CN214378095U - Wiring-free intelligent modular switch structure - Google Patents

Abstract

The invention relates to a wiring-free intelligent modular switch structure, wherein the switch structure comprises a strong current power supply module (1), a wall surface installation fixing bottom plate (2), a low-voltage power transmission component (3) and a low-voltage power connection function module group, wherein the low-voltage power connection function module group at least comprises a first low-voltage power connection function module (4), a subsequent low-voltage power connection function module and a switch function component (5) which are sequentially arranged; the switch structure forms a low-voltage power access path from the ultra-low safe voltage power output end of the strong power supply module (1) to each switch functional piece (5). By adopting the wiring-free intelligent modular switch structure, only one switch functional piece is required to be connected with the zero line and the live line for supplying power, and the intelligent switch functional piece can be freely added according to the requirement without being additionally connected with the zero line and the live line, so that the convenience and the expandability of switch installation are increased to a certain extent.

Description

Wiring-free intelligent modular switch structure

Technical Field

The invention relates to the field of switches, in particular to the technical field of intelligent switches, and specifically relates to a wiring-free intelligent modular switch structure.

Background

The intelligence low pressure wall switch product on the existing market is the forceful electric power product mostly, for the power supply of zero live wire or for single live wire power supply scheme, when a plurality of switches were placed side by side, every switch all will independent connection zero live wire or live wire, the construction is loaded down with trivial details, this kind of scheme exists the expansion difficulty problem simultaneously, if need increase the switch then will have the forceful electric power supply module of reservation, otherwise unable expansion or need be opened the hole on the wall and increase the wire according to the end box.

Disclosure of Invention

The invention aims to overcome the defects of the prior art and provide a wiring-free intelligent modular switch structure with convenience and expansibility.

In order to achieve the above object, the intelligent modular switch structure without wiring according to the present invention comprises:

the wiring-free intelligent modular switch structure is mainly characterized by comprising a strong current power supply module, a wall surface installation fixing bottom plate, a low-voltage power transmission component and a low-voltage power connection function module group, wherein the low-voltage power connection function module group at least comprises a first low-voltage power connection function module and a subsequent low-voltage power connection function module which are sequentially arranged, the input end of the strong current power supply module is connected with a zero-firing line and is arranged on the front surface of the wall surface installation fixing bottom plate, the low-voltage power transmission component and each low-voltage power connection function module in the low-voltage power connection function module group are fixedly arranged on the front surface of the wall surface installation fixing bottom plate, and the front surface of each low-voltage power connection function module is provided with a corresponding switch function piece;

the ultra-low safety voltage power output end of the strong power supply module is electrically contacted with the first low-voltage power connection functional module, the electric contact surface of the low-voltage power transmission component is arranged to be electrically contacted with the first low-voltage power connection functional module, the subsequent low-voltage power connection functional modules are electrically contacted with the electric contact surface of the low-voltage power transmission component, and each switch functional piece is electrically contacted with the corresponding low-voltage power connection functional module;

thereby forming a low-voltage power-on path from the ultra-low safe voltage power output end of the strong power supply module to each switch functional piece.

Preferably, the extra-low safety voltage power output end of the strong power supply module is electrically contacted with the first low-voltage power connection functional module through a thimble jack structure.

Preferably, the extra-low safety voltage power output terminal may be a first jack, and a first thimble may be disposed at a position on the first low voltage power connection functional module corresponding to the first jack, and the first thimble is inserted into the first jack to achieve electrical contact; or,

the ultra-low safety voltage power output end can also be a first thimble, a first jack can also be arranged at the position, corresponding to the first thimble, of the first low-voltage power connection functional module, and the first thimble is inserted in the first jack to realize electric contact.

Preferably, the extra-low safety voltage power output terminal is disposed at a position corresponding to a central region of the first low voltage power connection functional module.

Preferably, the low-voltage power transmission component is electrically contacted with each low-voltage power connection functional module through the thimble contact surface structure.

Preferably, the low-voltage power transmission component may have an electrical contact surface, a second thimble may be disposed at a position corresponding to the electrical contact surface on each low-voltage power connection functional module, the second thimble abuts against the electrical contact surface to achieve electrical connection, and the ultra-low safety voltage power output end of the high-voltage power supply module is electrically connected to the second thimble of each low-voltage power connection functional module; or,

the low-voltage power transmission component can also be a second thimble, an electric contact surface can also be arranged at the position, corresponding to the second thimble, of each low-voltage power connection functional module, the second thimble is connected with the electric contact surface to realize electric connection, and the ultra-low safety voltage power output end of the strong power supply module is electrically connected with the electric contact surface of each low-voltage power connection functional module.

