CN110932268A - Multifunctional power supply application device - Google Patents

Abstract

The invention relates to a multifunctional power supply application device, which is characterized by comprising: a cavity; the cavity is divided into a strong current functional area, a weak current functional area and an auxiliary functional area, the weak current functional area is arranged on one side of the strong current functional area, and the auxiliary functional area is arranged on the other side of the strong current functional area; the strong electric function region includes: a power supply unit and a distribution unit; the weak current functional region includes: a weak current switching interface and a functional unit; the auxiliary functional area includes: controller, charger and lighting device. The switching to forceful electric power supply and light current power supply is convenient to realize, and through setting up the auxiliary function district, the multi-functional application and the control of synthesizing to the power are realized.

Description

Multifunctional power supply application device

Technical Field

The invention belongs to the technical field of power supply application, and particularly relates to a multifunctional power supply application device.

Background

The traditional low-voltage apparatus mainly relies on the socket or the power strip to get the electricity and realizes. The socket is preset, so that the electricity taking position is inconvenient and the number of the electricity taking points is insufficient. The power strip is simple in structure and is an open structure under many conditions, a power switching point is exposed outside, potential safety hazards are easily caused, and the socket and the power strip are single in function, so that the power strip cannot meet the use requirements of various electrical appliances, particularly electrical appliances with signal transmission functions, and cannot be accompanied by other functions.

Disclosure of Invention

The invention aims to provide a multifunctional power supply application device.

In order to solve the above technical problem, the technical solution of the present invention is realized as follows:

the embodiment of the invention provides a multifunctional power supply application device, which comprises: a cavity;

the cavity is divided into a strong current functional area, a weak current functional area and an auxiliary functional area, the weak current functional area is arranged on one side of the strong current functional area, and the auxiliary functional area is arranged on the other side of the strong current functional area;

the strong electric function region includes: a power supply unit and a distribution unit;

the weak current functional region includes: a weak current switching interface and a functional unit;

the auxiliary functional area includes: controller, charger and lighting device.

In one possible way of realisation,

the power supply unit includes: an electrical conductor, a conductor insulator, wherein the electrical conductor comprises: a live conductor, a zero conductor and a ground conductor;

a cavity opening along the length direction of the cavity is formed in one side of the cavity;

the conductor contact of the distribution unit is inserted into the cavity through the cavity opening;

first grooves are respectively formed in the two inner side walls of the opening of the cavity inside the cavity, and the fire wire conductor or the zero line conductor which are matched with each other are installed inside the first grooves;

the live wire conductor and the zero wire conductor are respectively conductors of U-shaped structures, the U-shaped opening direction of the conductors of the U-shaped structures points to the opening direction of the cavity, and a plurality of first fixed openings are arranged on the conductors of the U-shaped structures in parallel;

the ground wire electric conductor is of a semicircular protruding structure, the protruding part of the electric conductor of the semicircular protruding structure points to the direction of the opening of the cavity, and a plurality of second fixed openings are arranged on the surface of the protruding part of the electric conductor of the semicircular protruding structure in parallel;

the conductor insulators are respectively wrapped outside the live wire conductor and the zero wire conductor, and the conductor insulators wrap the conductor of the U-shaped structure along the periphery of the conductor of the U-shaped structure except the position of the first fixed opening;

the live wire conductor is internally provided with a live wire, the zero line conductor is internally provided with a zero line, and the ground wire conductor is internally provided with a ground wire.

In one possible way of realisation,

a plurality of opening structures in which protective rubber strips can be placed are arranged in parallel at the lower part of the opening of the cavity;

and the protective rubber strip is made of soft insulating material.

In one possible way of realisation,

and the openings at the two longitudinal ends of the cavity are respectively provided with matched side covers, and the side covers are made of insulating materials.

In one possible implementation manner, the method further includes: a buckle structure;

the buckle structure is arranged at the bottom of the cavity corresponding to the opening of the cavity, a buckle matched with the buckle structure is arranged outside the buckle structure, and the bayonet is arranged on the mounting plate.

