-axle 5.
The central disk 2 has a first slot 6 for receiving a power plug by plugging in the direction of the first thru-axle 5. Next, the central disk 2 has a recess 7 for receiving and carrying a USB cover 8 and arranged therein USB holder 9.
The support ring 3 has, inter alia, attachment points 11 for fastening the socket unit 1 to a wall 12.
From Fig. 1 it is further apparent that the maximum transversely to the first thru axle 5 extending spatial extent of the fifth pre-assembly forms a pave width 13 of the insertable into a wall opening 14 portion of the inventive socket unit 1.
The fifth pre-assembly 4 in turn consists of pre-assembly units, which will be discussed in more detail later. As is further apparent from FIG. 1, the fifth pre-assembly unit 4 essentially comprises a carrier unit 15, an inner cover 16 and the USB cover 8, which has the USB holder 9 (not visible in FIG. 1) but which has two second slots 17 is provided in the form of so-called USB ports. A defined by the insertion second thru axle 18 of these second slots 17 extends in the same direction as the first thru axle. 5
The structure of subassemblies will be explained with reference to FIGS. 2 to 5. FIG. 2 shows a three-dimensional view of a first pre-assembly unit 20 comprising a converter board 21 and the USB holder 9. The converter board 21 serves to supply the second slots 17 with electrical energy from the first slot 6 during operation of the socket unit 1 Holder 9 with the two USB ports 17 was mechanically connected to the transducer board 21 by a snap-in connection or a through-hole connection, while the two USB ports 17 are electrically connected by soldering directly to the converter board 21. The converter print 21 further has first plug-in intermediate contacts in the form of spring-cutting contacts 22 in order to be supplied with electrical energy from the first slot 6. Thus, the second slots 17 are mechanically connected via a USB holder with the Wandlerprint 21.
Fig. 3 branches a spatial view of a second pre-assembly unit 23 comprising the inner cover 16, in which the USB cover 8 has been inserted and latched from the front of the socket unit ago. The locking took place via a second positive connection 24 between the USB cover and the inner cover. As can be seen from the synopsis with FIG. 6, the USB cover has snap-on hooks 25 which, upon reaching a predefined relative position of the USB cover 8 for the inner cover 16, engage behind latching lugs 26 of the inner cover 16. On the USB cover 8 also laterally projecting stops 27 are arranged, which limit the insertion of the USB cover 8 in the recess 7 of the inner cover 16 in the direction of the second thru axle 18.
4 shows a third preassembly unit 28, which accommodates the carrier unit 15, as well as a first, a second and a third plug contact tulip 29, 30, 31 for receiving a respective contact pins of a mains power plug. The plug contact tulips 29, 30, 31 are positioned by cage-like structural elements 32 of the carrier unit 15. The first plug contact tulip 29 serves to receive a contact pin of the power plug assigned to the neutral conductor, while the second plug contact tulip serves to receive a contact pin of the power plug assigned to the earth conductor. Accordingly, the third plug contact tulip for receiving a phase conductor associated contact pin of the power plug remains.
The neutral contact associated first Steckkontakttulpe 29 is electrically and mechanically connected to a first contact lug 33, while the phase conductor associated third Steckkontakttulpe 31 is electrically and mechanically connected to a second contact lug 34 for powering the Wandlerprints 21 and the second slots 17. The contact lugs 33, 34 are guided in channel-shaped structural elements 19 of the carrier unit 15.
If necessary, the Steckkontakttulpen the first slot are also covered by a sliding cover (English Shutter) covered when no power plug is in the first slot 6.
As is apparent from Fig. 6, the USB cover 8 has an open toward the back of the socket unit 1 slot 43. In order to form a fourth preassembly unit, which is not shown in a figurative manner, the first preassembly unit 20 was introduced from the rear side of the socket unit 1 into the slot 43 of the USB holder 9 and connected thereto via a third positive connection 35. Connecting elements of the third positive connection 35 are integrated into a shaft-forming structure of the USB cover 8 such that the second positive connection 24 after attaching the USB cover 8 to the inner cover 16, followed by insertion and locking of the USB holder. 9 in the shaft 43 is no longer nondestructively unlocked by pulling out in the direction of the first thru-axle 5.
