NL2031018A - A connector plug and a connector socket - Google Patents

A connector plug and a connector socket Download PDF

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Publication number
NL2031018A
NL2031018A NL2031018A NL2031018A NL2031018A NL 2031018 A NL2031018 A NL 2031018A NL 2031018 A NL2031018 A NL 2031018A NL 2031018 A NL2031018 A NL 2031018A NL 2031018 A NL2031018 A NL 2031018A
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NL
Netherlands
Prior art keywords
data signal
connector
section
dielectric
power supply
Prior art date
Application number
NL2031018A
Other languages
Dutch (nl)
Inventor
Zaslavskis Olegs
Original Assignee
Zaslavskis Olegs
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Filing date
Publication date
Application filed by Zaslavskis Olegs filed Critical Zaslavskis Olegs
Publication of NL2031018A publication Critical patent/NL2031018A/en

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Classifications

    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01RELECTRICALLY-CONDUCTIVE CONNECTIONS; STRUCTURAL ASSOCIATIONS OF A PLURALITY OF MUTUALLY-INSULATED ELECTRICAL CONNECTING ELEMENTS; COUPLING DEVICES; CURRENT COLLECTORS
    • H01R24/00Two-part coupling devices, or either of their cooperating parts, characterised by their overall structure
    • H01R24/60Contacts spaced along planar side wall transverse to longitudinal axis of engagement
    • HELECTRICITY
    • H01ELECTRIC 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
    • H01R13/648Protective earth or shield arrangements on coupling devices, e.g. anti-static shielding  
    • H01R13/658High frequency shielding arrangements, e.g. against EMI [Electro-Magnetic Interference] or EMP [Electro-Magnetic Pulse]
    • H01R13/6581Shield structure
    • H01R13/6585Shielding material individually surrounding or interposed between mutually spaced contacts
    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01RELECTRICALLY-CONDUCTIVE CONNECTIONS; STRUCTURAL ASSOCIATIONS OF A PLURALITY OF MUTUALLY-INSULATED ELECTRICAL CONNECTING ELEMENTS; COUPLING DEVICES; CURRENT COLLECTORS
    • H01R2107/00Four or more poles

Landscapes

  • Details Of Connecting Devices For Male And Female Coupling (AREA)
  • Coupling Device And Connection With Printed Circuit (AREA)

Abstract

The present invention relates to connectors comprising connector plugs and connector sockets for connecting low-voltage power circuits and data transmission channels. The connector plug 5 comprises a base (21) and a tongue part (22). The tongue part (22) comprises a grounding plate (13), a first and a second dielectric pad (14,15), two sets of data signal terminals (2-5, 8- 11) and four power supply terminals (1,6,7,12). The connector socket (46) comprises a dielectric frame (44) and a connector plug receiVing hole (45). The connector plug receiVing hole (45) has a H-shape cross section so that it can receive said tongue part (22) of the connector 10 plug. The connector socket (46) comprises a dielectric frame (44), two grounding plates (36; 43), four power supply terminals (30; 35; 37; 42) and two sets of data signal terminals (31-34, 38-41) built into the dielectric frame (44). Figure 1 15 20

Description

A CONNECTOR PLUG AND A CONNECTOR SOCKET
DESCRIPTION Field of the invention
[001] The present invention relates to connector comprising of plug and socket for connecting low-voltage power circuits and data transmission channels. The invention also relates to input/output electrical connectors such as connectors for audio(s) and data connectors and connectors for powering electronic and electrical devices.
Background of the invention
[002] In the prior art it is well known that for devices over 50 watts two different connectors are used — one for a power supply and another one for a data transfer. Another standard for connecting electronic devices up to 20 watts is a universal serial bus (USB) power type-C connector. However, its dimensions and design does not allow connecting devices with a power of more than 240 watts at a used voltage of 48 volts.