Preferably, the low voltage power transmission member is an ultra-low safety voltage power transmission rail extending along an arrangement direction of the respective low voltage power connection functional modules.

Preferably, the ultra-low safety voltage power transmission rail is disposed at an edge area of the front surface of the wall surface mounting and fixing base plate.

Preferably, each low-voltage power connection functional module is electrically contacted with the corresponding switch functional element through the thimble contact structure.

Preferably, each of the low-voltage power connection functional modules may be provided with a center contact, a third thimble may be disposed at a position of the switch functional element corresponding to the center contact, and the center contact and the third thimble are abutted to each other to achieve electrical connection; or,

the central position of the low-voltage power connection functional module can also be a third thimble, a central contact can also be arranged at the position of the switch functional part corresponding to the third thimble, and the third thimble is abutted with the central contact to realize electric connection.

Preferably, the switch function is a switch rocker function, the front face of the switch rocker function has a rocker structure, and the rocker structure is at least one rocker.

Preferably, the rocker structure is a two-position or three-position side-by-side rocker structure.

Preferably, the strong power supply module further has a dimming signal output end, and the switch structure further includes a dimming signal transmission component, and the dimming signal transmission component is fixedly arranged on the front surface of the wall surface mounting fixing bottom plate;

the dimming signal output end is electrically contacted with the first low-voltage power connection functional module, and the electric contact surface of the dimming signal transmission component is arranged to be electrically contacted with the first low-voltage power connection functional module, so that a dimming signal output channel from the dimming signal output end of the strong power supply module to the dimming signal transmission component is formed.

Preferably, the dimming signal transmission part is arranged in the edge area of the front surface of the wall surface installation fixing bottom plate.

Preferably, the dimming signal output end of the strong power supply module is electrically contacted with the first low-voltage power connection functional module through the thimble jack structure.

Preferably, the dimming signal output end may be a second jack, a fourth thimble may be disposed at a position on the first low-voltage power connection functional module corresponding to the second jack, and the fourth thimble is inserted into the jack to achieve electrical contact; or,

the dimming signal output end can also be a fourth thimble, a second jack can also be arranged at a position on the first low-voltage power connection functional module corresponding to the fourth thimble, and the fourth thimble is inserted in the second jack to realize electric contact.

Preferably, the dimming signal output terminal of the high voltage power supply module is disposed at a position corresponding to the central region of the first low voltage power connection functional module.

Preferably, the dimming signal transmission part is electrically contacted with the first low-voltage power connection functional module through a thimble contact surface structure.

Preferably, the dimming signal transmission component may have an electrical contact surface, a fifth thimble may be disposed at a position corresponding to the electrical contact surface on the first low-voltage power connection functional module, the fifth thimble is abutted with the electrical contact surface to realize electrical connection, and the dimming signal output end of the strong power supply module is electrically connected with the fifth thimble of the first low-voltage power connection functional module; or,

the dimming signal transmission part can also be a fifth thimble, an electric contact surface can also be arranged at the position, corresponding to the fifth thimble, of the first low-voltage power connection functional module, the fifth thimble is abutted with the electric contact surface to realize electric connection, and the dimming signal output end of the strong power supply module is electrically connected with the electric contact surface of the first low-voltage power connection functional module.

Preferably, the dimming signal transmission part may be a transmission rail for transmitting a 0-10V electrical signal or a DALI signal, and the rail extends along an arrangement direction of the respective low voltage power connection functional modules.

Preferably, the switch structure is further provided with a multi-position conjoined frame, and the multi-position conjoined frame is provided with a conjoined frame with the number of bits corresponding to the switch function part.

By adopting the wiring-free intelligent modular switch structure, only one switch functional piece is required to be connected with the zero line and the live line for supplying power, other switch functional pieces supply power for working through the low-voltage power supply track below 36V inside, meanwhile, the intelligent switch functional pieces can be freely added according to the requirement without additionally connecting the zero line and the live line, the convenience and the expandability of switch installation are increased to a certain extent, and the problem of complex working that each switch needs independent wiring when the intelligent switches are placed side by side is effectively solved.

