CN217306888U - Temperature monitoring intelligent heat dissipation modular connector - Google Patents

Abstract

The utility model discloses a temperature monitoring intelligence heat dissipation modularization connector, it includes female seat of connector, the public seat of connector, a plurality of linking module and a plurality of temperature monitoring radiator unit, be equipped with location buckle connection structure between female seat of connector and the public seat of connector, female seat of connector is equipped with can dismantle connection structure, the public seat of connector is equipped with can dismantle connection structure one. The utility model discloses a set up the temperature and monitor the radiator unit and make the modularization connector have temperature monitoring and radiating function, the effectual high-power connector that has reduced works under the long-time high temperature state and can't release the heat, lead to the connector ablation, the insulating properties loss causes the risk that the power short circuit arouses the conflagration; the utility model discloses an each part is for dismantling the connection to be convenient for linking module carries out the dismouting, when one of them linking module broke down, only need to dismantle the linking module of trouble change can, need not whole change, reduce the maintenance cost.

Description

Temperature monitoring intelligent heat dissipation modular connector

Technical Field

The utility model relates to a technical field of modularization connector, concretely relates to temperature monitoring intelligence heat dissipation modularization connector.

Background

The connector is an essential component for realizing the connection and disconnection of circuits in a power circuit interconnection system. With the continuous development of testing technologies of new energy automobiles, network communication, power electronic products, robots, medical equipment, automation equipment, aerospace, military equipment systems and the like, because a plurality of control mechanisms and driving sources are required, a plurality of circuits need to be interconnected, and the interconnection and conduction of the plurality of circuits are improved, the module block connector invented by people is convenient for the communication of the plurality of circuits; the larger the circuit power of the existing high-power circuit modular connector is, the larger the current is, the larger the calorific value of the circuit connector is, the existing modular connector has no heat dissipation function and poor heat dissipation effect, the temperature condition of the existing modular connector can be known only by people touching or contacting with an instrument for measurement, the temperature condition cannot be immediately fed back to people in a visual mode, when the modular connector is in a high-temperature state for a long time, the heat cannot be released, the connector can be ablated finally, the insulation performance loss causes a power supply short circuit, a fire hazard is caused, and certain potential safety hazard exists; the existing modular connectors are mostly assembled and connected in a screw locking mode, the installation steps are complicated and long in time, when one connecting module in the modular connector breaks down, the whole modular connector is generally required to be replaced, the damaged part cannot be quickly disassembled and replaced, and the maintenance cost is high; the connecting terminal of the existing modular connector is usually fixedly connected with the connecting module, so that the connection between a cable and the connecting module is realized, but the connecting terminal and the connecting module cannot be quickly disassembled or connected, and the damage of the connecting module can be caused when the connecting module is required to be disassembled, so that the subsequent connection stability and normal use are influenced.

The existing modular connector generally comprises a female connector seat and a male connector seat, one of the female connector seat and the male connector seat is required to be fixed on an equipment connecting installation part, so that subsequent plug-in connection is facilitated, but the fixed installation hole of the existing female connector seat or the male connector seat is mostly fixed, and quick adjustment cannot be achieved, so that the installation connection on the equipment connecting installation part which cannot be used for different installation depths is achieved, the installation adjustment performance is low, and the requirement of the existing modular connector cannot be met.

SUMMERY OF THE UTILITY MODEL

The utility model discloses a not enough to present technique provides a temperature monitoring intelligence heat dissipation modularization connector.

The utility model discloses a realize that the technical scheme that above-mentioned purpose adopted is:

the utility model provides a temperature monitoring intelligence heat dissipation modularization connector includes female seat of connector, the public seat of connector and a plurality of connection module, be equipped with location buckle connection structure between female seat of connector and the public seat of connector, female seat of connector and the public seat of connector all are equipped with temperature monitoring radiator unit, female seat of connector includes the socket frame that the bisymmetry set up, two both ends all are equipped with the socket locating plate about socket frame, the socket locating plate with be equipped with detachable connection structure between the socket frame, the public seat of connector includes socket frame one, two that the bisymmetry set up socket frame one both ends all are equipped with socket locating plate one about socket frame one, socket locating plate one with be equipped with detachable connection structure one between the socket frame one.