[003] European patent publication No. EP3128625 and international patent application publication No. WO2006045243 disclose a USB socket comprising metal terminals, which contact with the electrical contacts on the tongue piece of the USB socket when the USB connector plug is inserted into the USB socket, and a base for carrying the metal terminals. The metal terminals are two groups, which can accomplish transferring standard USB signals separately, and the two groups of metal terminals are positioned on the opposite surface of the base. Similarly, USB Type-C connectors are designed.
[004] Taiwanese utility model registration publication No. TWM614748U discloses a USB
Type-C positioning connector comprising an insulating body, a terminal set of insulating plates and a disposable positioning member, the insulating body comprising an upper base and a lower base which are formed on opposite inner sides; the set of terminals is located inside the insulating body and includes an upper set of terminals formed on the upper base and a lower set of terminals formed on the lower base.
[005] European patent application Nos. EP2577813 and EP2728680 discloses a plug connector having a connector output with the first and the second main opposite sides and the third and the fourth opposite sides stretched between the first and the second main sides, as well as a variety of electric contacts transferred by the connector output. The variety of contacts includes the first set of external contacts, which 1s formed on the first main side, and the second set of external contacts, which is formed on the second main side. The first variety of contacts is symmetrically spaced with the second variety of the contacts, and the connector output has a shape with a 180-degree symmetry so that it can be inserted and functionally connected to the corresponding receptacle connector in any of the two insertion orientations. Fixation devices formed on the third and the fourth sides near a distal end of the connector project as grounding contacts.
[006] Aforementioned solutions are used for the connection of devices with a power of up to 240 watts at a voltage of up to 48 volts and there is no separation of information lines and power lines, while much thinner conductors are used that do not allow connecting the required power. Thus, a disadvantage of the prior art is that only low power devices can be connected.
[007] The technical problem of the invention is to create a system that allows simultaneously connection of power lines up to 1 kW to 2 kW and data transmission channels, and in the same time provides minimum size and electrical safety.
Summary of the invention
[008] Aim of the invention is reached by design of a connector comprising a connector plug and a connector socket for connecting low-voltage power circuits and data transmission channels.
[009] The connector plug comprises a base, a tongue part and a cable. The tongue part of the connector plug comprises a grounding plate and a first and a second dielectric pad. The first dielectric pad is arranged on one side of the grounding pad and the second dielectric pad is arranged on the opposite side of the grounding pad. The tongue part of the connector plug comprises two sets of data signal terminals. Each set comprises four data signal terminals and each set is arranged on respective dielectric pad. Each dielectric pad comprises four recesses where in each recess one of four data signal terminals is arranged so that data signal terminals are isolated from each other. The tongue part of the connector plug further comprises four power supply terminals arranged on each corner of the tongue part. Each two power supply terminals are on each dielectric pad and each power supply terminal has four sides and two sides of each power supply terminal are covered by the dielectric pad isolating the power supply terminals from the grounding plate and from the data signal terminals. Each of four power supply terminals is arranged on each of four corners of the connector plug.
[010] The cross section of the data signal terminal is 0.5 x 0.5 mm. The cross section of the power supply terminal is 2.5 x 4.0 mm. The thickness of the section formed by the grounding plate and the first and the second dielectric pad is 2.0 mm. The length of the tongue part is equal to the width of the tongue part. The width of the tongue part is 12.7 mm and the thickness of the tongue part is 7.0 mm. The grounding plate extends along the entire width of the tongue part dividing the tongue part in two symmetrical parts. Each said part comprises one dielectric pad, one set of the data signal terminals and two power supply terminals. The thickness of the extrusion of the dielectric pad between the power supply terminal and the data signal terminal is 0.6 mm.
[011] The connector socket comprises a dielectric frame and a connector plug receiving hole.
The connector plug receiving hole has a H-shape cross section which allows to insert the connector plug having the same H-shape cross section. The width of the H-shape cross section of the connector plug receiving hole is 12.7 mm and the height of the H-shape cross section of the connector plug receiving hole is 7.0 mm.
