CN220138785U - Connector socket applying graphene and used for oversized power supply and signal transmission - Google Patents
Connector socket applying graphene and used for oversized power supply and signal transmission Download PDFInfo
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- CN220138785U CN220138785U CN202321346777.4U CN202321346777U CN220138785U CN 220138785 U CN220138785 U CN 220138785U CN 202321346777 U CN202321346777 U CN 202321346777U CN 220138785 U CN220138785 U CN 220138785U
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- power supply
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- OKTJSMMVPCPJKN-UHFFFAOYSA-N Carbon Chemical compound [C] OKTJSMMVPCPJKN-UHFFFAOYSA-N 0.000 title claims abstract description 32
- 229910021389 graphene Inorganic materials 0.000 title claims abstract description 30
- 230000008054 signal transmission Effects 0.000 title claims abstract description 26
- 125000006850 spacer group Chemical group 0.000 claims abstract description 14
- 230000017525 heat dissipation Effects 0.000 claims description 17
- 230000000149 penetrating effect Effects 0.000 claims description 9
- RYGMFSIKBFXOCR-UHFFFAOYSA-N Copper Chemical compound [Cu] RYGMFSIKBFXOCR-UHFFFAOYSA-N 0.000 claims description 7
- 229910052802 copper Inorganic materials 0.000 claims description 7
- 239000010949 copper Substances 0.000 claims description 7
- 238000009434 installation Methods 0.000 claims description 3
- 230000005540 biological transmission Effects 0.000 abstract description 11
- 238000004519 manufacturing process Methods 0.000 abstract description 3
- 239000011159 matrix material Substances 0.000 abstract description 2
- 238000010586 diagram Methods 0.000 description 7
- 229910002804 graphite Inorganic materials 0.000 description 5
- 239000010439 graphite Substances 0.000 description 5
- 238000007747 plating Methods 0.000 description 5
- -1 graphite alkene Chemical class 0.000 description 3
- 150000001336 alkenes Chemical class 0.000 description 2
- 239000003963 antioxidant agent Substances 0.000 description 2
- 230000003078 antioxidant effect Effects 0.000 description 2
- 235000006708 antioxidants Nutrition 0.000 description 2
- 230000037237 body shape Effects 0.000 description 2
- 238000000034 method Methods 0.000 description 2
- BQCADISMDOOEFD-UHFFFAOYSA-N Silver Chemical compound [Ag] BQCADISMDOOEFD-UHFFFAOYSA-N 0.000 description 1
- 230000006978 adaptation Effects 0.000 description 1
- 238000005452 bending Methods 0.000 description 1
- 230000009286 beneficial effect Effects 0.000 description 1
- 230000007547 defect Effects 0.000 description 1
- 230000000694 effects Effects 0.000 description 1
- PCHJSUWPFVWCPO-UHFFFAOYSA-N gold Chemical compound [Au] PCHJSUWPFVWCPO-UHFFFAOYSA-N 0.000 description 1
- 229910052737 gold Inorganic materials 0.000 description 1
- 239000010931 gold Substances 0.000 description 1
- 238000001746 injection moulding Methods 0.000 description 1
- 239000002184 metal Substances 0.000 description 1
- 229910052751 metal Inorganic materials 0.000 description 1
- 238000012986 modification Methods 0.000 description 1
- 230000004048 modification Effects 0.000 description 1
- 230000003647 oxidation Effects 0.000 description 1
- 238000007254 oxidation reaction Methods 0.000 description 1
- 230000002035 prolonged effect Effects 0.000 description 1
- 239000000758 substrate Substances 0.000 description 1
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Abstract
The utility model discloses a connector socket applying graphene to oversized power supply and signal transmission, which comprises a telecommunications module, a first power supply module, a second power supply module, a positioning block and an insulating spacer block I. The first power supply module and the second power supply module are separated at two sides of the telecommunication module and can simultaneously transmit power, so that the transmission power of the power supply can be increased. And insulating spacer blocks I are arranged between the telecommunication module and the first power supply module and between the positioning block and the second power supply module, and ensure that the telecommunication transmission of the telecommunication module is not influenced when the first power supply module and the second power supply module transmit power. The telecommunication base, the first power base and the second power base are respectively provided with a plurality of telecommunication bases, exist independently and are linearly and repeatedly arranged in the matrix, so that the telecommunication bases, the first power base and the second power base with different sizes can be produced on the same production die.
Description
Technical Field
The utility model relates to a connector socket for ultra-large power supply and signal transmission applying graphene, which belongs to the field of connectors.