The improved structure is characterized in that the improved structure is further improved, the connecting module comprises a socket end and a pin end, the socket end and the pin end are both provided with rectangular blocks, heat-conducting silica gel adhesive layers are arranged on two side faces of the socket end and two side faces of the pin end, the socket end is provided with a quick wiring structure, the pin end is provided with a quick wiring structure I, the socket end and the pin end are both provided with reinforcing structures, the upper end face and the lower end face of the socket end are both provided with convex blocks, and the upper end face and the lower end face of the pin end are both provided with convex blocks I.

The socket is further improved in that the two socket frames are respectively provided with a groove, the two grooves form a fixed notch in a mirror image opposite mode, the protruding blocks are respectively inserted into the grooves, and the socket end is arranged in the fixed notch;

the two socket frames I are respectively provided with a first groove, the two first grooves are opposite in mirror image to form a first fixing notch, and the first protruding blocks are respectively inserted into the first grooves, so that the pin ends are arranged in the first fixing notches.

The quick wiring structure comprises a terminal buckle and a female terminal, the terminal buckle is provided with two buckles and a fixed bayonet, the female terminal is provided with an annular groove, the female terminal is inserted into the through hole, the terminal buckle is inserted into the jack, the two buckles are respectively buckled into the bayonet holes, the fixed bayonet is connected with the annular groove in a plugging mode, the female terminal is fixed on the jack end, and the female terminal is provided with a connecting socket;

the quick wiring structure comprises a first terminal buckle and a first fixed bayonet, the first terminal buckle is provided with a first hook and a first fixed bayonet, the first male terminal is provided with a first annular groove, the first male terminal is inserted into the first through hole, the first terminal buckle is inserted into the first through hole, the first hook is respectively buckled into the first fixed bayonet, the first fixed bayonet is connected with the first annular groove in a clamping mode, the male terminal is fixed on the pin end, and the male terminal is provided with a connecting pin.

The improved structure comprises a plurality of cavities and a plurality of reinforcing ribs, wherein the reinforcing ribs are arranged between the two cavities, and the cavities are respectively inverted with a plurality of arc structures.

The socket frame is further improved, the socket positioning plate is provided with mounting lugs, the detachable connecting structure comprises a plurality of buckles and a plurality of buckle holes, the plurality of buckles are arranged on the left end and the right end of the socket frame in a group in pairs respectively, the plurality of buckle holes are arranged on four corners of the socket positioning plate respectively, and the buckles are buckled and connected with the buckle holes respectively;

the socket frame I is characterized in that the socket positioning plate I is provided with a first mounting lug, the first detachable connecting structure I comprises a plurality of first buckles and a plurality of first buckling holes, the plurality of first buckles are arranged at the left end and the right end of the socket frame I in a group, the plurality of first buckling holes are arranged on four corners of the socket positioning plate I respectively, and the first buckles are connected with the first buckling holes in a buckling mode respectively.

The further improvement is that the mounting lug and the first mounting lug are both provided with mounting parts, the mounting parts are provided with two mounting holes, the temperature monitoring radiating components comprise a plurality of temperature color-changing adhesive tapes, a radiating fan, a controller and a temperature monitoring sensor, the heat radiation fan and the controller are both provided with installation angle blocks, the heat radiation fan and the controller are respectively arranged on the installation parts through the installation angle blocks, the mounting angle block is provided with a plurality of fixing screws and is connected with the mounting hole through the fixing screws, the installation corner block of the heat radiation fan is provided with a circular hole, the temperature monitoring sensors are respectively fixed on the surfaces of the socket frame and the socket frame I, a plurality of temperature color-changing adhesives are all provided with back adhesives, the temperature color-changing adhesive is respectively adhered to the surfaces of the two socket frames and the first socket frame through back adhesive, the heat radiation fan and the temperature sensor are both provided with wires and electrically connected with the controller.