[012] The connector socket comprises two grounding plates. The grounding plate has rectangular cross-section. Both grounding plates are opposed to each other and built into the dielectric frame so that one face of four faces of the grounding plate is exposed to the connector plug receiving hole. The cross section of grounding plate is 1.0 x 0.5 mm.
[013] The connector socket comprises four power supply terminals. The power supply terminal has rectangular cross-section. Each power supply terminal is arranged on each corner of the connector plug receiving hole and built into the dielectric frame so that one face of four faces of the power supply terminal is exposed to the connector plug receiving hole. The cross section of the power supply terminal is 2.5 x 4.0 mm.
[014] The connector socket comprises two sets of data signal terminals. Each set comprises four data signal terminals and both sets of data signal terminals are opposed to each other. Each data signal terminal has rectangular cross-section. The cross section of the data signal terminal 150.5 x 0.5 mm. Two of four data signal terminals in one set are built into the dielectric frame so that two faces of four faces of the data signal terminal is exposed to the connector plug receiving hole. Another two of four data signal terminals in one set are built into the dielectric frame so that one face of four faces of the data signal terminal is exposed to the connector plug receiving hole.
[015] This connector comprising the connector plug and the connector socket allows to connect devices with a power network up to 36 volts and data channels with one cable. It also allows increasing an electrical power of the connected device while maintaining the minimum dimensions and as said previously a possibility of using one cable for connection.
Brief description of the drawings
[016] The drawings illustrate generally, by way of example, but not by way of limitation, various embodiments of the invention.
[017] Fig. 1 is a top view of a connector plug.
[018] Fig. 2 is a front view of a connector plug.
[019] Fig. 3 is a front view of a connector socket.
Detailed description of the embodiments
[020] The preferred embodiments of the invention are now described with reference to the figures to illustrate objectives, advantages, and efficiency of the present invention.
[021] Figs. 1 and 2 illustrate a connector plug for connecting low-voltage power circuits and data transmission channels. The connector plug comprises a base (21) and a tongue part (22).
The base part (21) is connected to the low-voltage and data cable (23). The width of tongue part (22) is 12.7 mm and the length of tongue part (22) is 12.7 mm. The thickness of tongue part (22) is 7.5 mm (see Figs. 1 and 2).
[022] The tongue part (22) comprises a grounding plate (13) and a first and a second dielectric pad (14; 15). The first dielectric pad (14) is arranged on one side of the grounding pad (13) and the second dielectric pad (15) 1s arranged on the opposite side of the grounding pad (13). The thickness of the grounding plate (13) with its dielectric pad (14; 15) is 2 mm. Moreover, the grounding plate (13) extends along the entire width of the tongue part (22) dividing the tongue part (22) in two symmetrical parts (see Figs. 1 and 2).
[023] The tongue part (22) comprises two sets of data signal terminals (2-5; 8-11). Each set comprises four data signal terminals (2-5; 8-11) and each set is arranged on respective dielectric pad (14; 15). One set of four data signal terminals (2-5) is arranged on the second dielectric pad (15). Another set of four data signal terminals (8-11) is arranged on the first dielectric pad (14). Each dielectric pad (14;15) comprises four recesses where in each recess one of four data signal terminals (2-5; 8-11) is arranged so that the data signal terminals (2-5; 8-11) are isolated from each other. The recesses in the dielectric pads (14;15) are so deep that between the data signal terminals (2-5; 8-11) protrusions (16-20) are formed fully isolating the data signal terminals (2-5; 8-11) from each other. The cross section of the data signal terminal (2-5; 8-11) is 0.5 x 0.5 mm. The protrusions (17-19) of the dielectric pad (14; 15) the data signal terminals (2-5; 8-11) are 0.5. high and 0.5 mm thick (see Figs. 1 and 2).