Background
The connector is irreplaceable in the field of the Internet, and in the existing connector, high-current and telecommunication simultaneous transmission cannot be realized due to the occupied volume and heat dissipation. In addition, the existing power connector is required to be made of purer copper metal to provide better conductivity and avoid power loss, but the purer copper is softer, better in ductility and poorer in mechanical strength, so that better elastic terminals are required to be additionally provided to clamp inserted male terminals or electric contact module cards so as to generate better electric contact, most of terminals of the connector are plated on the surface of a copper substrate to form a plating layer, the outer surface of the plating layer or the outer surface of the gold and silver metal is easy to corrode and oxidize, the conductive reliability and service life of the plating layer are reduced, the plating layer is easy to oxidize, the conductivity is reduced, the surface of the plating layer is not smooth enough, and resistance is generated when the connector is plugged. The existing connector terminal also has the problems that the terminal is difficult to process and the terminal and corresponding plastic are not enough to maintain, and the existing power signal connector has low heat dissipation efficiency due to large current transmission, so that the function of the connector is degraded. The use environment of the existing power signal connector and the requirements of customers are diversified, the sizes of the power and the signals are diversified and uncertain, and when the requirements of the customers are inconsistent with the existing sizes, the mold needs to be opened again, the mold cost is high, and the overall finished product of the product is high.
Disclosure of Invention
In order to overcome the defects of the prior art, the utility model provides an oversized power supply and signal transmission connector socket applying graphene.
The technical scheme adopted for solving the technical problems is that the connector socket for ultra-large power supply and signal transmission by using graphene comprises the following components: the electric power module comprises a telecommunication module, a first power module, a second power module, a positioning block and an insulating spacing block I, wherein the telecommunication module is arranged between the first power module and the second power module, the positioning block is arranged to be two and is respectively arranged on two sides of the first power module and two sides of the second power module, the insulating spacing block I is arranged between the telecommunication module and the first power module and between the positioning block and the second power module, and between the positioning block and the first power module and between the positioning block and the second power module, the telecommunication module comprises a plurality of telecommunication bases which are linearly arranged and telecommunication terminals which are assembled and connected with the telecommunication bases, the first power module comprises a plurality of first power bases which are linearly arranged and first power terminals which are assembled and connected with the first power bases, and the second power module comprises a plurality of second power bases which are linearly arranged, second power terminals which are assembled and insulating spacing blocks II which are arranged between the adjacent second power bases.
Further, the telecommunication base is provided with a first side, a second side, a third side, a fourth side, a fifth side and a sixth side which form a square shape, the fifth side and the sixth side are planes, the first side, the second side, the third side, the fourth side and the fifth side are sequentially and continuously arranged between the first side and the third side, a support column which is the same as the top surface of the first side is arranged between the third side and the fourth side, a plurality of telecommunication jacks which penetrate through two sides and are used for installing telecommunication terminals are arranged between the first side and the second side, the plurality of telecommunication jacks respectively penetrate through the top surface of the first side, the top surface of the second side, the top surface of the third side and the second side, one side of the first side facing the second side is provided with a telecommunication positioning groove I communicated with the telecommunication jacks, one side of the second side facing the second side is provided with a telecommunication positioning groove II communicated with the telecommunication jacks, one side of the fourth side facing the second side is provided with a telecommunication positioning groove IV communicated with the telecommunication jacks, and the telecommunication positioning groove I, the positioning groove is flush with the top surface of the third side and the third side is arranged on the same side as the positioning groove.
Further, the first power supply seat comprises a seventh side, an eighth side, a ninth side, a tenth side, an eleventh side and a twelfth side which form a square body shape, the eleventh side and the twelfth side are planes, the first power supply seat is provided with a first power supply opposite jack penetrating through the seventh side and the eighth side, a first power supply mounting hole which is positioned at one side of the first power supply opposite jack and is used for mounting a first power supply terminal, and a first radiating groove which is positioned at one side of the first power supply mounting hole, the first power supply mounting hole is communicated with the first power supply opposite jack, the first radiating groove is communicated with the first power supply mounting hole and the first power supply opposite jack, the ninth side is provided with a first power supply accommodating groove communicated with the first power supply mounting hole, the ninth side is provided with a first power supply mounting concave table and a sixth step, the first power supply mounting concave table is positioned at the upper side of the sixth step, the lower side of the sixth step is provided with a second hole penetrating through the ninth side and the tenth side, the second radiating hole is communicated with the first power supply opposite jack, and the first power supply accommodating groove is positioned in the first power supply accommodating area.