Drawings

Fig. 1 is a schematic overall plan structure diagram of the wiring-free intelligent modular switch structure of the present invention.

Fig. 2 is a schematic cross-sectional view of the wiring-free intelligent modular switch structure of the present invention.

Fig. 3 is a schematic diagram of power output of the high-power supply module and the ultra-low safety voltage power rail in the wiring-free intelligent modular switch structure of the invention.

Fig. 4 is a schematic plan view of a seesaw function of the wiring-free intelligent modular switch structure according to the present invention.

Reference numerals

1 strong current power supply module

2 wall surface mounting and fixing bottom plate

3 low voltage power transmission component

4 first low-voltage power connection functional module

5 switch function piece

6 multi-position conjoined frame

11 first jack

12 second jack

41 first thimble

42 second thimble

43 fourth thimble

44 fifth thimble

45 center contact

51 a third thimble.

Detailed Description

In order that the technical contents of the present invention can be more clearly understood, the following further description is given with reference to specific embodiments.

Referring to fig. 1 and 2, the intelligent wiring-free modular switch structure includes a strong power supply module 1, a wall surface mounting and fixing bottom plate 2, a low voltage power transmission component 3, and a low voltage power connection function module group, the low-voltage power connection functional module group at least comprises a first low-voltage power connection functional module 4 and a subsequent low-voltage power connection functional module which are sequentially arranged, the input end of the strong current power supply module 1 is connected with a zero line and is arranged on the front surface of the wall surface installation fixing bottom plate 2, the low-voltage power transmission component 3 and each low-voltage power connection functional module in the low-voltage power connection functional module group are fixedly arranged on the front surface of the wall surface installation fixing bottom plate 2, and the front surface of each low-voltage power connection functional module is provided with a corresponding switch functional piece 5;

wherein, the ultra-low safety voltage power output end of the strong power supply module 1 is electrically contacted with the first low-voltage power connection function module 4, the electrical contact surface of the low-voltage power transmission component 3 is arranged to be electrically contacted with the first low-voltage power connection function module 4, the subsequent low-voltage power connection function modules are electrically contacted with the electrical contact surface of the low-voltage power transmission component 3, and each switch function piece 5 is electrically contacted with the corresponding low-voltage power connection function module;

thereby forming a low-voltage power-on path from the ultra-low safe voltage power output terminal of the high-voltage power supply module 1 to each of the switch functions 5.

In a preferred embodiment of the present invention, the ultra-low safety voltage power output terminal of the high voltage power supply module 1 is electrically connected to the first low voltage power connection functional module 4 through a thimble-jack structure. Of course, the electrical contact may be achieved in other manners, as long as the electrical contact is achieved, and further description is not repeated here.

The ultra-low safety voltage power output end may be a first jack 11, a first thimble 41 may be disposed at a position on the first low voltage power connection functional module 4 corresponding to the first jack 11, and the first thimble 41 is inserted into the first jack 11 to achieve electrical contact.

Or, the extra-low safety voltage power output terminal may also be a thimble, a corresponding position of the first low voltage power connection functional module 4 corresponding to the thimble is provided with a jack, and the thimble is inserted in the jack to realize electrical contact.

The ultra-low safety voltage power output end is arranged at a position corresponding to the central area of the first low voltage power connection functional module 4.

The low-voltage power transmission component 3 is respectively in electrical contact with each low-voltage power connection functional module through a thimble contact surface structure.

The low-voltage power transmission component 3 has an electrical contact surface, a second thimble 42 may be disposed at a position corresponding to the electrical contact surface on each low-voltage power connection functional module, the second thimble 42 is abutted to the electrical contact surface to realize electrical connection, and the ultra-low safety voltage power output end of the high-power supply module 1 is electrically connected to the second thimble 42 of each low-voltage power connection functional module.

Alternatively, the low-voltage power transmission component 3 may also be a thimble, each low-voltage power connection functional module has an electrical contact surface at a position corresponding to the thimble, the thimble is abutted against the electrical contact surface to achieve electrical connection, and the ultra-low safe voltage power output end of the high-voltage power supply module 1 is electrically connected to the electrical contact surface of each low-voltage power connection functional module.

Each low-voltage power connection functional module is electrically contacted with the corresponding switch functional piece 5 through the thimble contact structure.