5, the fifth pre-assembly unit 4 is shown, in which the fourth pre-assembly has been placed on the third pre-assembly 28 according to FIG. In order to be able to look into the interior of the chamber 36 formed by the inner cover 16 and the carrier unit 15, the illustration of the inner cover 16 and the USB cover 8 in FIG. 5 has been dispensed with. For this purpose, one of the two snap hooks of the third positive connection 35 between the USB cover and the USB holder is visible in FIG. 5, while the latching lugs of the inner cover cooperating with these snap hooks are likewise not shown in FIG. 5 in favor of a better overview.
From Fig. 5 it is further apparent that the spring cutting contacts 22 when placing the inner cover 16 of the second pre-assembly unit 23 on the carrier unit 15 of the third pre-assembly 28, a required depth of penetration into the contact lugs 33, 34, so that in operation Socket unit 1 a secure electrical contacting of the Wandlerprints 21 with the first and third Steckkontakttulpe 29, 31 is ensured. This is achieved in that a width 37 of the transducer print 21, which extends in the direction of the first plug-in axis 5, is massively matched to the USB holder 9 and the inner cover 16 in such a way that the spring-cutting contacts 22 engage when the inner cover 16 is placed the carrier unit 15 have a predefinable minimum penetration depth into the contact lugs 33, 34.
It is also apparent from FIGS. 3 to 5 that the carrier unit 15 and the inner cover 16 each have two further attachment points 42. With screws, not shown, which also interact with the support ring 3, the support unit 15 is fixed to the support ring 3 out, whereby the interposed, inner cover 16 is fixedly connected to the support unit 15.
From Fig. 6 finally shows that the central disk 2 by means of another screw 38 in a threaded hole 39 of the support unit 15 can be fastened. The threaded hole 39 intentionally allows different screw-in depths of the other screw 38 in the direction of the first thru-axle 5 in order to take into account different thickening thicknesses of the plaster 40 on the wall 12 and still allow a flush and secure seating of the central disc 2 on the plastered wall 12.
From Fig. 6 it is further apparent that an installation depth 41 of the insertable into the wall opening 14 portion of the socket unit 1 for a combination socket with power and USB slots is relatively low, which is a replacement of a conventional power outlet unit with only a single first Slot for receiving a power plug allows when the wall opening depth 46 is defined for receiving a conventional power outlet unit with only a single first slot for receiving a power plug.
From Fig. 6 it is further apparent that the patch on the support unit 15 inner cover 16, the plug contact tulips 29, 30, 31 at least partially covers.
FIG. 6 also shows, in conjunction with FIG. 5, that the first slot 6 and the second slots 17 are arranged next to each other in the direction of the first thru-axle 5. 6 also shows that the converter print 21 defines a plane 44 whose first direction component 45 extends in the direction of the first plug-in axis 5, and that the converter print 21 is arranged laterally next to the first slot 6.
LIST OF REFERENCE NUMBERS
[0063]<Tb> 1 <September> power strip<Tb> 2 <September> Cover plate<Tb> 3 <September> Support ring<tb> 4 <SEP> Fifth pre-assembly unit<tb> 5 <SEP> First thru-axle<tb> 6 <SEP> First slot<Tb> 7 <September> recess<Tb> 8 <September> USB cover<Tb> 9 <September> USB Holder<tb> 11 <SEP> Mounting points (on the support ring)<Tb> 12 <September> Wall<b> 13 <SEP> Installation width of the portion of the socket unit insertable into a wall opening<Tb> 14 <September> wall opening<Tb> 15 <September> carrier unit<tb> 16 <SEP> Inner cover<tb> 17 <SEP> Second slot / USB port<tb> 18 <SEP> Second thru-axle<tb> 19 <SEP> channel-shaped structural element<tb> 20 <SEP> First pre-assembly unit<Tb> 21 <September> Converter Print<tb> 22 <SEP> Pluggable intermediate contacts, for example, spring-loaded contacts<tb> 23 <SEP> Second pre-assembly unit<tb> 24 <SEP> second positive connection<tb> 25 <SEP> snap hooks of the second positive connection<tb> 26 <SEP> Latch of the second positive connection<Tb> 27 <September> stop<tb> 28 <SEP> Third pre-assembly unit<tb> 29 <SEP> Plug-in tulip for receiving a contact pin of the mains plug assigned to the neutral conductor<tb> 30 <SEP> Plug-in tulip for receiving a contact pin of the mains plug assigned to the earth conductor<tb> 31 <SEP> Plug-in tulip for receiving a contact pin of the mains plug assigned to the phase conductor<tb> 32 <SEP> Cage-like, fence-shaped structural element<tb> 33 <SEP> First contact banner<tb> 34 <SEP> Second contact banner<tb> 35 <SEP> third positive connection<Tb> 36 <September> Chamber<tb> 37 <SEP> Width of the transducer print<tb> 38 <SEP> More screw<Tb> 39 <September> threaded hole<Tb> 40 <September> Plastering<tb> 41 <SEP> Installation depth of the insertable into a wall opening portion of the socket unit<tb> 42 <SEP> Other mounting points<Tb> 43 <September> Mining<Tb> 44 <September> Level<tb> 45 <SEP> First directional component<Tb> 46 <September> wall opening depth