Further, the seventh side is provided with a first power puncture hole communicated with the first power mounting hole.
Further, the second power supply seat comprises a thirteenth side face, a fourteenth side face, a fifteenth side face, a sixteenth side face, a seventeenth side face and an eighteenth side face which form a square body shape, the second power supply seat is provided with a second power supply opposite jack penetrating through the thirteenth side face and the fourteenth side face, two sides of the second power supply opposite jack are provided with second power supply mounting grooves communicated with the second power supply opposite jack, two sides of the second power supply mounting grooves are provided with radiating grooves II, the fifteenth side face is provided with a second power supply containing groove communicated with the second power supply opposite jack and the second power supply mounting groove, and the fifteenth side face and the sixteenth side face are provided with radiating holes III communicated with the second power supply opposite jack.
Further, the first power terminal comprises a terminal main body part, one end of the terminal main body part extends to form an elastic part, a plate end connecting part is fixedly arranged on one side of the terminal main body part, a puncture position extending out of the terminal main body part is arranged on the other side of the terminal main body part, the elastic part deflects one side surface of the terminal main body part, and a bump is arranged on the terminal main body part.
Further, the elastic portion comprises a first elastic arm, a second elastic arm and a third elastic arm which are sequentially arranged, one end, close to the terminal main body portion, of the first elastic arm and the third elastic arm is provided with an inclined connecting portion fixedly connected with the terminal main body portion, the second elastic arm extends perpendicularly out of the terminal main body portion, one ends, far away from the terminal main body portion, of the first elastic arm and the third elastic arm are respectively provided with a first contact portion and a third contact portion, which are bent towards the second elastic arm, and one end, far away from the terminal main body portion, of the second elastic arm is provided with a second contact portion, which is bent towards the first elastic arm.
Further, the graphene layers are arranged on the outer surfaces of the first power supply terminal, the second power supply terminal and the telecommunication terminal.
Further, the first power supply terminal, the second power supply terminal and the telecommunication terminal are made of graphene copper.
The utility model has the beneficial effects that the connector socket for ultra-large power supply and signal transmission by using the graphene is provided, a plurality of telecommunication seats, a plurality of first power seats and a plurality of second power seats are respectively arranged in the matrix and are independently arranged in a linear and repeated manner, and the number of the telecommunication seats, the first power seats and the second power seats can be adjusted according to the product requirement, so that the matrixes with different sizes can be produced on the same production mould, the mould cost is reduced, and the overall finished product of the product is reduced. The first power supply module and the second power supply module are separated at two sides of the telecommunication module and can simultaneously transmit power, so that the transmission power of the power supply can be increased. And insulating spacer blocks I are arranged between the telecommunication module and the first power supply module and between the positioning block and the second power supply module, and ensure that the telecommunication transmission of the telecommunication module is not influenced when the first power supply module and the second power supply module transmit power. The outward appearance of power supply terminal, first power supply terminal, second power supply terminal is equipped with the graphite alkene layer or power supply terminal, first power supply terminal, second power supply terminal adopt graphite alkene copper to make for this embodiment is more smooth when the plug, not only has high conductivity, can anti-oxidant, be difficult for corroding moreover, has improved its life. The first power supply seat and the second power supply seat are provided with a plurality of heat dissipation structures, so that the power supply transmission device has a good heat dissipation effect.
Drawings
Fig. 1 is a schematic structural diagram of a connector socket for ultra-large power and signal transmission using graphene according to the present utility model.
Fig. 2 is a schematic diagram of another direction of a connector socket application connector applying graphene to oversized power and signal transmission according to the present utility model.
Fig. 3 is an exploded structural schematic diagram of a connector socket application connector applying graphene to oversized power and signal transmission according to the present utility model.
Fig. 4 is a schematic structural diagram of a signal module of a connector socket application connector applying graphene to oversized power and signal transmission.
Fig. 5 is a schematic structural diagram of a signal socket of a connector socket application connector applying graphene to oversized power and signal transmission.
Fig. 6 is a schematic structural diagram of a first power supply socket of the connector socket adapted to oversized power and signal transmission using graphene according to the present utility model.
Fig. 7 is a schematic top view of a first power supply socket of the present utility model adapted to a connector socket for ultra-large power and signal transmission using graphene.
Fig. 8 is a schematic diagram of a portion of a second power supply socket of the connector socket adapted for ultra-large power and signal transmission using graphene according to the present utility model.