The improved socket comprises two socket positioning plates and two socket positioning plates, wherein the two socket positioning plates and the two socket positioning plates are both provided with insertion grooves, the insertion grooves are both provided with a plurality of threaded holes and installation connecting blocks, the installation connecting blocks are provided with four through holes and straight slotted holes, the installation connecting blocks are inserted into the insertion grooves and are connected and fixed with the threaded holes through screws, and the screws are fixed in the insertion grooves.

The improved socket comprises a socket positioning plate, a plurality of positioning blocks, a plurality of buckling blocks and two spring pressing plates, wherein the positioning blocks are arranged on the mounting lugs respectively, the buckling blocks are arranged on the side faces of the positioning holes in the socket positioning plate respectively, the buckling blocks are arranged on the inner side faces of the positioning blocks respectively, the buckling blocks and the buckling blocks are provided with inclined faces respectively, the two spring pressing plates are arranged on the outer side faces of the mounting connecting block respectively, buckling grooves are formed in the inner side faces of the positioning blocks respectively, arc-shaped protrusions are arranged on the two spring pressing plates, and the arc-shaped protrusions are matched and buckled with the buckling grooves.

The improved structure is characterized in that the buckle and the first buckle are both composed of a plurality of buckles.

The utility model has the advantages that: the utility model discloses a set up the temperature and monitor the radiator unit and make the modularization connector have temperature monitoring and radiating function, can be effective to reduce the high-power connector and work under the long-time high temperature state and can't release the heat, lead to the connector to ablate, the insulating properties loss causes the risk that the power short circuit causes the conflagration; the temperature color-changing glue is made of the temperature color-changing material, can change along with the change of temperature, people with temperature visual feedback can know the temperature condition of the heat dissipation modular connector in time, risks caused by over-use or over-high temperature are prevented, and double temperature monitoring is formed by the temperature color-changing glue and the temperature monitoring sensor, so that the safety of temperature monitoring is improved; the detachable connecting structure is used for quickly disassembling and assembling the socket positioning plate and the socket frame, and the detachable connecting structure I is used for quickly disassembling and assembling the socket positioning plate I and the socket frame I, so that the whole modular connector is detachably connected, the internal connecting modules are conveniently disassembled and assembled, when one connecting module breaks down, only the broken connecting module needs to be disassembled and replaced, the whole connecting module does not need to be replaced, and the maintenance cost is reduced; the positioning buckle connecting structure is arranged for ensuring the quick matching connection between the female connector seat and the male connector seat and shortening the connecting and positioning time, so that the connecting and matching precision between the socket end and the pin end is ensured, the condition that the connecting pin of the pin end is damaged due to displacement is prevented, the normal use of the heat-radiating modular connector is ensured, and the spring pressing sheet and the buckling groove are arranged for quick connection or disassembly between the female connector seat and the male connector seat, so that the operation step is shortened and the connection or disassembly time is prolonged; the installation connecting block can be adjusted along the direction of inserting the groove by arranging the installation connecting block with the straight slotted hole, so that the female connector seat or the male connector seat can be fixed at positions of different depths, and the installation adjustability is improved.

The present invention will be further described with reference to the accompanying drawings and the following detailed description.

Drawings

Fig. 1 is a schematic view of an overall structure of the temperature monitoring intelligent heat dissipation modular connector according to the embodiment;

fig. 2 is an exploded schematic view of the temperature monitoring intelligent heat dissipation modular connector of the present embodiment;

FIG. 3 is an exploded view of the female connector housing of FIG. 2 according to the present embodiment;

FIG. 4 is an exploded view of the male connector housing of FIG. 2 according to the present embodiment;

fig. 5 is a schematic structural view of the socket alignment plate of the present embodiment;

fig. 6 is a schematic structural diagram of the receptacle alignment plate of the present embodiment.