权利要求:
Claims (21)
[1]
1. socket unit (1), with a first slot (6) for receiving a power plug by plugging in the direction of a first plug-in axis (5), and a second slot (17) for receiving a USB plug by plugging in the direction of a second Thru-axle (18), anda Wandlerprint (21) for supplying the second slot (17) with electrical energy from the first slot (6),wherein the first slot (6) and the second slot (17) are arranged side by side in the direction of the first thru-axle (5),characterized in that the converter print (21) defines a plane (44) whose first directional component (45) extends in the direction of the first plug-in axis (5), and in that the converter print (21) is arranged laterally next to the first slot (6) ,
[2]
2. Socket unit according to claim 1, characterized in that the second slot (17) with the Wandlerprint (21) via a USB holder (9) is mechanically connected.
[3]
3. Socket unit according to claim 1 or 2, characterized in that the second slot (17) is electrically connected directly to the Wandlerprint (21).
[4]
4. Socket unit according to one of the preceding claims, further characterized by a support unit (15), which plug contact tulips (29, 30, 31) for receiving contact pins of the power plug.
[5]
5. Socket unit according to claim 4, characterized in that a neutral conductor associated Steckkontakttulpe (29) a first contact lug (33) and a phase conductor associated Steckkontakttulpe (31) a second contact lug (34) for powering the Wandlerprints (21) and the second Slot (17) have.
[6]
6. socket unit according to claim 5, characterized in that the Wandlerprint (21) pluggable intermediate contacts (22) for electrical contacting of the Wandlerprints (21) with the contact lugs (33, 34).
[7]
7. socket unit according to claim 6, characterized in that the plug-in intermediate contacts spring cutting contacts (22).
[8]
8. Socket assembly according to one of the preceding claims, further characterized by an inner cover (16) having a recess (7) for passing through the USB holder (9), wherein the inner cover (16) is shaped so that they after placement on the carrier unit (15) together with the carrier unit (15) forms a chamber (36), in which chamber (36) of the Wandlerprint (21) is arranged.
[9]
9. socket unit according to claim 8, characterized in that on the carrier unit (15) patch inner cover (16) covers the plug contact tulips (29, 30, 31) at least partially.
[10]
10. Socket unit according to claim 7 or 8, characterized in that the USB holder (9) is connected to the inner cover (16) via a first positive connection, in particular a first latching connection.
[11]
11. Socket unit according to claim 7 or 8, characterized in that it comprises a USB cover (8), which via a second positive connection (24) with the inner cover (16) is connectable, in particular a second latching connection (24).
[12]
12. socket unit according to claim 11, characterized in that the USB cover (8) has a slot (43) for receiving the USB holder (9),wherein connecting elements of the second positive connection (24) are integrated into a shaft forming structure of the USB cover (8) such that the second positive connection (24) after fixing the USB cover (8) to the inner cover (16), followed by insertion and locking of the USB holder (9) in the slot (43) of the USB cover (17) is no longer unlocked by pulling in the direction of the first thru axle (3) or second thru axle (5).
[13]
13. socket unit according to claim 10 or 11, characterized in that the positive connection (24) is a unlocking connection.
[14]
14. Socket unit according to claim 8, characterized in that the positive second connection (24) between the USB holder (9) and inner cover (16) when putting the inner cover (16) on the carrier unit (15) is automatically zusammenkuppelnd.
[15]
15. Socket unit according to claim 8, appended to claim 7, characterized in that a width (37) of the Wandlerprints (21) in the direction of the first thru-axle (5) massively on the USB holder (9) and the inner cover (16 ) is matched, that the spring cutting contacts (22) when placing the inner cover (16) on the carrier unit (15) have a predefinable minimum penetration depth in the contact lugs (33, 34).
[16]
16. Socket unit according to claim 8, appended to claim 7, characterized in that a width (37) of the Wandlerprints (21) in the direction of the first thru-axle (5) massively on the USB holder (9) and the inner cover (16 ) that the spring cutting contacts (22) when placing the inner cover (16) on the carrier unit (15) have a predefinable minimum penetration depth into the contact lugs (33, 34), and so that the USB holder (9) via the Wandlerprint (21) relative to the carrier unit (15) is positionally positionable.
[17]
17. Socket unit according to one of the preceding claims, characterized in that the second plug-in axis (18) extends in the same direction as the first plug-in axis (5).
[18]
18. Socket unit according to one of the preceding claims, characterized in that an installation depth (41) of the socket unit (1) in the direction of the first plug-in axis (5) is the same size as an installation depth of a socket unit of the same type without the second slot (17) ,
[19]
19. Socket unit according to one of the preceding claims, further characterized by a support ring (3) for securing the socket unit (1) on a wall (12).
[20]
20. Socket unit according to claim 19, characterized in that the support ring (3) releasably on further attachment points (42) of the inner cover (16) can be fastened.
[21]
21. Socket unit according to one of the preceding claims, characterized in that the socket unit (1) is a flush-mounted socket.