In one possible way of realisation,

the strong electric functional area further comprises: a power supply connector;

the power connector is arranged on one side of the cavity and is used for connecting an external power line to the conductor inside the cavity;

the power connector consists of a power insulation shell, a conductive inserting sheet and a binding post;

the head part of the conductive insertion piece is arranged outside the power supply insulating shell, and the tail part of the conductive insertion piece is arranged inside the power supply insulating shell and is connected with the corresponding binding post arranged inside the power supply insulating shell;

the wiring terminal is provided with a wire hole and a fixing screw for fixedly connecting the external power wire;

wherein, electrically conductive inserted sheet includes: a live wire plug-in sheet, a zero line plug-in sheet and a ground wire plug-in sheet;

the connecting column includes: a live wire connecting column, a zero wire connecting column and a ground wire connecting column;

the head part of the live wire inserting piece is arranged at the corresponding position of the conductor and is inserted into a live wire U-shaped groove of the conductor of the U-shaped structure of the cavity;

the head of the zero line inserting piece is arranged at the corresponding position of the electric conductor and is inserted into a zero line U-shaped groove of the electric conductor of the U-shaped structure of the cavity;

the head of the ground wire insert is arranged at the corresponding position of the conductor and is connected with the convex part of the ground wire conductor.

In one possible way of realisation,

when the weak current adapter is arranged on one side of a strong current cavity corresponding to the strong current functional area, the functional unit is arranged on the strong current cavity, one end of the functional unit is connected with a weak current source line, and the other end of the functional unit is connected with an electricity utilization unit.

In one possible way of realisation,

the charger and the lighting device of the auxiliary functional area are both of independent structures;

the controller connects an external power supply to the electric conductor in the strong electric cavity corresponding to the strong electric functional area;

the controller consists of a controller shell, a PCB control panel, a wiring terminal and a first connecting piece, wherein the PCB control panel is arranged inside the controller shell, the controller shell is connected with one end of the strong current cavity through the first connecting piece, and the wiring terminal is connected with a conductor in the strong current cavity and the external power supply;

the charger consists of a charging shell, a charging unit and a second connecting piece, wherein the charging shell is connected with one end of the strong current cavity in parallel through the second connecting piece, the charging unit is connected with a conductor in the strong current cavity, and a charging interface is arranged on the charging unit;

a second groove is formed in the bottom of the outer side of the cavity, and the lighting device is arranged in the second groove;

the lighting device comprises an LED lamp strip, a light-transmitting plate and an inductor, wherein the light-transmitting plate is fixedly arranged in the second groove, and the LED lamp strip and the inductor are fixedly arranged on the second groove.

In one possible implementation manner, the method further includes: a die cavity connecting piece is arranged on the die cavity,

when the strong current functional area, the weak current functional area and the auxiliary functional area can be respectively and independently arranged, the strong current functional area, the weak current functional area and the auxiliary functional area are connected with each other through the cavity connecting piece to form a whole;

and when the weak current adapter is arranged on an independent cavity, the interface shell is connected with a strong current cavity corresponding to the strong current functional area through the cavity connecting piece to form a whole.

The invention can bring the following beneficial effects:

the switching of a strong current power supply and a weak current power supply is realized by setting a strong current functional area and a weak current functional area, and the comprehensive multifunctional application and monitoring of the power supply are realized by setting an auxiliary functional area; the insulating material is used, electric shock can be avoided, the protection rubber strip is arranged, the cavity and the internal structure of the cavity are protected conveniently, and the service life cycle of the cavity is prolonged; through the first and second fixing openings, fixing of the dispensing unit is facilitated.