Detailed Description

The following description is only a preferred embodiment of the present invention, and does not limit the scope of the present invention.

In the embodiment, referring to fig. 1 to 6, a temperature monitoring intelligent heat dissipation modular connector 1 comprises a female connector base 2, a male connector base 3 and a plurality of connection modules 4, a positioning buckle connecting structure 5 is arranged between the female connector seat 2 and the male connector seat 3, the female connector seat 2 and the male connector seat 3 are both provided with a temperature monitoring heat dissipation assembly 6, the connector female seat 2 comprises two symmetrically arranged socket frames 7, the left and right ends of the two socket frames 7 are respectively provided with a socket positioning plate 8, a detachable connecting structure 9 is arranged between the socket positioning plate 8 and the socket frame 7, the connector male socket 3 comprises two symmetrically arranged socket frames I10, the left end and the right end of each socket frame I10 are respectively provided with a socket positioning plate I11, a detachable connecting structure I12 is arranged between the socket positioning plate I11 and the socket frame I10.

It is a plurality of link module 4 all includes socket end 40 and contact pin end 41, socket end 40 and contact pin end 41 all are equipped with the rectangular block, the both sides face of socket end 40 and the both sides face of contact pin end 41 all are equipped with heat conduction silica gel pad layer 43, heat conduction silica gel pad layer 43 is used for improving the heat conduction between link module 4 to improve temperature monitoring radiator unit 6's radiating action, socket end 40 all is equipped with quick wiring structure 13, contact pin end 41 all is equipped with quick wiring structure 14, socket end 40 and contact pin end 41 all still are equipped with additional strengthening 15, socket end 40's upper and lower both ends face all is equipped with lug 400, contact pin end 41's upper and lower both ends face all is equipped with lug 401.

The two socket frames 7 are respectively provided with a groove 70, the two grooves 70 are mirror images and oppositely form a fixed notch, the convex blocks 400 are respectively inserted into the grooves 70, and the socket end 40 is arranged in the fixed notch; the two socket frames I10 are respectively provided with a first groove 100, the first grooves 100 are opposite to form a first fixing notch, the first bumps 401 are respectively inserted into the first grooves 100, the pin ends 41 are arranged in the first fixing notches, and the first grooves 70 and the first grooves 100 are respectively convenient for positioning and embedding of the pin ends 40 and the pin ends 41.

The socket end 40 is provided with a connecting convex block 401 and a through hole 402, the through hole 402 penetrates the socket end 40 and the connecting convex block 401, the connecting convex block 401 is provided with a jack 4010 and two clamping holes 4011, the quick wiring structure 13 comprises a terminal buckle 130 and a female terminal 131, the terminal buckle 130 is provided with two buckles 1300 and a fixed bayonet 1301, the female terminal 131 is provided with an annular groove 1310, the female terminal 131 is inserted into the through hole 402, the terminal buckle 130 is inserted into the jack 4010, the two buckles 1300 are respectively buckled into the clamping holes 4011, the fixed bayonet 1301 and the annular groove 1310 are clamped to enable the female terminal 131 to be fixed on the socket end 40, the female terminal 131 is provided with a connecting socket, the female terminal 131 is used for connecting a cable, and the quick wiring structure 13 facilitates the quick assembly and disassembly between the end of the cable and the socket end 40, the steps and the efficiency of cable installation and disassembly are improved, and the maintenance efficiency is improved; the pin ends 41 are respectively provided with a first connecting bump 411 and a first through hole 412, the first through hole 412 penetrates through the pin ends 41 and the first connecting bump 411, the first connecting bump 411 is provided with a first jack 4110 and a first two-pin jack 4111, the first quick connection structure 14 comprises a first terminal buckle 140 and a first male terminal 141, the first terminal buckle 140 is provided with a first two-buckle hook 1400 and a first fixed bayonet 1401, the first male terminal 141 is provided with a first annular groove 1410, the first male terminal 141 is inserted into the first through hole 142, the first terminal buckle 140 is inserted into the first jack 4110, the two first buckle hooks 1400 are respectively buckled into the first one-pin jack 4111, the first fixed bayonet 1401 is connected with the first annular groove 1410, the male terminal 141 is fixed on the pin ends 41, the male terminal 141 is provided with a connecting pin, and the male terminal 141 is used for connecting cables, the connecting pin is respectively matched and connected with the connecting socket, so that the conducting electric connection between the socket end 40 and the pin end 41 is realized, the first quick wiring structure 14 is convenient for the quick disassembly and assembly between the end part of the cable and the pin end 41, the steps and the efficiency of the cable assembly and disassembly are improved, and the maintenance efficiency is improved.