类似技术:

---

公开号 | 公开日 | 专利标题

---

EP2523273B1|2018-10-17|Wall outlet

---

DE102014223295A1|2015-05-21|Contact mechanisms for electrical socket assemblies

---

CH709888A2|2016-01-29|Combined socket with network and USB Ports.

---

DE102007063584B4|2017-08-24|Electrical installation device

---

EP3873768A1|2021-09-08|Charging device for electric vehicles

---

EP2348598B1|2018-10-24|Electrical built-in installation device for a mobile audio device

---

EP2315041A2|2011-04-27|Electronic electricity meter

---

EP2706633B1|2018-03-21|Insert for wall openings of installation cabinets

---

DE102009050606A1|2011-04-28|Electronic electricity meter for use by electronic installations of building, has retaining slot and connection terminal provided at insulated housing for electrically and mechanically coupling auxiliary device at electricity meter

---

DE102018126947A1|2020-04-30|ELECTRIC VEHICLE CHARGING STATION

---

EP2690730B1|2015-04-01|Installation system for electric installation

---

DE102018126949A1|2020-04-30|CHARGING DEVICE FOR ELECTRIC VEHICLES

---

DE102013109571A1|2015-03-05|Triplex plug for extension cable

---

DE202016105560U1|2018-01-09|socket module

---

DE102008061908B3|2010-07-01|Socket outlet distributor for modular system, has box-shaped distribution housing, which has inject connector or inlet and integrated socket outlet, which is electrically connected to inject connector or inlet

---

DE102011012884B3|2012-07-05|Corner adapter for surface mounting electrical / electronic flush-mounted installation material

---

DE10334071B4|2005-07-07|Plug connection system with integrated lock

---

DE102013022064B4|2015-11-26|Connector assembly for receiving electrical fuses, formed with a multiple encoding as a security device

---

EP2920852B1|2019-11-20|Socket insert

---

DE102006042692B3|2007-08-30|Data exchange modules e.g. TAE socket, installation device, has central piece provided with recess in arrangement of trio adapter, and cover plate provided with section adapted to piece, where recess unblocks holding regions

---

DE102005010726A1|2006-09-21|Installation equipment used in electrical installation system, has integrated WLAN | radio interface connected to voltage and data separator used for connection with PoE | bus or pole bus

---

WO2010133679A1|2010-11-25|Appliance installation device and method for producing the same

---

CH704554A2|2012-08-31|Electrical junction box.

---

WO2020120186A1|2020-06-18|Plug connector part for contacting in multiple spatial directions

---

EP2124307B1|2014-09-17|Electric installation device

同族专利:

---

公开号 | 公开日

---

CH709888B1|2018-06-15|

引用文献:

---

公开号 | 申请日 | 公开日 | 申请人 | 专利标题

---

DE102016122969A1|2016-11-29|2018-05-30|Airbus Operations Gmbh|CONNECTION BOX FOR A SYSTEM OF AN AIRCRAFT|

---

法律状态:

优先权:

---

申请号 | 申请日 | 专利标题

---

CH01077/14A|CH709888B1|2014-07-16|2014-07-16|Combi box with mains and USB slots.|CH01077/14A| CH709888B1|2014-07-16|2014-07-16|Combi box with mains and USB slots.|