Fig. 9 is a schematic view of a portion of a first power terminal of a connector receptacle adapted for oversized power and signal transmission using graphene in accordance with the present utility model.
Detailed Description
Embodiments of the present utility model will be described below with reference to the accompanying drawings and examples, but the embodiments of the present utility model are not limited to the following examples, and the present utility model relates to the relevant essential parts in the art, and should be regarded as known and understood by those skilled in the art.
In the utility model, the terms of the directions such as the upper side, the lower side and the like are all expressed according to the directions shown in the drawings of the specification.
Referring to fig. 1 to 9, the present utility model is implemented as follows: the utility model provides an ultra-large power and signal transmission's connector receptacle of application graphite alkene includes telecommunications module (2), first power module (3), second power module (4), locating piece (5), insulating spacer piece one (6), telecommunications module (2) are located between first power module (3) and second power module (4), locating piece (5) establish two and are located the both sides of first power module (3) and second power module (4) respectively, all be equipped with insulating spacer piece one (6) between telecommunications module (2) and first power module (3), second power module (4) and between locating piece (5) and first power module (3), second power module (4), telecommunications module (2) are including telecommunications seat (21) of a plurality of linear arrangement, telecommunications terminal (22) of being connected with telecommunications seat (21) assembly, first power module (3) include a plurality of first power seat (31) of linear arrangement, first power terminal (32) of being connected with first power seat (31) assembly, second power module (4) include a plurality of linear arrangement, second power terminal (41) are connected with second power module (41) assembly and second power module (41) And a second insulating spacer (43) arranged between the adjacent second power supply bases (41). The base body (1) is formed by sequentially and fixedly connecting the positioning block (5), the first insulating spacer block (6), the first power supply seat (31), the first insulating spacer block (6), the telecommunication seat (21), the first insulating spacer block (6), the second power supply seat (41), the first insulating spacer block (6) and the positioning block (5), and the base body (1) is subjected to injection molding.
The telecommunication base (21) is provided with a plurality of single-existing and linearly and repeatedly arranged in the base body (1), the first power base (31) is provided with a plurality of single-existing and linearly and repeatedly arranged in the base body (1), the second power base (41) is provided with a plurality of single-existing and linearly and repeatedly arranged in the base body (1), and the number of the telecommunication base (21), the first power base (31) and the second power base (41) can be adjusted according to the product requirement, so that the telecommunication bases (21), the first power base (31) and the second power base (41) with different sizes can be produced on the same production die, when the customer requirement is inconsistent with the existing size specification, the base body (1) does not need to be opened again, the die cost is reduced, and the overall finished product of the product is reduced.
The first power supply module (3) and the second power supply module (4) are separated at two sides of the telecommunication module (2) and can simultaneously transmit power, so that the transmission power of the power supply can be increased. The first insulating spacer blocks (6) are arranged between the telecommunication module (2) and the first power supply module (3) and the second power supply module (4) and between the positioning block (5) and the first power supply module (3) and the second power supply module (4), so that the telecommunication transmission of the telecommunication module (2) is not influenced when the first power supply module (3) and the second power supply module (4) transmit power.
The signal seat is riveted into in the interference fit of telecommunication terminal, first power supply terminal (32) interference fit rivets into first power supply seat (31), second power supply terminal (42) interference fit rivets into second power supply seat (41), ensures telecommunication terminal in the signal seat first power supply terminal (32) in first power supply seat (31) second power supply terminal (42) have sufficient holding power in second power supply seat (41).
The appearance of telecommunication terminal (22), first power supply terminal (32), second power supply terminal (42) is equipped with the graphite alkene layer or telecommunication terminal (22), first power supply terminal (32), second power supply terminal (42) adopt graphite alkene copper to make for this embodiment is more smooth when the plug, not only has high conductivity, can anti-oxidant, be difficult for corroding moreover, has improved its life.
In the embodiment, the outer surfaces of the telecommunication terminal (22), the first power supply terminal (32) and the second power supply terminal (42) are provided with graphene layers.