Reinforcing structure 15 includes a plurality of cavities 150 and a plurality of strengthening rib 151, strengthening rib 150 sets up between two cavities 150, cavity 150 has all fallen a plurality of circular arc structures 152, reinforcing structure 15 is used for making socket end 40 and pin end 41 all possess stronger support strength the time, alleviates socket end 40 and pin end 41's whole weight, improves the lightweight.

The socket positioning plate 8 is provided with mounting lugs 80, the detachable connecting structure 9 comprises a plurality of buckles 90 and a plurality of buckling holes 91, a plurality of buckles 90 are respectively arranged at the left end and the right end of the socket frame 7 in groups in pairs, a plurality of buckling holes 91 are respectively arranged at the four corners of the socket positioning plate 8, the buckles 90 are respectively connected with the buckling holes 91 in a buckling manner, the socket positioning plate I11 is provided with mounting lugs I110, the detachable connecting structure I12 comprises a plurality of buckles I120 and a plurality of buckling holes I121, a plurality of buckles I120 are respectively arranged at the left end and the right end of the socket frame I10 in groups in pairs, a plurality of buckling holes I121 are respectively arranged at the four corners of the socket positioning plate I11, the buckles I120 are respectively connected with the buckling holes I121 in a buckling manner, the buckles 90 and the buckles I120 are respectively composed of a plurality of buckling hooks III, can dismantle connection structure 9 and be convenient for the quick assembly disassembly action between two socket frame 7 and the socket locating plate 8 to be convenient for fast assembly and to the maintenance change of socket end 40, can dismantle connection structure 12 and be convenient for the quick assembly disassembly action between two socket frame 10 and socket locating plate 10, thereby be convenient for fast assembly and to the maintenance change of contact end 41, can dismantle connection structure 9 and can dismantle connection structure 12 and receive the time and the step of the dismantlement and the equipment of heat dissipation modularization connector 1, improve the efficiency of dismouting or equipment.

Installation ear 80 and installation ear 110 all are equipped with installation department 16, installation department 16 is equipped with two mounting holes, temperature monitoring radiator unit 6 all includes polylith temperature discoloration glue 60, radiator fan 61, controller 62 and temperature monitoring sensor 63, radiator fan 61 and controller 62 all are equipped with installation horn piece 64, radiator fan 61 and controller 92 set up through installation horn piece 64 respectively on installation department 16, installation horn piece 16 is equipped with a plurality of set screw, installation horn piece 16 is connected with the mounting hole through set screw, radiator fan 61's installation horn piece 64 is equipped with the circular port, temperature monitoring sensor 63 fixes respectively on socket frame 7, socket frame 10 on the surface, the polylith temperature discoloration glue 60 all is equipped with the gum, temperature discoloration glue 60 passes through the gum and glues two respectively socket frame 7, Two socket frame 10 on the surface, radiator fan 61 and temperature sensor 63 all are equipped with the wire and with controller 62 constitutes the electricity and connects, radiator fan 61 is used for playing the heat dissipation action, gives off the action to the heat of heat dissipation modularization connector 1, temperature sensor 63 is used for playing the action of monitoring the temperature of heat dissipation modularization connector 1, controller 62 is used for playing the control action, temperature discoloration glue 60 adopts the temperature color-changing material to constitute, and it can change along with the change of temperature, with the people of the visual feedback of temperature, people can in time know the temperature condition of heat dissipation modularization connector 1, prevent to use the risk that excessively or the high temperature caused, constitute dual temperature monitoring with temperature monitoring sensor 63 to improve the security of temperature monitoring.

