The present application discloses a signal adapter and a cable adapter structure, the signal adapter comprising a connector insulating seat, a first signal terminal, and a second signal terminal. The first signal terminal comprises a plurality of first signal terminal contact parts and a first signal terminal connecting part, and the plurality of first signal terminal contact parts are electrically connected by means of the first signal terminal connecting part. The second signal terminal is spaced apart from the first signal terminal and comprises a plurality of second signal terminal contact parts and a second signal terminal connecting part, and the plurality of second signal terminal contact parts are electrically connected by means of the second signal terminal connecting part, so as to provide a one-to-many connection and stable signal transmission.
The present application discloses a base module structure, for use in connecting and providing power to at least one first-type base and/or second-type base. The base module structure comprises a first housing member, a second housing member, an adapter substrate, a switch device, and a cable device. The adapter substrate is provided on the second housing and comprises at least one first connecting interface. The switch device is provided on the adapter substrate and comprises a control module used for controlling transmission of a first power supply signal of the adapter substrate. One end of the cable device is electrically connected to the adapter substrate, and the other end of the cable device is electrically connected to an external power supply. The base module structure can improve the performance and power utilization safety of sockets.
H01R 13/514 - BasesCases formed as a modular block or assembly, i.e. composed of co-operating parts provided with contact members or holding contact members between them
H01R 13/40 - Securing contact members in or to a base or caseInsulating of contact members
H01R 13/70 - Structural association with built-in electrical component with built-in switch
Disclosed in the present application is an electrical connector, which comprises an upper insulating shell, a lower insulating shell, an upper rotating shell, a lower rotating shell, a first pole conductive terminal, a second pole conductive terminal, a third pole conductive terminal, an inner ring terminal, an outer ring terminal, a central conductor, a first outer conductor and a second outer conductor. The upper rotating shell drives the lower rotating shell to rotate synchronously. An inner spacer is arranged between the inner ring terminal and the outer ring terminal, and the inner ring terminal and the outer ring terminal are respectively arranged on the lower insulating shell. The central conductor is in electrical contact with the first pole conductive terminal, the first outer conductor is in electrical contact with the second pole conductive terminal and the inner ring terminal, and the second outer conductor is in electrical contact with the third pole conductive terminal and the outer ring terminal. The electrical connector in the present application can be rotationally positioned, thereby providing a user with a flexible use pattern.
H01R 35/04 - Turnable line connectors with limited rotation angle
H01R 13/502 - BasesCases composed of different pieces
H01R 13/514 - BasesCases formed as a modular block or assembly, i.e. composed of co-operating parts provided with contact members or holding contact members between them
H01R 13/516 - Means for holding or embracing insulating body, e.g. casing
H01R 13/10 - Sockets for co-operation with pins or blades
H01R 13/648 - Protective earth or shield arrangements on coupling devices
The present invention provides an adapter head, an adapter base and an adapter assembly. The adapter assembly comprises a rotary adapter head or a rotary adapter base. The adapter head comprises a first insulating housing, a first rotary housing, a first electrode conductive terminal, a second electrode conductive terminal, a third electrode conductive terminal, a second rotary housing, an outer annular terminal, an inner annular terminal, an inner spacer, a second insulating housing, a central conductor, a first outer conductor, and a second outer conductor. The adapter base comprises a third insulating housing, an upper rotary housing, a lower rotary housing, a first electrode terminal, a second electrode terminal, an outer annular conductor, an inner annular conductor, a central terminal, a spacer, and a fourth insulating housing. By means of the rotary adapter head or the rotary adapter base, the adapter assembly has greater flexibility in terms of circuit layout, and during use, since the adapter head or the adapter base is free to change direction, the convenience of the adapter assembly is also improved.