On the basis of the above embodiment, as a further preferred mode, the telecommunication seat (21) is provided with a first side surface (211), a second side surface (212), a third side surface (213), a fourth side surface (214), a fifth side surface (215) and a sixth side surface (216) which form a square body, the fifth side surface (215) and the sixth side surface (216) are planes, a plurality of telecommunication seats (21) are adjacent to each other in the direction of the fifth side surface (215) and the sixth side surface (216), a first step (2111), a second step (2112), a third step (2113), a fourth step (2114) and a fifth step (2115) are sequentially arranged between the first side surface (211) and the third side surface (2114), a plurality of telecommunication jacks (7) which penetrate through two sides and are arranged between the first side surface (211) and the second side surface (2111) of the fourth side surface (2114), a plurality of single telecommunication jacks (211) penetrate through the top surface (2111) of the first side surface (2111) and the fourth side surface (2114) of the fourth side surface (2114) respectively, the first step (2111) is provided with a first telecommunication positioning groove (21111) communicated with the telecommunication jack (2117) towards one side of the second side (212), the second step (2112) is provided with a second telecommunication positioning groove (21121) communicated with the telecommunication jack (2117) towards one side of the second side (212), the fourth step (2114) is provided with a fourth telecommunication positioning groove (21141) communicated with the telecommunication jack (2117) towards one side of the second side (212), the support column (2116) is provided with a third telecommunication positioning groove (21161) flush with the first telecommunication positioning groove (21111), the second telecommunication positioning groove (21121) and the telecommunication jack (2117) in the same direction, and the third telecommunication positioning groove (21161) is communicated with the third telecommunication jack (2117) on the top surface of the third step (2113).
Each telecom seat (21) is assembled with four telecom terminals (22), the telecom terminals (22) are respectively riveted into a telecom jack (2117) of the top surface of the first step (2111), the top surface of the second step (2112), the top surface of the third step (2113) and the top surface of the fourth step (2114) after being bent by 90 degrees, the telecom terminals (22) are exposed out of the top surface of the first step (2111), the top surface of the second step (2112), the top surface of the third step (2113) and the top surface of the fourth step (2114) are respectively limited in a telecom positioning groove I (21111), a telecom positioning groove II (21121), a telecom positioning groove III (21161) and a telecom positioning groove IV (21141), the telecom terminals (22) are exposed out of the telecom positioning groove I (21111) and are limited in the telecom positioning groove III (21161), and after all the telecom terminals (22) are exposed into the telecom jack, parts of the top surfaces of the fourth step (2114) are respectively limited in a fifth riveted seat (2115) of the level of all telecom terminals (22).
The fifth step (2115) is arranged to enable the telecommunication terminal (22) to be pressed and connected with the PCB hole, and a gap is formed between the PCB and the edge of the telecommunication seat (21) so as to facilitate heat dissipation.
Further preferably, in addition to the above embodiments, the first power supply base (31) includes a seventh side (311), an eighth side (312), a ninth side (313), a tenth side (314), an eleventh side (315), and a twelfth side (316) that form a square, and the eleventh side (315) and the twelfth side (316) are planar, and the plurality of first power supply bases (31) are adjacent to each other in a direction of the eleventh side (315) and the twelfth side (316). The first power seat (31) is provided with a first power supply pair jack (317) penetrating through a seventh side face (311) and an eighth side face (312), a first power supply mounting hole (318) which is arranged on one side of the first power supply pair jack (317) and used for mounting a first power supply terminal (32), a first radiating groove (319) which is arranged on one side of the first power supply mounting hole (318), the first power supply mounting hole (318) is communicated with the first power supply pair jack (317), the first radiating groove (319) is communicated with the first power supply mounting hole (318) and the first power supply pair jack (317), the ninth side face (313) is provided with a first power supply accommodating groove (3131) communicated with the first power supply mounting hole (318), the ninth side face (313) is provided with a first power supply mounting concave table (3132) and a sixth step (3133), the first power supply mounting concave table (3132) is arranged on the upper side of the sixth step (3133), the lower side of the sixth step (3133) is provided with a first radiating groove (31331) penetrating through the ninth side face (313) and the tenth side face (314), and the second radiating groove (31331) is arranged in the first power supply accommodating groove (3132).
The first power supply terminal (32) is inserted into the first power supply mounting hole (318) in a riveting mode, the first power supply terminal (32) extends out of the first power supply mounting hole (318) and then extends out of the first power supply mounting concave table (3132) and the fifth step (2115) after entering the first power supply accommodating groove (3131), the first radiating groove (319) and the second radiating hole (31331) facilitate heat dissipation of the first power supply terminal (32) during power supply transmission, the inserting holes of the first power supply facilitate connection with the first power supply terminal (32) after inserting the inserting male end of the first power supply, the second radiating hole (31331) is communicated with the first power supply inserting holes (317), when the inserting connector matched with the first power supply is inserted into the first power supply accommodating hole (317) for connection, the periphery of the connecting position is not a closed space, and heat generated at the connecting position is conveniently removed from the second radiating hole (31331) and is good in heat dissipation.