Two socket locating plate 8 and two socket locating plate 11 all is equipped with inserts the recess, it all is equipped with a plurality of screw holes and erection joint piece 17 to insert the recess, erection joint piece 17 is equipped with four 170 and straight slotted holes 171 of through-hole, erection joint piece 17 inserts in the recess to be connected through screw one and screw hole and fix insert in the recess, make through setting up straight slotted hole erection joint piece 17 can be along the direction of inserting the recess and do the adjustment, thereby make female seat 2 of connector or public seat 3 of connector can fix the position at the different degree of depth, improve the adjustability.

The positioning buckle connection structure 5 comprises a plurality of positioning holes 50, a plurality of positioning blocks 51, a plurality of buckling blocks 52, a plurality of buckling blocks 53 and two spring pressing plates 54, wherein the plurality of positioning holes 50 are respectively arranged on the mounting lugs 80, the plurality of positioning blocks 51 are respectively arranged on the mounting lugs 110, the plurality of buckling blocks 52 are respectively arranged on the side surfaces of the positioning holes 50 on the socket positioning plate 8, the plurality of buckling blocks 53 are respectively arranged on the inner side surfaces of the positioning blocks 51, the plurality of buckling blocks 52 and the plurality of buckling blocks 53 are respectively provided with an inclined surface, the two spring pressing plates 54 are respectively arranged on the outer side surfaces of the mounting connection blocks 17, the inner side surfaces of the plurality of positioning blocks 51 are respectively provided with buckling grooves 510, the two spring pressing plates 54 are respectively provided with arc-shaped protrusions 540, the arc-shaped protrusions 540 are in matched and buckled with the buckling grooves 510, and the positioning buckle connection structure 5 is used for ensuring that the female connector base 2 and the male connector base 3 are quickly matched and connected with each other The time of connection location is shortened, thereby guaranteeing the connection fit precision between the socket end 40 and the pin end 41, preventing the occurrence of the situation that the connection pin of the pin end 41 is damaged due to displacement, guaranteeing the normal use of the heat dissipation modular connector 1, the spring pressing sheet 54 and the catching groove 510 are used for the quick connection or disassembly between the female connector seat 2 and the male connector seat 3, shortening the operation steps and improving the connection or disassembly time.

The utility model discloses a set up the temperature and monitor the radiator unit and make the modularization connector have temperature monitoring and radiating function, can be effective to reduce the high-power connector and work under the long-time high temperature state and can't release the heat, lead to the connector to ablate, the insulating properties loss causes the risk that the power short circuit causes the conflagration; the temperature color-changing glue is made of the temperature color-changing material, can change along with the change of temperature, people with temperature visual feedback can know the temperature condition of the heat dissipation modular connector in time, risks caused by over-use or over-high temperature are prevented, and double temperature monitoring is formed by the temperature color-changing glue and the temperature monitoring sensor, so that the safety of temperature monitoring is improved; the detachable connecting structure is used for quickly disassembling and assembling the socket positioning plate and the socket frame, and the detachable connecting structure I is used for quickly disassembling and assembling the socket positioning plate I and the socket frame I, so that the whole modular connector is detachably connected, the internal connecting modules are conveniently disassembled and assembled, when one connecting module breaks down, only the broken connecting module needs to be disassembled and replaced, the whole connecting module does not need to be replaced, and the maintenance cost is reduced; the positioning buckle connecting structure is arranged for ensuring the quick matching connection between the female connector seat and the male connector seat and shortening the connecting and positioning time, so that the connecting and matching precision between the socket end and the pin end is ensured, the condition that the connecting pin of the pin end is damaged due to displacement is prevented, the normal use of the heat-radiating modular connector is ensured, and the spring pressing sheet and the buckling groove are arranged for quick connection or disassembly between the female connector seat and the male connector seat, so that the operation step is shortened and the connection or disassembly time is prolonged; through setting up the messenger that has the straight slotted hole the installation connecting block can be adjusted along the direction of inserting the recess to make female seat of connector or the public seat of connector can fix the position at the different degree of depth, improve the installation adjustability.