The foregoing description is only an overview of the technical solutions of the present invention, and in order to make the technical means of the present invention more clearly understood, the present invention may be implemented in accordance with the content of the description, and in order to make the above and other objects, features, and advantages of the present invention more clearly understood, the following preferred embodiments are described in detail with reference to the accompanying drawings.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings needed to be used in the description of the embodiments or the prior art will be briefly introduced below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

FIG. 1 is a schematic structural diagram of a multifunctional power application device of the present invention;

FIG. 2 is a schematic diagram of the power supply unit of the present invention;

FIG. 3 is a schematic diagram of the structure of the neutral and live conductors of the present invention;

FIG. 4 is a schematic view of the construction of the edge cover of the present invention;

FIG. 5 is a schematic structural view of the snap structure of the present invention;

FIG. 6 is a schematic view of the construction of the mounting plate of the present invention;

FIG. 7 is a schematic diagram of the structure of the power connector of the present invention;

FIG. 8 is a schematic diagram of the controller of the present invention;

FIG. 9 is a schematic view of the construction of the lighting device of the present invention;

FIG. 10 is a schematic diagram of the structure of a single core conductor of the present invention;

FIG. 11 is a schematic structural view of the housing of the present invention;

FIG. 12 is a schematic view of the core conductor of the present invention after it has entered the housing;

fig. 13 is a schematic view of the structure of the ground conductor of the present invention;

FIG. 14 is a schematic view of the conductor insulator of the live neutral of the present invention;

FIG. 15 is an open configuration of the sides of the live and neutral conductors of the present invention;

in the figure, the mold cavity 1, the mold cavity opening 11, the protective rubber strip 111, the side cover 112, the first groove 12, the second groove 13, the high-voltage functional area 2, the low-voltage functional area 3, the power connector 31, the power insulating housing 311, the conductive insert 312, the terminal 313, the auxiliary functional area 4, the controller 41, the controller housing 411, the PCB control board 412, the connection terminal 413, the charger 42, the charging housing 421, the charging unit 422, the lighting device 43, the LED strip 431, the transparent plate 432, the inductor 433, the conductor 21, the conductor insulator 22, the live conductor 211, the first fixing opening 2111, the neutral conductor 212, the ground conductor 213, the second fixing opening 2131, the fastening structure 51, the mounting plate 52, and the mold cavity connector 0.

Detailed Description

To further explain the technical means, the creation features, the achievement objects and the effects of the present invention, the following detailed description will be provided with reference to the accompanying drawings and the preferred embodiments for describing the specific implementation, the structure, the features and the effects of the multifunctional power application device according to the present invention.

An embodiment of the present invention provides a multifunctional power supply application apparatus, as shown in fig. 1, including: a cavity 1;

the cavity 1 is divided into a strong current functional area 2, a weak current functional area 3 and an auxiliary functional area 4, the weak current functional area 3 is arranged on one side of the strong current functional area 2, and the auxiliary functional area 4 is arranged on the other side of the strong current functional area 2;

the ferroelectric functional region 2 includes: a power supply unit and a distribution unit;

the weak current functional region 3 includes: a weak current switching interface and a functional unit;

the auxiliary functional region 4 includes: a controller 41, a charger 42, and a lighting device 43.

The above-mentioned distribution unit can be implemented as an electric outlet;

the weak current switching port is convenient for switching strong current to weak current;

the appearance structure of the cavity can be designed according to the requirements of actual power utilization positions, so that the installation and use requirements of different positions are met;

the section shape corresponding to the appearance structure of the cavity is basically rectangular, the cavity can be arranged into a surface mounting type for directly mounting a mounting surface and an embedded type for mounting a slot on the mounting surface, and the length can be determined according to actual needs.

The beneficial effects of the above technical scheme are: through setting up forceful electric power functional area and light current functional area, realize the switching to forceful electric power supply and light current power supply, through setting up the auxiliary function district, realize the multi-functional application and the control of synthesizing to the power.