The arrangement of the first power supply mounting concave table (3132) and the sixth step (3133) enables the first power supply terminal (32) to be pressed and connected with the PCB hole, and a gap is formed between the PCB and the edge of the first power supply seat (31), so that heat dissipation is facilitated.
On the basis of the above embodiment, as a further preferable mode, the second power supply base (41) includes a thirteenth side (411), a fourteenth side (412), a fifteenth side (413), a sixteenth side (414), a seventeenth side (415), and an eighteenth side (416) which form a square body, the seventeenth side (415) and the eighteenth side (416) are planar, the plurality of second power supply bases (41) are adjacent to each other in the seventeenth side (415) and the eighteenth side (416), the second power supply base (41) is provided with a second power supply pair jack (417) penetrating through the thirteenth side (411) and the fourteenth side (412), two sides of the second power supply pair jack (417) are provided with a second power supply mounting slot (4111) communicating with the second power supply pair jack (417), two sides of the second power supply mounting slot (4111) are provided with a second power supply receiving slot (4112) communicating with the second power supply pair jack (417), and the fifteenth side (413) is provided with a second power supply receiving slot (4131) communicating with the second power supply pair jack (4132).
The second power supply terminal (42) is inserted into the second power supply installation groove (4111) in a riveting mode, the second power supply terminal (42) extends out of the second power supply installation groove (4111) to enter the second power supply accommodating groove (4131) and then extends out of the second power supply accommodating groove (4131), the second heat dissipation groove (4112) and the third heat dissipation hole (4132) facilitate heat dissipation of the second power supply terminal (42) during power supply transmission, the third heat dissipation hole (4132) is communicated with the second power supply opposite plug hole (417), the opposite plug hole of the second power supply facilitates connection with the second power supply terminal (42) after the opposite plug male end of the utility model is inserted, when the opposite plug connector matched with the utility model is inserted into the second power supply opposite plug hole (417) to be connected with the second power supply terminal (42) in an opposite plug mode, the periphery of a connecting position is not a closed space, and heat generated at the connecting position of the second power supply terminal is convenient to dissipate heat from the third heat dissipation hole (4132) and is good in heat dissipation.
The fifteenth side face (413) is provided with a seventh step (4133), the arrangement of the seventh step (4133) enables the second power terminal (42) to be pressed and connected with the PCB hole, and a gap is formed between the PCB and the edge of the second power seat (41) so as to facilitate heat dissipation.
On the basis of the above embodiment, as a further preferable mode, the first power supply terminal (32) includes a terminal body portion (321), one end of the terminal body portion (321) extends to form an elastic portion (322), a plate end connecting portion (323) is fixedly arranged on one side of the terminal body portion (321), a piercing position (3211) extending out of the terminal body portion (321) is arranged on the other side of the terminal body portion (321), the elastic portion (322) is offset from one side face of the terminal body portion (321), and a bump (3212) is arranged on the terminal body portion (321). The seventh side surface (311) is provided with a first power supply puncture hole (3111) communicating with the first power supply mounting hole (318).
The terminal body part (321) extends out of the elastic part (322), the terminal body part (321) can be stamped and formed without overturning, and can be directly stamped and cut to be formed, so that the stamping process is simple, the stamping precision is high, and the surfaces of the terminal body part (321), the elastic part (322) and the plate end connecting part (323) are all provided with graphene layers, so that the terminal is smoother when being plugged and unplugged, has high conductivity, can resist oxidation and is not easy to corrode, and the service life of the terminal is prolonged. The first power supply terminal (32) is riveted into the first power supply mounting hole (318) of the first power supply seat (31), and the protruding point (3212) is designed to enable the terminal main body portion (321) to be in interference fit with the first power supply mounting hole (318) better. The puncture position (3211) enters the first power puncture hole (3111) to puncture the first power supply seat (31), so that supporting force and stopping force are provided for the power supply terminal, and the holding force of the power supply terminal after being riveted into the power supply seat is increased.