Each of the low-voltage power connection functional modules may be provided with a central contact 45, a third thimble 51 may be disposed at a position corresponding to the central contact of the switch functional element 5, and the central contact 45 abuts against the third thimble 51 to achieve electrical connection.

Or, the center position of the low-voltage power connection functional module may also be a thimble, a center contact may also be correspondingly disposed at a position corresponding to the thimble of the switch functional element 5, and the thimble is abutted against the center contact to achieve electrical connection.

The strong current power supply module 1 is also provided with a dimming signal output end, and the switch structure also comprises a dimming signal transmission part which is fixedly arranged on the front surface of the wall surface installation fixing bottom plate 2.

The dimming signal output terminal is electrically connected to the first low voltage power connection function module 4, and the electrical contact surface of the dimming signal transmission member is electrically connected to the first low voltage power connection function module 4, so as to form a dimming signal output path from the dimming signal output terminal of the high voltage power supply module 1 to the dimming signal transmission member.

The dimming signal transmission component is arranged in the edge area of the front surface of the wall surface installation fixed bottom plate 2.

The dimming signal output end of the strong power supply module 1 is in electrical contact with the first low-voltage power connection functional module 4 through a thimble jack structure.

The dimming signal output end may be a second jack 12, a fourth thimble 43 may be disposed at a position on the first low-voltage power connection functional module 4 corresponding to the second jack 12, and the fourth thimble 43 is inserted into the second jack 12 to achieve electrical contact.

Or, the dimming signal output end may also be a thimble, and a position on the first low-voltage power connection functional module 4 corresponding to the thimble may also be provided with an insertion hole, and the thimble is inserted in the insertion hole to realize electrical contact.

The dimming signal output end of the strong power supply module 1 is arranged at a position corresponding to the central area of the first low-voltage power connection functional module 4.

The dimming signal transmission part is electrically contacted with the first low-voltage power connection functional module 4 through a thimble contact surface structure.

The dimming signal transmission component has an electrical contact surface, a fifth thimble 44 is disposed at a position corresponding to the electrical contact surface on the first low-voltage power connection functional module 4, the fifth thimble 44 is abutted with the electrical contact surface to realize electrical connection, and the dimming signal output end of the strong power supply module 1 is electrically connected with the fifth thimble 44 of the first low-voltage power connection functional module 4.

Or, the dimming signal transmission component may also be a thimble, an electrical contact surface may also be correspondingly disposed at a position on the first low-voltage power connection functional module 4 corresponding to the thimble, the thimble is abutted against the electrical contact surface to achieve electrical connection, and the dimming signal output end of the strong power supply module 1 is electrically connected to the electrical contact surface of the first low-voltage power connection functional module 4.

The dimming signal transmission component is a transmission track for transmitting 0-10V electric signals or DALI signals, and the track extends along the arrangement direction of each low-voltage power connection functional module.

Referring to fig. 3, the low voltage power transmission unit 3 of the switch structure is an extra-low safety voltage power transmission rail extending along the arrangement direction of the low voltage power connection functional modules.

The ultra-low safe voltage power transmission track is arranged in the edge area of the front surface of the wall surface installation fixed bottom plate 2.

Referring to fig. 4, the switch function component 5 of the switch structure is a switch rocker function component, the front surface of the switch rocker function component has a rocker structure, and the rocker structure is at least one-bit rocker.

The rocker structure is two-position or three-position side-by-side rocker.

The switch structure is also provided with a multi-position conjoined frame 6, and the multi-position conjoined frame 6 is arranged to be a conjoined frame with the number of digits corresponding to the switch function part 5.

Referring to fig. 2, in a specific embodiment, the ultra-low safety voltage power output terminal of the high power module 1 is electrically connected to each of the switch functions 5 through an internal circuit to form a path.

In a specific embodiment, the ultra-low safety voltage power output terminal is a first jack 11, a first thimble 41 is disposed on the first low voltage power connection functional module 4 at a position corresponding to the first jack 11, and the first thimble 41 is inserted into the first jack 11 to achieve electrical contact.

In a specific embodiment, the extra low safety voltage power output terminal is disposed at a position corresponding to a central region of the first low voltage power connection functional module 4.

In a specific embodiment, the low-voltage power transmission part 3 is electrically contacted with each low-voltage power connection functional module through a thimble contact surface structure.