An electrical connector, comprising an upper insulation housing, a lower insulation housing, a first pole conductive terminal, a second pole conductive terminal, a third pole conductive terminal, a center conductor, a first outer conductor, and a second outer conductor. The center conductor is electrically connected to a first connecting portion of the first pole conductive terminal. The first outer conductor is electrically connected to a third connecting portion of the third pole conductive terminal. The second outer conductor is electrically connected to a second connecting portion of the second pole conductive terminal. A first outer contact portion of the first outer conductor, a center contact portion of the center conductor, and a second outer contact portion of the second outer conductor are sequentially arranged outside the lower insulation housing.
An electrical connector (100) and a base (200) thereof. The electrical connector (100) comprises an upper insulating housing (110), a lower insulating housing (120), terminal members (131, 132, 133) and conductor members (141, 142, 143). The upper insulating housing (110) is provided with at least one jack (111). The lower insulating housing (120) is provided below the upper insulating housing (110) and connected to the upper insulating housing (110). The terminal members (131, 132, 133) are provided between the upper insulating housing (110) and the lower insulating housing (120). The conductor members (141, 142, 143) pass through the lower insulating housing (120). A first contact portion (1412) of the first conductor (141), a second contact portion (1422) of the second conductor (142), and a third contact portion (1432) of the third conductor (143) are provided outside the lower insulation housing (120). The distance between the second contact portion (1422) and the first contact portion (1412) is less than the distance between the third contact portion (1432) and the first contact portion (1412).
H01R 13/642 - Means for preventing, inhibiting or avoiding incorrect coupling by position or shape of contact members
H01R 13/434 - Securing in a demountable manner by resilient locking means on the contact membersSecuring in a demountable manner by locking means on resilient contact members by separate resilient locking means on contact member, e.g. retainer collar or ring around contact member
An electrical connector (100, 300) and a receptacle (200, 400) therefor. The electrical connector (100, 300) comprises an upper insulated housing (110, 310), a lower insulated housing (120, 320), a terminal component, and a conductor component. The terminal component is arranged between the upper insulated housing (310) and the lower insulated housing (320). The conductor component passes through the lower insulated housing (320). The receptacle (200, 400) comprises a first insulated housing (210), a second insulated housing (220), and a conductor component. The conductor component is arranged between the first insulated housing (210) and the second insulated housing (220). When the electrical connector (100, 300) is assembled with the receptacle (200, 400), the conductor component of the electrical connector (100, 300) is electrically connected to the conductor component of the receptacle (200, 400). For the electrical connector (100, 300) and the receptacle (200, 400) therefor, with respect to the structural design of the contact interface, there is no specific direction when assembling, thereby achieving non-directional mating.
An electrical signal switching device, comprising at least one first switching interface and at least one first switching seat. The at least one first switching interface is used for transmitting a direct current electrical signal, and the at least one first switching interface comprises a magnetic assembly and a magnetic sensing assembly. The at least one first switching seat is arranged corresponding to the at least one first switching interface, wherein the at least one first switching seat is electrically connected to the respective at least one first switching interface to transmit the direct current electrical signal, and connects the direct current electrical signal to an external device. The magnetic assembly is used for suctioning and fixing the at least one first switching seat. The magnetic sensing assembly is used for determining whether the at least one first switching seat is correctly placed, and when the magnetic sensing assembly determines that the at least one first switching seat is correctly placed, the at least one first switching interface transmits the direct current electrical signal to the at least one first switching seat.