[024] The tongue plug (22) comprises four power supply terminals (1; 6; 7; 12) arranged on each corner of the tongue part (2). Each two power supply terminals (1; 6; 7; 12) are on each dielectric pad (14 and 15). Each power supply terminal (1; 6; 7; 12) has four sides and two sides of each power supply terminal (1; 6; 7; 12) are covered by the dielectric pad (14; 15) and 5 protrusions (16;20) thereof, isolating the power supply terminals (1; 6; 7, 12) from the grounding plate (13) and from the data signal terminals (2-5; 8-11). The cross section of the power supply terminal (1; 6; 7; 12) is 2.5 x 4.0 mm. The protrusions (16; 20) of the dielectric pad (14; 15) at the power supply terminal (1; 6; 7; 12) are 2.5 high and 0.6 mm thick (see
Figs. 1 and 2).
[025] Fig. 3 illustrates the connector socket (46) comprising a dielectric frame (44) and a connector plug receiving hole (45). The connector plug receiving hole (45) has a H-shape cross section allowing to insert the tongue part (22) of the connector plug. Accordingly, the width of the H-shape cross section of the connector plug receiving hole (45) is 12.7 mm and the height of the H-shape cross section of the connector plug receiving hole (45) is 7.0 mm.
[026] The connector socket comprises two grounding plates (36; 43) having rectangular cross- section and both grounding plates (36; 43) are opposed to each other and built into the dielectric frame (44) so that one face of four faces of the grounding plate (36; 43) is exposed to the connector plug receiving hole (45). The cross section of grounding plate (36; 43) is 1.0 x 0.5 mm. The exposed face is 1.0 mm in width (see Fig. 3).
[027] The connector socket comprises four power supply terminals (30; 35; 37; 42) having rectangular cross-section. The cross section of the power supply terminal (30; 35; 37; 42) is 2.5 x 4.0 mm. Each power supply terminal (30; 35; 37; 42) is arranged on each corner of the connector plug receiving hole (45) and built into the dielectric frame (44) so that one face of four faces of the power supply terminal (30; 35; 37; 42) is exposed to the connector plug receiving hole (45) (see Fig. 3).
[028] The connector socket comprises two sets of data signal terminals (31-34; 38-41). Each set comprises four data signal terminals (31-34; 38-41) and both sets of data signal terminals (31-34; 38-41) are opposed to each other. Each data signal terminal (31-34; 38-41) has rectangular cross-section. The cross section of the data signal terminal (31-34; 38-41) is 0.5 x 0.5 mm. Two of four data signal terminals (31; 34; 38; 41) in one set are built into the dielectric frame (44) so that two faces of four faces of the data signal terminal (31; 34; 38; 41) is exposed to the connector plug receiving hole (45). Two of four data signal terminals (32; 33; 39; 40) in one set are built into the dielectric frame (44) so that one face of four faces of the data signal terminal (32; 33; 39; 40) is exposed to the connector plug receiving hole (45) (see Fig. 3).
[029] Table 1 provides a specification of the terminals of the connector plug (22) and the connector socket (46). Table 1 also provides a specification for other elements of the connector plug (22) and the connector socket (46).
Table 1
Specification of the terminals of the connector plug and the connector socket.
Ce [Sees
Tm ee wets
Cm ee toon
TE [we ees
Cl [Cee ee ew
EE ree
Treen ree
Ol [Pores
Treen wee (we reese
Cl eG
Sl eG ee
EO Comma el ewe
[030] While the invention may be susceptible to various modifications and alternative forms, specific embodiments of which have been shown by way of example in the figures and have been described in detail herein, it should be understood that the invention is not intended to be limited to the particular forms disclosed. Rather, the invention includes all modifications, equivalents, and alternatives falling within the scope of the invention as defined by the following claims.