The utility model discloses a theory of operation: the temperature sensor checks the temperature condition of the modular connector, when the temperature of the modular connector is higher, the temperature sensor transmits temperature data to the controller, when the temperature exceeds a temperature set value of the controller, the controller controls the cooling fan to start, the heat of the modular connector is subjected to cooling treatment, and when the temperature is reduced to the set value, the controller controls the cooling fan to stop working.

The utility model discloses be not limited to above-mentioned embodiment, adopt and the utility model discloses the same or approximate structure or device of above-mentioned embodiment, and the other that obtain is used for temperature monitoring intelligence heat dissipation modularization connector, all is in the utility model discloses an within the protection scope.

Claims (10)

1. The utility model provides a temperature monitoring intelligence heat dissipation modularization connector which characterized in that: the modularized connector comprises a female connector seat, a male connector seat and a plurality of connecting modules, a positioning buckle connecting structure is arranged between the female connector seat and the male connector seat, the female connector seat and the male connector seat are both provided with a temperature monitoring radiating assembly, the female connector seat comprises a socket frame and two socket positioning plates, the socket frame is arranged in an bisymmetry mode, the socket positioning plates are arranged at the left end and the right end of the socket frame respectively, a detachable connecting structure is arranged between the socket positioning plates, the male connector seat comprises a first socket frame and two socket positioning plates, the first socket frame is arranged in an bisymmetry mode, the left end and the right end of the first socket frame are both provided with a first socket positioning plate, and the first socket positioning plates and the first detachable connecting structures are arranged between the first socket frame.

2. The temperature-monitoring intelligent heat-dissipating modular connector of claim 1, wherein: a plurality of link module all includes socket end and contact pin end, socket end and contact pin end all are equipped with the rectangular block, the both sides face of socket end and the both sides face of contact pin end all are equipped with heat conduction silica gel and paste the layer, the socket end all is equipped with quick wiring structure, the contact pin end all is equipped with quick wiring structure one, socket end and contact pin end all still are equipped with additional strengthening, the upper and lower both ends face of socket end all is equipped with the lug, the upper and lower both ends face of contact pin end all is equipped with lug one.

3. The temperature-monitoring intelligent heat-dissipating modular connector of claim 2, wherein: the two socket frames are respectively provided with a groove, the two grooves form a fixed notch in a mirror image opposite mode, the protruding blocks are respectively inserted into the grooves, and the socket end is arranged in the fixed notch;

the two socket frames I are respectively provided with a first groove, the two first grooves are in mirror image opposition to form a first fixed notch, and the first protruding block is respectively inserted into the first grooves, so that the pin end is arranged in the first fixed notch.

4. The temperature-monitoring intelligent heat-dissipating modular connector of claim 3, wherein: the quick wiring structure comprises a terminal buckle and a female terminal, the terminal buckle is provided with two buckling hooks and a fixed bayonet, the female terminal is provided with an annular groove, the female terminal is inserted into the through hole, the terminal buckle is inserted into the through hole, the two buckling hooks are buckled into the bayonet holes respectively, the fixed bayonet is connected with the annular groove in a clamping manner, the female terminal is fixed on the socket end, and the female terminal is provided with a connecting socket;

the quick wiring structure comprises a first terminal buckle and a first fixed bayonet, the first terminal buckle is provided with a first hook and a first fixed bayonet, the first male terminal is provided with a first annular groove, the first male terminal is inserted into the first through hole, the first terminal buckle is inserted into the first through hole, the first hook is respectively buckled into the first fixed bayonet, the first fixed bayonet is connected with the first annular groove in a clamping mode, the male terminal is fixed on the pin end, and the male terminal is provided with a connecting pin.