H01R 13/514 - BasesCases formed as a modular block or assembly, i.e. composed of co-operating parts provided with contact members or holding contact members between them
H01R 27/00 - Coupling parts adapted for co-operation with two or more dissimilar counterparts
A replaceable modular socket structure (10), comprising an adapter (20) and a base (30). The adapter (20) comprises a female connector (22) and a plurality of terminals (24). The base (30) comprises: at least one socket (34) for installing the adapter (20), wherein each socket (34) comprises a bottom surface (341) and a surrounding side wall (342) connected to the bottom surface (341), and the bottom surface (341) and the surrounding side wall (342) form an opening (343), so that the adapter (20) enters and is fixed on the socket (34) by means of the opening (343); an adaption interface (40) arranged on the socket (34) of the base (30) and used for connecting the socket (34) and the adapter (20), wherein the adaption interface (40) comprises a structure corresponding to the plurality of terminals (24), so that the adapter (20) is electrically connected to the socket (34) by means of the adaption interface (40), and the adaption interface (40) does not protrude from the bottom surface (341) of each socket (34); and a contact interface (32) for transmitting an electrical signal from an external power supply (70) to the adaption interface (40). According to the replaceable modular socket structure (10), the adapter (20) can be replaced according to requirements, or an adaption direction can be changed according to usage conditions; the adapter (20) and the adaption interface (40) comprise magnetic connection structures, so that the socket (34) is more stable; and in addition, the base (30) can also be of different shapes for a user to select.
H01R 27/00 - Coupling parts adapted for co-operation with two or more dissimilar counterparts
H01R 31/06 - Intermediate parts for linking two coupling parts, e.g. adapter
H01R 13/514 - BasesCases formed as a modular block or assembly, i.e. composed of co-operating parts provided with contact members or holding contact members between them
H01R 13/70 - Structural association with built-in electrical component with built-in switch
An adapter cable structure (1), comprising a first flat cable (10), a first circuit board (120), and a second circuit board (130). The first flat cable (10) comprises several first signal transmission wire sets (24) and several second signal transmission wires (25). The first circuit board (120) comprises several contact parts (122) and several first soldering parts (121). The several soldering parts (121) are connected to one end of the first flat cable (10); the other end of the first flat cable (10) is provided on the second circuit board (130). The several contact parts (122) are arranged on either side of the first circuit board (120). The adapter cable is structurally firm and not prone to loosening, enhances the stability of signal transmission, and improves the degree of convenience of assembly and disassembly.
An adapter cable structure, comprising a flat cable, a first circuit board, and a second circuit board. The flat cable is used for transferring a power or control signal. The first circuit board comprises a plurality of contact parts and a plurality of first welding parts, and the plurality of first welding parts are connected to one end of the flat cable. The other end of the flat cable is provided on the second circuit board. The plurality of contact parts are located on both sides of the first circuit board.
A light-emitting cable structure, comprising a plurality of cables, a light-emitting module, a light guide component, and a first fixing portion. Each cable comprises a first conductor connection terminal and a second conductor connection terminal, and is used for transmitting a power supply or a data signal. The light-emitting module is provided on one end of the plurality of cables, and is used for producing a light. The light guide component comprises a first side and a second side opposite to each other. The first fixing portion is used for assembling the first side of the light guide component onto one end of the plurality of cables where the light-emitting module is provided, and connecting the first side of the light guide component to the light-emitting module to transfer the light produced by the light-emitting module. The light-emitting cable structure can emit light during signal transmission to improve the visual effect.
A light-emitting flat cable structure. The light-emitting flat cable structure comprises a flat cable, a circuit board, a light guide component, a light-emitting module, and a pair of fixing parts. The flat cable is used for transmitting signals such as data or a power supply and is connected to a corresponding pin position on the circuit board. The light guide component may comprise a light guide layer, a scattering layer, a light reflecting layer, and a reflective layer and is used for transmitting, reflecting or scattering light, and a pattern or a character is provided on the light guide component and used for increasing the attractive degree during light emitting. The light-emitting module receives the signal and emits light. The fixing part is used for fixing two opposite ends of the light guide component and fixing the light guide component to the flat cable together; the fixing part is provided with a positioning column; the light guide component and the circuit board are provided with positioning holes; and the positioning column is inserted into the positioning holes, so that the flat cable structure is more stable.