EMBODIMENTS
1. A connector plug for connecting low-voltage power circuits and data transmission channels, wherein the connector plug comprises a base (21) and a tongue part (22), characterized in that the tongue part (22) comprises: a grounding plate (13); a first and a second dielectric pad (14; 15), wherein the first dielectric pad (14) is arranged on one side of the grounding pad (13) and the second dielectric pad (15) is arranged on the opposite side of the grounding pad (13); two sets of data signal terminals (2-5; 8-11), wherein each set comprises four data signal terminals (2-5; 8-11) and each set is arranged on respective dielectric pad (14; 15), and wherein each dielectric pad (14;15) comprises four recesses where in each recess one of four data signal terminals (2-5; 8-11) 1s arranged so that data signal terminals (2-5; 8-11) are isolated from each other; four power supply terminals (1; 6; 7; 12) arranged on each corner of the tongue part (2), wherein each two power supply terminals (1;6; 7; 12) are on each dielectric pad (14 and 15) and wherein each power supply terminal (1; 6; 7; 12) has four sides and two sides of each power supply terminal (1; 6; 7; 12) are covered by the dielectric pad (14; 15) isolating the power supply terminals (1; 6; 7; 12) from the grounding plate (13) and from the data signal terminals (2-5; 8-11).
2. The connector plug according to claim 1, characterized in that the cross section of the data signal terminal (2-5; 8-11) is 0.5 x 0.5 mm, the cross section of the power supply terminal (1; 6; 7; 12) is 2.5 x 4.0 mm.
3. The connector plug according to claim 1 or 2, characterized in that the width of the tongue part (22) is 12.7 mm and the thickness of the tongue part (22) is 7.0 mm, wherein the grounding plate (13) extends along the entire width of the tongue part (22) dividing the tongue part (22) in two symmetrical parts, wherein each said part comprises one dielectric pad (14; 15), one set of the data signal terminals (2-5; 8-11) and two power supply terminals (1; 6; 7; 12).
4. The connector plug according to any of claims | to 3, characterized in that the thickness of the section formed by the grounding plate (13) and the first and the second dielectric pad (14; 15) 1s 2.0 mm.
5. The connector plug according to any of claims 1 to 4, characterized in that the length of the tongue part (22) is equal to the width of the tongue part (22). 6. A connector socket (46) for connecting low-voltage power circuits and data transmission channels, wherein the connector socket comprises a dielectric frame (44) and a connector plug receiving hole (45), characterized in that the connector plug receiving hole (45) has a H-shape cross section and the connector socket comprises: two grounding plates (36; 43) having rectangular cross-section and both grounding plates (36; 43) are opposed to each other and built into the dielectric frame (44) so that one face of four faces of the grounding plate (36; 43) is exposed to the connector plug receiving hole (45); four power supply terminals (30; 35; 37; 42) having rectangular cross-section and arranged on each corner of the connector plug receiving hole (45) and built into the dielectric frame (44) so that one face of four faces of the power supply terminal (30; 35; 37; 42) is exposed to the connector plug receiving hole (45);
two sets of data signal terminals (31-34; 38-41), wherein each set comprises four data signal terminals (31-34; 38-41) and both sets of data signal terminals (31-34; 38-41) are opposed to each other, wherein each data signal terminal (31-34; 38-41) has rectangular cross-section, wherein two of four data signal terminals (31; 34; 38; 41) in one set are built into the dielectric frame (44) so that two faces of four faces of the data signal terminal (31; 34; 38; 41) is exposed to the connector plug receiving hole (45) and wherein two of four data signal terminals (32; 33; 39; 40) in one set are built into the dielectric frame (44) so that one face of four faces of the data signal terminal (32; 33; 39; 40) is exposed to the connector plug receiving hole (45).
7. The connector socket (46) according to claim 6, characterized in that the cross section of the data signal terminal (31-34; 38-41) is 0.5 x 0.5 mm, the cross section of the power supply terminal (30; 35; 37; 42) is 2.5 x 4.0 mm.
8. The connector socket (46) according to claim 6 or 7, characterized in that the cross section of grounding plate (36; 43) is 1.0 x 0.5 mm.
9. The connector socket (46) according to any of claims 6 to 8, characterized in that the width of the H-shape cross section of the connector plug receiving hole (45) is 12.7 mm and the height of the H-shape cross section of the connector plug receiving hole (45) is 7.0 mm.