Embodiments of the present invention provide a multifunctional power supply application apparatus, as shown in figures 2-3 and 13-15,

the power supply unit includes: an electric conductor 21 and a conductor insulator 22, wherein the electric conductor 21 comprises: live conductor 211, neutral conductor 212, and ground conductor 213;

a cavity opening 11 along the length direction of the cavity is formed in one side of the cavity 1;

the conductor contact of the distribution unit is inserted into the cavity 1 through the cavity opening 11;

a first groove 12 is respectively formed in the two inner side walls of the cavity opening 11 inside the cavity 1, and the live wire conductor 211 or the zero wire conductor 212 which are matched with each other are installed inside the first groove 12;

the live wire conductor 211 and the zero wire conductor 212 are respectively U-shaped conductors, the U-shaped opening direction of the U-shaped conductors points to the cavity opening 11, and a plurality of first fixing openings 2111 are arranged in parallel on the U-shaped conductors;

the ground wire conductor 213 is a conductor with a semicircular convex structure, the convex part of the conductor with the semicircular convex structure points to the direction of the cavity opening 11, and a plurality of second fixing openings 2131 are arranged on the surface of the convex part of the conductor with the semicircular convex structure in parallel;

the conductor insulator 22 is respectively wrapped outside the live wire conductor 211 and the zero wire conductor 212, and the conductor insulator 22 wraps the conductor with the U-shaped structure along the periphery of the conductor with the U-shaped structure;

the live wire conductor 211 is provided with a live wire inside, the neutral wire conductor 212 is provided with a neutral wire inside, and the ground wire conductor 213 is provided with a ground wire inside.

The width of the cavity opening at one side of the cavity along the length direction of the cavity is 4-5mm, and the width is slightly larger than the peripheral size of the power socket extension body, so that dislocation is avoided when the extension body is inserted into the cavity, the requirement of the minimum space of the part, which is connected with the conductor in the cavity, of the power socket extension body, which can be inserted into the cavity and can be connected with the conductor in the cavity, can be met, the opening can be kept on a minimum required structure, the conductor in the cavity is prevented from being exposed to the outside as far as possible, and the risk of electric shock caused by the fact that any human body part extends into the cavity is prevented.

The structure of the combined first fixing openings is similar to a zipper structure, an uneven surface structure is formed, and the position of the power socket protrusion is relatively fixed after the power socket protrusion is inserted into the conductor by using the structure.

The structure of the combined second fixing openings is similar to a zipper structure, an uneven surface structure is formed, and the position of the power socket extension body is relatively fixed after the power socket extension body is inserted into the conductor by using the structure.

The beneficial effects of the above technical scheme are: through the first and second fixing openings, fixing of the dispensing unit is facilitated.

The embodiment of the invention provides a multifunctional power supply application device,

a plurality of opening structures capable of being provided with protective rubber strips 111 are arranged at the lower part of the cavity opening 11 in parallel;

and the protective rubber strip 111 is made of soft insulating material.

The working principle of the technical scheme is as follows: when the power socket is in an original state, the protective rubber strip and the surface of the cavity opening of the cavity are positioned on the same horizontal plane and used for covering the cavity opening and preventing other solids or liquid from directly falling into the cavity, and when the extension body of the power socket is inserted into the cavity, the insertion cannot be hindered due to the soft property of the protective rubber strip.

The beneficial effects of the above technical scheme are: through using insulating material, can avoid electrocuteeing, through setting up the protection adhesive tape, be convenient for protect the inner structure of die cavity and die cavity, improve its life cycle.

An embodiment of the present invention provides a multifunctional power application device, as shown in fig. 4,

the die cavity 1 is provided with two side covers 112 at the openings at the two longitudinal ends, and the side covers 112 are made of insulating materials.

The beneficial effects of the above technical scheme are: the side cover is made of insulating materials, so that electric shock is avoided, and exposure of the conductor in the cavity can be effectively avoided.

An embodiment of the present invention provides a multifunctional power supply application apparatus, as shown in fig. 5 to 6, further including: a snap-fit structure 51;

the buckle structure 51 is arranged at the bottom of the cavity 1 corresponding to the cavity opening 11, a buckle matched with the buckle structure 51 is arranged outside the buckle structure 51, and the bayonet is arranged on the mounting plate 52.

The working principle of the technical scheme is as follows: during installation, the installation plate is fixed on the installation surface, and then the installation plate is clamped into a corresponding buckle of the installation plate by utilizing a buckle structure at the back of the cavity.