A light-emitting flat cable structure (10). The light-emitting flat cable structure includes a first light-emitting module (150), a light guide member (170), a plurality of signal lines (100), a first fixing portion (130) and a second fixing portion (140), wherein the first light-emitting module is used for generating rays of light; the light guide member includes a first side edge and a second side edge that are located on opposite sides; the first side edge of the light guide member is connected to the first light-emitting module so as to guide rays of light generated by the first light-emitting module; each signal line is used for transmitting a power supply or a data signal; the first fixing portion is assembled on the plurality of signal lines, and the first light-emitting module and the first side edge of the light guide member are arranged on the first fixing portion; and the second fixing portion is assembled on the plurality of signal lines, and the second side edge of the light guide member is arranged on the second fixing portion. The light-emitting flat cable structure can not only emit rays of light during a signal transmission process so as to increase a visual effect, but also display a specific light emission pattern so as to enhance the aesthetic appearance of the light-emitting flat cable.
A light-emitting flat cable structure (100) comprises a first light-emitting module (150), a light guide structural member (110), multiple signal wires (120), a fixing portion (140), and a sliding portion (130). The first light-emitting module is used to generate light. The light guide structural member comprises a first lateral side (111) and a second lateral side (112). The first lateral side of the light guide structural member is connected to the first light-emitting module, and used to allow propagation of light generated by the first light-emitting module. The multiple signal wires are used to transmit a power or data signal. The fixing portion is used to fix the light guide structural member and the multiple signal wires, and accommodates the first light-emitting module. The sliding portion is used to fix the second lateral side of the light guide structural member, and the multiple signal wires pass through the sliding portion. The sliding portion is movable in an axial direction of the multiple signal wires. The light-emitting flat cable structure enables light emission during a signal transmission process to enhance a visual effect, and is also capable of displaying a specific light pattern to enhance the visual appeal of light-emitting flat cables.
A light-emitting filter screen module. The light-emitting filter screen module comprises a transparent housing, a light-emitting assembly, a cover, and a filter screen. The transparent housing comprises a bottom plate and a frame disposed around the bottom plate. The middle of the bottom plate is provided with an air vent to allow air to circulate, and a side wall is disposed around the air vent. The light-emitting assembly is disposed on the bottom plate of the transparent housing to emit light. The cover is disposed on the transparent housing. The middle of the cover is provided with an air vent corresponding to the air vent of the transparent housing to allow air to circulate. The filter screen is mounted in the transparent housing which is provided with the cover or on the cover to filter dust in the air.
F24F 3/16 - Air-conditioning systems in which conditioned primary air is supplied from one or more central stations to distributing units in the rooms or spaces where it may receive secondary treatmentApparatus specially designed for such systems characterised by the treatment of the air otherwise than by heating and cooling by purification, e.g. by filteringAir-conditioning systems in which conditioned primary air is supplied from one or more central stations to distributing units in the rooms or spaces where it may receive secondary treatmentApparatus specially designed for such systems characterised by the treatment of the air otherwise than by heating and cooling by sterilisationAir-conditioning systems in which conditioned primary air is supplied from one or more central stations to distributing units in the rooms or spaces where it may receive secondary treatmentApparatus specially designed for such systems characterised by the treatment of the air otherwise than by heating and cooling by ozonisation
17.
LIGHT-EMITTING FLAT CABLE STRUCTURE USED FOR MAINTAINING DISTANCE BETWEEN LIGHT GUIDE ELEMENT AND SIGNAL LINE
Disclosed is a light-emitting flat cable structure, comprising a first light-emitting module (150), a plurality of light guide elements (110), a plurality of signal lines (120), a fixing part (140) and a sliding part (130). The fixing part (140) is used for fixing the plurality of light guide elements (110) and the plurality of signal lines (120), and accommodating the first light-emitting module (150). The sliding part (130) is used for fixing a second end of each of the light guide elements and allowing the plurality of signal lines (120) to pass through, and the sliding part (130) can move in an axial direction of the plurality of signal lines (120). Therefore, when the plurality of signal lines (120) need to be bent to match wiring, the distance between the light guide elements (110) and the signal lines (120) can still be maintained, thereby improving the aesthetic properties of the light-emitting flat cable.
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