10. A connector comprising the connector plug according to any of claims 1 to 5 and the connector socket according to any of claims 6 to 9.

Claims (10)

CONCLUSIESCONCLUSIONS 1. Aansluitstekker voor het aansluiten van laagspanningsstroomcircuits en datatransmissiekanalen, waarbij de connectorstekker een basis (21) en een tongdeel (22) omvat, met het kenmerk dat het tongdeel (22) omvat: een aardingsplaat (13); een eerste en een tweede diëlektrische contactvlak (14; 15), waarbij het eerste diëlektrische contactvlak (14) is aangebracht aan een zijde van de aardingsplaat (13) en het tweede diëlektrische contactvlak (15) 1s aangebracht aan de andere zijde van de aardingsplaat (13); twee sets datasignaalaansluitpunten (2-5; 8-11), waarbij elke set vier datasignaalaansluitpunten (2-5; 8-11) omvat en elke set is gerangschikt op het respectieve diëlektrische contactvlak (14; 15), en waarbij elk diëlektrisch contactvlak (14:15) vier uitsparingen omvat waarbij in elke uitsparing een van de vier datasignaalaansluitpunten (2-5; 8-11) is aangebracht zodat de datasignaalaansluitpunten (2-5; 8-11) van elkaar zijn geïsoleerd; vier voedingsaansluitpunten (1; 6; 7; 12) aangebracht op elke hoek van het tongdeel (2), waarbij elk twee voedingsaansluitpunten (1; 6; 7; 12) zich op elk diëlektrisch contactvlak (14 en 15) bevinden en waarbij elke voedingsaansluitpunt (1; 6; 7; 12) vier zijden heeft en twee zijden van elke voedingsaansluitpunt (1; 6; 7; 12) bedekt zijn door het diëlektrisch contactvlak (14; 15) dat de voedingaansluitpunten (1; 6; 7; 12) isoleert van de aardingsplaat (13) en van de datasignaalaansluitpunten (2-5; 8-11).A connector plug for connecting low-voltage power circuits and data transmission channels, the connector plug comprising a base (21) and a tongue portion (22), characterized in that the tongue portion (22) comprises: a grounding plate (13); a first and a second dielectric contact pad (14; 15), the first dielectric contact pad (14) being provided on one side of the grounding plate (13) and the second dielectric contacting pad (15) being provided on the other side of the grounding plate ( 13); two sets of data signal terminals (2-5; 8-11), each set including four data signal terminals (2-5; 8-11) and each set arranged on the respective dielectric contact pad (14; 15), and each dielectric contact pad ( 14:15) comprises four recesses, each recess housing one of the four data signal terminals (2-5; 8-11) so that the data signal terminals (2-5; 8-11) are isolated from each other; four power supply terminals (1; 6; 7; 12) provided at each corner of the tongue portion (2), each with two power supply terminals (1; 6; 7; 12) located on each dielectric contact surface (14 and 15), and each power supply terminal (1; 6; 7; 12) has four sides and two sides of each power terminal (1; 6; 7; 12) are covered by the dielectric contact pad (14; 15) connecting the power terminals (1; 6; 7; 12) isolates from the ground plate (13) and from the data signal terminals (2-5; 8-11). 2. Aansluitstekker volgens conclusie 1, met het kenmerk, dat de doorsnede van het datasignaalaansluitpunt (2-5; 8-11) 0,5 x 0,5 mm is, de doorsnede van het voedingsaansluitpunt (1; 6; 7) ; 12) 2,5 x 4,0 mm is.Plug connector according to claim 1, characterized in that the cross-section of the data signal terminal (2-5; 8-11) is 0.5 x 0.5 mm, the cross-section of the power supply terminal (1; 6; 7); 12) is 2.5 x 4.0 mm. 3. Aansluitstekker volgens conclusie 1 of 2, met het kenmerk, dat de breedte van het tongdeel (22) 12,7 mm is en de dikte van het tongdeel (22) 7,0 mm is, waarbij de aardingsplaat (13) zich uitstrekt langs de gehele breedte van het tongdeel (22) zodat het tongdeel (22) in twee symmetrische delen is verdeeld, waarbij elk genoemd deel één diëlektrisch contactvlak (14; 15), één set datasignaalaansluitpunten (2-5; 8-11) en twee voedingscontactvlakken (1; 6; 7; 12) omvat.Connecting plug according to claim 1 or 2, characterized in that the width of the tongue part (22) is 12.7 mm and the thickness of the tongue part (22) is 7.0 mm, the grounding plate (13) extending along the entire width of the tongue portion (22) so that the tongue portion (22) is divided into two symmetrical portions, each said portion comprising one dielectric contact pad (14; 15), one set of data signal terminals (2-5; 8-11) and two power contact pads (1; 6; 7; 12). 4. Aansluitstekker volgens een van de conclusies 1 tot 3, met het kenmerk, dat de dikte van het gedeelte gevormd door de aardingsplaat (13) en het eerste en het tweede diëlektrische contactvlak (14; 15) 2,0 mm is.Plug connector according to one of Claims 1 to 3, characterized in that the thickness of the portion formed by the earthing plate (13) and the first and second dielectric contact surfaces (14; 15) is 2.0 mm. 5. Aansluitstekker volgens een van de conclusies 1 tot 4, met het kenmerk, dat de lengte van het tongdeel (22) gelijk is aan de breedte van het tongdeel (22).Connecting plug according to one of Claims 1 to 4, characterized in that the length of the tongue portion (22) is equal to the width of the tongue portion (22). 6. Aansluithouder (46) voor het aansluiten van laagspanningsstroomcircuits en datatransmissiekanalen, waarbij de aansluithouder een diëlektrisch frame (44) en een aansluitstekkeropnameopening (45) omvat, met het kenmerk dat de aansluitstekkeropnameopening ( 45) een H-vormige doorsnede heeft en de aansluithouder omvat: twee aardingsplaten (36; 43) met rechthoekige dwarsdoorsnede en beide aardingsplaten (36; 43) tegenover elkaar zijn geplaatst en ingebouwd in het diëlektrische frame (44) zodat één vlak van vier vlakken van de aardingsplaat (36; 43) blootgesteld is aan aansluitstekkeropnameopening (45), vier voedingsaansluitcontactvlakken (30; 35; 37; 42) met rechthoekige doorsnede en aangebracht op elke hoek van de aansluitstekkeropnameopening (45) en ingebouwd in het diëlektrische frame (44) zodat één zijde van vier zijden van de voedingsaansluitingscontactvlakken (30; 35; 37; 42) is blootgesteld aan de aansluitstekkeropnameopening (45); twee sets datasignaalcontactvlakken (31-34; 38-41), waarbij elke set vier datasignaalcontactvlakken (31-34; 38-41) omvat en beide sets datasignaalcontactvlakken (31- 34; 38-41) tegenover elkaar zijn geplaatst, waarbij elk datasignaalcontactvlak (31-34; 38-41) een rechthoekige doorsnede heeft, waarbij twee van vier datasignaalcontactvlakken (31; 34; 38; 41) in één set in het diëlektrische frame zijn ingebouwd (44) zodat twee vlakken van vier vlakken van de datasignaalcontactvlak (31; 34; 38; 41) blootgesteld zijn aan de aansluitstekkeropnameopening (45) en waarbij twee van vier datasignaalcontactvlakken (32; 33; 39; 40) in één set zijn ingebouwd in het diëlektrische frame (44) zodat één zijde van vier vlakken van de datasignaalcontactvlak (32; 33; 39; 40) blootgesteld is aan de aansluitstekkeropnameopening (45).Connection holder (46) for connecting low-voltage power circuits and data transmission channels, wherein the connection holder comprises a dielectric frame (44) and a connection plug receiving opening (45), characterized in that the connecting plug receiving opening (45) has an H-shaped cross-section and comprises the connection holder : two