On the basis of the above embodiment, as a further preferred aspect, the elastic portion (322) includes a first elastic arm (3221), a second elastic arm (3222), and a third elastic arm (3223) that are sequentially arranged, one end of the first elastic arm (3221) and the third elastic arm (3223), which is close to the terminal body portion (321), is provided with an inclined connection portion (32211) fixedly connected with the terminal body portion (321), the second elastic arm (3222) extends perpendicularly from the terminal body portion (321), one end, away from the terminal body portion (321), of the first elastic arm (3221) and the third elastic arm (3223) is provided with a first contact portion (32212) and a third contact portion (32231) that are bent towards the second elastic arm (3222), and one end, away from the terminal body portion (321), of the second elastic arm (3222) is provided with a second contact portion (32221) that is bent towards the first elastic arm (3221).
The second elastic arm (3222) is located between the first elastic arm (3221) and the third elastic arm (3223), and the first contact portion (32212) and the third contact portion (32231) are oppositely arranged in the bending direction of the second contact portion (32221), so that the connector is convenient to connect with an adapter.
The contact points of two pairs of plug connectors which are contacted simultaneously are reduced, so that the plug force during plug-in can be reduced, the holding force during plug-in can be increased, the contact resistance can be reduced, the connection stability and the current carrying capacity of the high-current connector can be effectively improved, the current carrying capacity is increased, and meanwhile, the high-current connector is effectively prevented from being broken instantaneously.
The foregoing is merely a preferred embodiment of the present utility model and it should be noted that modifications and adaptations to those skilled in the art may be made without departing from the principles of the present utility model, which are intended to be comprehended within the scope of the present utility model.
Claims (9)
1. The utility model provides an ultra-large power and signal transmission's connector socket, characterized by includes telecommunications module (2), first power module (3), second power module (4), locating piece (5), insulating spacer (6), telecommunications module (2) are located between first power module (3) and second power module (4), locating piece (5) establish two and are located the both sides of first power module (3) and second power module (4) respectively, between telecommunications module (2) and first power module (3), second power module (4) and between locating piece (5) and first power module (3), second power module (4) all be equipped with insulating spacer (6), telecommunications module (2) are including telecommunications seat (21) of a plurality of linear arrangement, telecommunications terminal (22) with telecommunications seat (21) assembled connection, telecommunications module (3) include a plurality of first power seat (31) of linear arrangement, first power terminal (32) with first power seat (31) assembled connection, second power module (4) include a plurality of linear arrangement, second power seat (41) are assembled connection with second power module (41) And a second insulating spacer (43) arranged between the adjacent second power supply bases (41).
2. A connector socket applying ultra-large power and signal transmission of graphene according to claim 1, wherein the telecommunication seat (21) is provided with a first side (211), a second side (212), a third side (213), a fourth side (214), a fifth side (215) and a sixth side (216) which are formed in a square shape, the fifth side (215) and the sixth side (216) are planes, a first step (2111), a second step (2112), a third step (2113), a fourth step (2114) and a fifth step (2115) are sequentially and continuously arranged between the first side (211) and the third side (213), a support column (2116) which is the same as the top surface of the first step (2111) is arranged between the third step (2113) and the fourth step (2114), a plurality of telecommunication jacks (2117) which penetrate through two sides and are used for installing telecommunication terminals (22) are arranged between the first side (211) and the second side (212), a plurality of telecommunication jacks (7) respectively penetrate through the top surfaces of the first step (2111) and the fourth step (2113) and the fourth step (2114) of the fourth step (2111) respectively, the first step (2111) is provided with a first telecommunication positioning groove (21111) communicated with the telecommunication jack (2117) towards one side of the second side (212), the second step (2112) is provided with a second telecommunication positioning groove (21121) communicated with the telecommunication jack (2117) towards one side of the second side (212), the fourth step (2114) is provided with a fourth telecommunication positioning groove (21141) communicated with the telecommunication jack (2117) towards one side of the second side (212), the support column (2116) is provided with a third telecommunication positioning groove (21161) flush with the first telecommunication positioning groove (21111), the second telecommunication positioning groove (21121) and the telecommunication jack (2117) in the same direction, and the third telecommunication positioning groove (21161) is communicated with the third telecommunication jack (2117) on the top surface of the third step (2113).