The beneficial effects of the above technical scheme are: the die cavity is conveniently and effectively fixed.

An embodiment of the present invention provides a multifunctional power application device, as shown in fig. 7,

the strong electric functional region 2 further includes: a power supply connector 31;

the power connector 31 is arranged at one side of the cavity 1, and the power connector 31 is used for connecting an external power line to the conductor 21 inside the cavity 1;

the power connector 31 consists of a power insulation shell 311, a conductive inserting sheet 312 and a binding post 313;

the head of the conductive insertion piece 312 is arranged outside the power supply insulation shell 311, and the tail of the conductive insertion piece 312 is arranged inside the power supply insulation shell 311 and is connected with the corresponding binding post 313 arranged inside the power supply insulation shell 311;

a wire hole and a fixing screw are arranged on the binding post 313 and are used for fixedly connecting the external power wire;

wherein the conductive insert 312 comprises: a live wire plug-in strip 3121, a zero line plug-in strip 3122 and a ground wire plug-in strip 3123;

the connection column 313 includes: a live wire connecting column, a zero wire connecting column and a ground wire connecting column;

the head of the live wire inserting piece 3121 is arranged at the corresponding position of the conductor and is inserted into a live wire U-shaped groove of the conductor of the U-shaped structure of the cavity;

the head of the zero line inserting piece 3122 is arranged at the corresponding position of the electric conductor and is inserted into the zero line U-shaped groove of the electric conductor of the U-shaped structure of the cavity;

the head of the ground wire insert 3123 is arranged at the corresponding position of the conductor and connected with the convex part of the ground wire conductor.

The beneficial effects of the above technical scheme are: set up line hole and fixed screw on the terminal, be convenient for connect fixed connection with external power cord, through setting up electrically conductive inserted sheet, be convenient for carry out the circuit and effectively connect.

The embodiment of the invention provides a multifunctional power supply application device,

when the weak current adapter is arranged on one side of a strong current cavity corresponding to the strong current functional area 1, the functional unit is arranged on the strong current cavity, one end of the functional unit is connected with a weak current source line, and the other end of the functional unit is connected with the power utilization unit.

The weak current switching interface realizes strong current and weak current switching by different functional units.

The beneficial effects of the above technical scheme are: the strong current and weak current conversion connection is convenient to realize.

Embodiments of the present invention provide a multifunctional power application apparatus, as shown in figures 8-9,

the charger 42 and the lighting device 43 of the auxiliary functional area 4 are both of a single structure;

the controller 41 connects an external power supply to the electric conductor in the strong electric cavity corresponding to the strong electric functional area 1;

the controller 41 is composed of a controller housing 411, a PCB control board 412, a connection terminal 413, and a first connection member, wherein the PCB control board 412 is disposed inside the controller housing 411, the controller housing 411 is connected to one end of the strong electric cavity through the first connection member, and the connection terminal 413 is connected to the conductor in the strong electric cavity and the external power supply;

the charger 42 is composed of a charging shell 421, a charging unit 422 and a second connecting piece, the charging shell 421 is connected with one end of the strong current cavity in parallel through the second connecting piece, the charging unit 422 is connected with a conductor in the strong current cavity, and a charging interface 4221 is arranged on the charging unit 422;

a second groove 13 is formed in the bottom of the outer side of the cavity 1, and the lighting device 43 is arranged in the second groove 13;

the lighting device 43 is composed of an LED strip 431, a transparent plate 432 and a sensor 433, the transparent plate 432 is fixedly disposed in the second groove 13, and the LED strip 431 and the sensor 433 are fixedly disposed on the second groove 13.

The controller connects an external power supply to the internal conductor of the strong current cavity, can switch the cavity power supply and monitor the application state and data of the cavity power supply, and when the controller is used, the strong current cavity does not need to use a power connector.

Above-mentioned PCB control panel can realize switch, the circular telegram state demonstration and the control of electric current data to the die cavity power through pronunciation or cell-phone APP control.