5. The temperature-monitoring intelligent heat-dissipating modular connector of claim 4, wherein: the reinforcing structure comprises a plurality of cavities and a plurality of reinforcing ribs, the reinforcing ribs are arranged between the two cavities, and the cavities are all inverted with a plurality of arc structures.

6. The temperature-monitoring intelligent heat-dissipating modular connector of claim 5, wherein: the socket positioning plate is provided with mounting lugs, the detachable connecting structure comprises a plurality of buckles and a plurality of buckling holes, the plurality of buckles are arranged on the left end and the right end of the socket frame in a group in pairs respectively, the plurality of buckling holes are arranged on four corners of the socket positioning plate respectively, and the buckles are buckled and connected with the buckling holes respectively;

the socket frame I is characterized in that the socket positioning plate I is provided with a first mounting lug, the first detachable connecting structure I comprises a plurality of first buckles and a plurality of first buckling holes, the plurality of first buckles are arranged at the left end and the right end of the socket frame I in a group, the plurality of first buckling holes are arranged on four corners of the socket positioning plate I respectively, and the first buckles are connected with the first buckling holes in a buckling mode respectively.

7. The temperature-monitoring intelligent heat-dissipating modular connector of claim 6, wherein: the mounting lugs and the first mounting lug are both provided with mounting parts, the mounting parts are provided with two mounting holes, the temperature monitoring radiating assembly comprises a plurality of temperature color-changing adhesive tapes, a radiating fan, a controller and a temperature monitoring sensor, the heat radiation fan and the controller are both provided with installation angle blocks, the heat radiation fan and the controller are respectively arranged on the installation parts through the installation angle blocks, the mounting angle block is provided with a plurality of fixing screws and is connected with the mounting hole through the fixing screws, the installation corner block of the heat radiation fan is provided with a circular hole, the temperature monitoring sensors are respectively fixed on the surfaces of the socket frame and the socket frame I, a plurality of temperature color-changing adhesives are all provided with back adhesives, the temperature color-changing adhesive is respectively adhered to the surfaces of the two socket frames and the first socket frame through back adhesive, the heat radiation fan and the temperature sensor are both provided with wires and electrically connected with the controller.

8. The temperature-monitoring intelligent heat-dissipating modular connector of claim 7, wherein: the two socket positioning plates and the two socket positioning plates are both provided with insertion grooves, the insertion grooves are both provided with a plurality of threaded holes and installation connecting blocks, the installation connecting blocks are provided with four through holes and straight slotted holes, the installation connecting blocks are inserted into the insertion grooves and are connected and fixed with the threaded holes through screws.

9. The temperature-monitoring intelligent heatsink modular connector of claim 8, wherein: the positioning buckle connecting structure comprises a plurality of positioning holes, a plurality of positioning blocks, a plurality of buckling blocks and two spring pressing sheets, wherein the positioning holes are formed in an installation lug respectively, the positioning blocks are arranged on the installation lug respectively, the buckling blocks are arranged on the side face of the positioning hole in the socket positioning plate respectively, the buckling blocks are arranged on the inner side faces of the positioning blocks respectively, the buckling blocks and the buckling blocks are provided with inclined faces respectively, the spring pressing sheets are arranged on the outer side faces of an installation connecting block respectively, buckling grooves are formed in the inner side faces of the positioning blocks respectively, arc-shaped protrusions are arranged on the spring pressing sheets, and the arc-shaped protrusions are matched with the buckling grooves and connected in a buckled mode.

10. The temperature-monitoring intelligent heat-dissipating modular connector of claim 9, wherein: the first buckle and the second buckle are both composed of a plurality of third buckles.

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