earthing plates (36; 43) with rectangular cross-section and both earthing plates (36; 43) are placed opposite each other and built into the dielectric frame (44) so that one face of four faces of the earthing plate (36; 43) is exposed to the terminal receptacle opening (45), four power supply terminal pads (30; 35; 37; 42) of rectangular cross-section and disposed at each corner of the terminal receptacle opening (45) and built into the dielectric frame (44) so that one side of four sides of the power supply terminal pads (30; 35; 37; 42) is exposed to the connector receptacle opening (45); two sets of data signal pads (31-34; 38-41), each set comprising four data signal pads (31-34; 38-41), and both sets of data signal pads (31-34; 38-41) are placed opposite each other, each data signal pad ( 31-34; 38-41) has a rectangular cross-section, with two of four data signal contact pads (31; 34; 38; 41) built into the dielectric frame (44) in one set so that two faces of four faces of the data signal pad (31 ; 34; 38; 41) are exposed to the connector receptacle (45) and where two of four data signal contact pads (32; 33; 39; 40) are built into the dielectric frame (44) in one set so that one side of four pads of the data signal contact surface (32; 33; 39; 40) is exposed to the terminal receptacle opening (45). 7. Aansluithouder (46) volgens conclusie 6, met het kenmerk, dat de doorsnede van het datasignaalcontactvlak (31-34; 38-41) 0,5 x 0,5 mm 1s, de doorsnede van het voedingscontactvlak (30; 35; 37; 42) 2,5 x 4,0 mm is.Connection holder (46) according to Claim 6, characterized in that the cross-section of the data signal contact surface (31-34; 38-41) is 0.5 x 0.5 mm 1s, the cross-section of the power supply contact surface (30; 35; 37 ; 42) is 2.5 x 4.0 mm. 8. Aansluithouder (46) volgens conclusie 6 of 7, met het kenmerk, dat de doorsnede van de aardingsplaat (36; 43) 1,0 x 0,5 mm is.Connection holder (46) according to Claim 6 or 7, characterized in that the cross-section of the earthing plate (36; 43) is 1.0 x 0.5 mm. 9. Aansluithouder (46) volgens een van de conclusies 6 tot 8, met het kenmerk, dat de breedte van de H-vormige doorsnede van het aansluitstekkeropnameopening (45) 12,7 mm is en de hoogte van het H-vormige kruis gedeelte van het aansluitstekkeropnameopening (45) 7,0 mm is.Connection holder (46) according to one of Claims 6 to 8, characterized in that the width of the H-shaped cross-section of the connection plug receiving opening (45) is 12.7 mm and the height of the H-shaped cross section of the connector receptacle opening (45) is 7.0 mm. 10. Verbindingsstuk omvattende de aansluitstekker volgens een van de conclusies 1 tot 5 en de aansluithouder volgens een van de conclusies 6 tot 9.10. Connecting piece comprising the connecting plug according to one of claims 1 to 5 and the connecting holder according to one of claims 6 to 9.
NL2031018A 2021-12-23 2022-02-21 A connector plug and a connector socket NL2031018A (en)

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CN100486043C (en) 2004-10-25 2009-05-06 北京华旗资讯数码科技有限公司 USB connector plug
MX2012013857A (en) 2010-05-28 2013-01-24 Apple Inc Dual orientation connector with external contacts.
TWI593199B (en) * 2013-01-08 2017-07-21 鴻騰精密科技股份有限公司 Electrical connector
CN105098438A (en) 2015-08-05 2015-11-25 小米科技有限责任公司 USB socket connector and electronic equipment with the same
TWM533338U (en) * 2016-05-27 2016-12-01 Advanced Connectek Inc Socket electrical connector
CN207098101U (en) * 2017-07-10 2018-03-13 富誉电子科技(淮安)有限公司 Electric connector
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