The charger can be a USB charger, and is convenient for charging electric equipment.

In the above, the non-contact switch control of the human body is realized through the inductor.

The beneficial effects of the above technical scheme are: the controller is arranged, so that the current, the voltage and the like in a strong current area and a weak current area in the cavity can be monitored in real time, the abnormity is avoided, and the power supply can be effectively switched by the controller, so that the effective intelligent control is realized; through setting up lighting device and charger, improve its multi-functional application.

An embodiment of the present invention provides a multifunctional power supply application apparatus, as shown in fig. 10 to 12, further including: a cavity connecting piece (0) is arranged on the outer wall of the cavity,

when the strong current functional area 2, the weak current functional area 3 and the auxiliary functional area 4 can be respectively and independently arranged, the strong current functional area 2, the weak current functional area 3 and the auxiliary functional area 4 are connected with each other through the cavity connecting piece 0 to form a whole;

and when the weak current adapter is arranged on the independent cavity 1, the interface shell is connected with a strong current cavity corresponding to the strong current functional area 2 through the cavity connecting piece 0 to form a whole.

In the above, the electric conductor, the insulator and the related components inside the strong electric cavity can also be separated from the cavity as an independent part, the separated part is used as the core conductor 01 of the cavity, the core conductor 01 has an independent shell, and the shell is made of insulating materials, so that the shell can play the role of insulating the conductor and is also the shell of the core conductor 01. In this case, a separate structure of the housing 02 is required. The outer contour of the interior of the housing 02 is designed to follow the contour of the core conductor housing 02, so that the core conductor 01 can penetrate into the housing 02. The core conductor 01 and the shell 02 form a complete powerful functional area 2. At this time, the components of the weak current functional region 3 and the auxiliary functional region 4 may be all disposed on the housing 02, thereby further constituting a complete multifunctional power application device.

The beneficial effects of the above technical scheme are: by providing the cavity connector, it is convenient to effectively connect separately provided devices or regions.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention, and not to limit the same; while the invention has been described in detail and with reference to the foregoing embodiments, it will be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some or all of the technical features may be equivalently replaced; and the modifications or the substitutions do not make the essence of the corresponding technical solutions depart from the scope of the technical solutions of the embodiments of the present invention.

Claims (9)

1. A multifunctional power supply application apparatus, comprising: a cavity;

the cavity is divided into a strong current functional area, a weak current functional area and an auxiliary functional area, the weak current functional area is arranged on one side of the strong current functional area, and the auxiliary functional area is arranged on the other side of the strong current functional area;

the strong electric function region includes: a power supply unit and a distribution unit;

the weak current functional region includes: a weak current switching interface and a functional unit;

the auxiliary functional area includes: controller, charger and lighting device.

2. The multifunctional power supply application device of claim 1,

the power supply unit includes: an electrical conductor, a conductor insulator, wherein the electrical conductor comprises: a live conductor, a zero conductor and a ground conductor;

a cavity opening along the length direction of the cavity is formed in one side of the cavity;

the conductor contact of the distribution unit is inserted into the cavity through the cavity opening;

first grooves are respectively formed in the two inner side walls of the opening of the cavity inside the cavity, and the fire wire conductor or the zero line conductor which are matched with each other are installed inside the first grooves;

the live wire conductor and the zero wire conductor are respectively conductors of U-shaped structures, the U-shaped opening direction of the conductors of the U-shaped structures points to the opening direction of the cavity, and a plurality of first fixed openings are arranged on the conductors of the U-shaped structures in parallel;

the ground wire electric conductor is of a semicircular protruding structure, the protruding part of the electric conductor of the semicircular protruding structure points to the direction of the opening of the cavity, and a plurality of second fixed openings are arranged on the surface of the protruding part of the electric conductor of the semicircular protruding structure in parallel;

the conductor insulators are respectively wrapped outside the live wire conductor and the zero wire conductor, and the conductor insulators wrap the conductor of the U-shaped structure along the periphery of the conductor of the U-shaped structure except the position of the first fixed opening;

the live wire conductor is internally provided with a live wire, the zero line conductor is internally provided with a zero line, and the ground wire conductor is internally provided with a ground wire.