3. The connector receptacle for ultra-large power and signal transmission using graphene according to claim 1, wherein the first power receptacle (31) comprises a seventh side (311), an eighth side (312), a ninth side (313), a tenth side (314), an eleventh side (315), and a twelfth side (316) which are formed in a square shape, the eleventh side (315) and the twelfth side (316) being planar, the first power receptacle (31) being provided with a first power pair receptacle (317) penetrating through the seventh side (311) and the eighth side (312), a first power mounting hole (318) located at one side of the first power pair receptacle (317) and for mounting a first power terminal (32), a heat sink first (319) located at one side of the first power mounting hole (318), the first power mounting hole (318) being in communication with the first power pair receptacle (317), the first heat sink first (319) being in communication with the first power mounting hole (318), the first power pair receptacle (317), the ninth side (313) being provided with a first power mounting hole (3132), the ninth side (3132) being provided with a recess first power mounting hole (3132), the lower side of the sixth step (3133) is provided with a second radiating hole (31331) penetrating through the ninth side face (313) and the tenth side face (314), the second radiating hole (31331) is communicated with the first power supply opposite jack (317), and the first power supply accommodating groove (3131) is located in the area of the first power supply installation concave table (3132).
4. A connector receptacle for ultra-large power and signal transmission using graphene as claimed in claim 3, wherein said seventh side (311) is provided with a first power puncture (3111) communicating with the first power mounting hole (318).
5. The connector socket for ultra-large power and signal transmission using graphene according to claim 1, wherein the second power supply base (41) comprises a thirteenth side (411), a fourteenth side (412), a fifteenth side (413), a sixteenth side (414), a seventeenth side (415) and an eighteenth side (416) which form a square body, the second power supply base (41) is provided with a second power supply pair jack (417) penetrating through the thirteenth side (411) and the fourteenth side (412), two sides of the second power supply pair jack (417) are provided with second power supply mounting grooves (4111) communicated with the second power supply pair jack (417), two sides of the second power supply mounting groove (4111) are provided with heat dissipation grooves two (4112), the fifteenth side (413) is provided with a second power supply containing groove (4131) communicated with the second power supply pair jack (417) and the second power supply mounting groove (4111), and the fifteenth side (413) and the sixteenth side (414) are provided with heat dissipation holes three (4132) communicated with the second power supply pair jack (417).
6. The connector socket for ultra-large power and signal transmission using graphene according to claim 1, wherein the first power terminal (32) comprises a terminal body portion (321), one end of the terminal body portion (321) extends to form an elastic portion (322), a board end connecting portion (323) is fixedly arranged on one side of the terminal body portion (321), a puncture position (3211) extending out of the terminal body portion (321) is arranged on the other side of the terminal body portion (321), the elastic portion (322) is offset from one side face of the terminal body portion (321), and a bump (3212) is arranged on the terminal body portion (321).
7. The connector socket for ultra-large power and signal transmission using graphene according to claim 6, wherein the elastic portion (322) includes a first elastic arm (3221), a second elastic arm (3222) and a third elastic arm (3223) which are sequentially arranged, one end of the first elastic arm (3221) and one end of the third elastic arm (3223) close to the terminal main body portion (321) are provided with an inclined connecting portion (32211) fixedly connected with the terminal main body portion (321), the second elastic arm (3222) extends vertically from the terminal main body portion (321), one end, far away from the terminal main body portion (321), of the first elastic arm (3221) and one end, far away from the second elastic arm (3222), of the third elastic arm (3223) are respectively provided with a contact portion one (32212) and a contact portion three (32231) which are bent towards the second elastic arm (3222), and one end, far away from the terminal main body portion (321), of the second elastic arm (3222) is provided with a contact portion two (32221) which is bent towards the first elastic arm (3221).
8. A connector receptacle for ultra-large power and signal transmission using graphene as claimed in claim 1, wherein the outer surfaces of the first power terminal (32), the second power terminal (42) and the telecommunication terminal (22) are provided with graphene layers.
9. A connector receptacle for ultra-large power and signal transmission using graphene as claimed in claim 1, wherein said first power terminal (32), second power terminal (42), telecommunications terminal (22) are made of graphene copper.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN202321346777.4U CN220138785U (en) | 2023-05-30 | 2023-05-30 | Connector socket applying graphene and used for oversized power supply and signal transmission |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN202321346777.4U CN220138785U (en) | 2023-05-30 | 2023-05-30 | Connector socket applying graphene and used for oversized power supply and signal transmission |
Publications (1)
| Publication Number | Publication Date |
|---|---|
| CN220138785U true CN220138785U (en) | 2023-12-05 |
Family
ID=88963079
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| CN202321346777.4U Active CN220138785U (en) | 2023-05-30 | 2023-05-30 | Connector socket applying graphene and used for oversized power supply and signal transmission |
Country Status (1)
| Country | Link |
|---|---|
| CN (1) | CN220138785U (en) |
-
2023
- 2023-05-30 CN CN202321346777.4U patent/CN220138785U/en active Active
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