3. The multifunctional power supply application device of claim 2,

a plurality of opening structures in which protective rubber strips can be placed are arranged in parallel at the lower part of the opening of the cavity;

and the protective rubber strip is made of soft insulating material.

4. The multifunctional power supply application device of claim 1,

and the openings at the two longitudinal ends of the cavity are respectively provided with matched side covers, and the side covers are made of insulating materials.

5. The multifunctional power application device of claim 1, further comprising:

a buckle structure;

the buckle structure is arranged at the bottom of the cavity corresponding to the opening of the cavity, a buckle matched with the buckle structure is arranged outside the buckle structure, and the bayonet is arranged on the mounting plate.

6. The multifunctional power application device of claim 1, wherein the high voltage functional region further comprises: a power supply connector;

the power connector is arranged on one side of the cavity and is used for connecting an external power line to the conductor inside the cavity;

the power connector consists of a power insulation shell, a conductive inserting sheet and a binding post;

the head part of the conductive insertion piece is arranged outside the power supply insulating shell, and the tail part of the conductive insertion piece is arranged inside the power supply insulating shell and is connected with the corresponding binding post arranged inside the power supply insulating shell;

the wiring terminal is provided with a wire hole and a fixing screw for fixedly connecting the external power wire;

wherein, electrically conductive inserted sheet includes: a live wire plug-in sheet, a zero line plug-in sheet and a ground wire plug-in sheet;

the connecting column includes: a live wire connecting column, a zero wire connecting column and a ground wire connecting column;

the head part of the live wire inserting piece is arranged at the corresponding position of the conductor and is inserted into a live wire U-shaped groove of the conductor of the U-shaped structure of the cavity;

the head of the zero line inserting piece is arranged at the corresponding position of the electric conductor and is inserted into a zero line U-shaped groove of the electric conductor of the U-shaped structure of the cavity;

the head of the ground wire insert is arranged at the corresponding position of the conductor and is connected with the convex part of the ground wire conductor.

7. The multifunctional power supply application device of claim 1,

when the weak current adapter is arranged on one side of a strong current cavity corresponding to the strong current functional area, the functional unit is arranged on the strong current cavity, one end of the functional unit is connected with a weak current source line, and the other end of the functional unit is connected with an electricity utilization unit.

8. The multifunctional power supply application device of claim 1,

the charger and the lighting device of the auxiliary functional area are both of independent structures;

the controller connects an external power supply to the electric conductor in the strong electric cavity corresponding to the strong electric functional area;

the controller consists of a controller shell, a PCB control panel, a wiring terminal and a first connecting piece, wherein the PCB control panel is arranged inside the controller shell, the controller shell is connected with one end of the strong current cavity through the first connecting piece, and the wiring terminal is connected with a conductor in the strong current cavity and the external power supply;

the charger consists of a charging shell, a charging unit and a second connecting piece, wherein the charging shell is connected with one end of the strong current cavity in parallel through the second connecting piece, the charging unit is connected with a conductor in the strong current cavity, and a charging interface is arranged on the charging unit;

a second groove is formed in the bottom of the outer side of the cavity, and the lighting device is arranged in the second groove;

the lighting device comprises an LED lamp strip, a light-transmitting plate and an inductor, wherein the light-transmitting plate is fixedly arranged in the second groove, and the LED lamp strip and the inductor are fixedly arranged on the second groove.

9. The multifunctional power application device of claim 1, further comprising: a die cavity connecting piece is arranged on the die cavity,

when the strong current functional area, the weak current functional area and the auxiliary functional area can be respectively and independently arranged, the strong current functional area, the weak current functional area and the auxiliary functional area are connected with each other through the cavity connecting piece to form a whole;

and when the weak current adapter is arranged on an independent cavity, the interface shell is connected with a strong current cavity corresponding to the strong current functional area through the cavity connecting piece to form a whole.

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