In a specific embodiment, the low voltage power transmission component 3 has an electrical contact surface, a second thimble 42 is disposed on a position corresponding to the electrical contact surface on each low voltage power connection functional module, the second thimble 42 abuts against the electrical contact surface to realize electrical connection, and the ultra-low safety voltage power output end of the high voltage power supply module 1 is electrically connected to the second thimble 42 of each low voltage power connection functional module.

In a specific embodiment, the low voltage power transmission part 3 is an ultra-low safety voltage power transmission rail extending along an arrangement direction of each of the low voltage power connection function modules.

In a specific embodiment, the ultra-low safety voltage power transmission rail is arranged at the edge area of the front surface of the wall surface installation fixing bottom plate 2.

In one specific embodiment, each low voltage power connection functional module is in electrical contact with its corresponding switch function 5 through a thimble contact structure.

In a specific embodiment, each of the low voltage power connection functional modules is provided with a central contact 45, the switch functional element 5 is provided with a third thimble 51 at a position corresponding to the central contact, and the central contact 45 abuts against the third thimble 51 to realize electrical connection.

In a specific implementation mode, taking the triad switch installation as an example, when the installation needs to fix a wall installation fixing bottom plate 2 of the triad to a reserved bottom box of a wall body through a mounting screw, only one installation bottom box is needed at the time, then a strong power supply module 1 is connected with a zero line and a low-voltage power transmission part 3 which are both arranged on the wall installation fixing bottom plate 2, the low-voltage power transmission part can provide different lengths according to the requirement of the triad and is then arranged on a low-voltage power connection function module 4, the low-voltage power transmission part extends along the arrangement direction of each low-voltage power connection function module, then a one-position switch function part 5 or two triad switch function parts are installed according to the requirement of a control lamp, and finally a multi-position conjoined frame 6 is installed to complete the switch assembly.

In a specific embodiment, when the integrated body is installed, only one strong power supply module 1 is needed for supplying power, and each switch function 5 draws power from the low-voltage power transmission part 3 through the first low-voltage power connection function module 4.

In a specific embodiment, when the power supply and the power take are performed in the manner shown in fig. 2, when the first thimble 41 of the first low voltage power connection function module 4 abuts against the first jack 11 of the high voltage power supply module 1, the first thimble takes power from the high voltage power supply module 1 and transmits the power to the second thimble 42 through the internal circuit, the second thimble 42 abuts against the electrical contact surface of the low voltage power transmission part 3, so that the power is converted from the high voltage power supply module 1 to low voltage power below 36V and is transmitted to the low voltage power transmission part 3, the low voltage power transmission part 3 provides the power to each low voltage power connection function module, and the switch function 5 can directly take power from the intermediate contact 45 of each low voltage power connection function module through the third thimble 51 to perform the operation. Meanwhile, the low-voltage power transmission component 3 can be provided with two tracks on the wall surface installation fixing bottom plate 2, one track is a positive and negative power supply line with ultra-low safety voltage below 36V, and the other track is a dimming signal line and can be used as a 0-10V or DALI dimming signal output end.

By adopting the wiring-free intelligent modular switch structure, only one switch functional piece is required to be connected with the zero line and the live line for supplying power, other switch functional pieces supply power for working through the low-voltage power supply track below 36V inside, meanwhile, the intelligent switch functional pieces can be freely added according to the requirement without additionally connecting the zero line and the live line, the convenience and the expandability of switch installation are increased to a certain extent, and the problem of complex working that each switch needs independent wiring when the intelligent switches are placed side by side is effectively solved.

In this specification, the invention has been described with reference to specific embodiments thereof. It will, however, be evident that various modifications and changes may be made thereto without departing from the broader spirit and scope of the invention. The specification and drawings are, accordingly, to be regarded in an illustrative rather than a restrictive sense.

Claims (21)

1. A wiring-free intelligent modular switch structure is characterized in that the switch structure comprises a strong current power supply module (1), a wall surface installation fixing bottom plate (2), a low-voltage power transmission component (3) and a low-voltage power connection functional module group, the low-voltage power connection functional module group at least comprises a first low-voltage power connection functional module (4) and a subsequent low-voltage power connection functional module which are sequentially arranged, the input end of the strong electricity power supply module (1) is connected with a zero line and is arranged on the front surface of the wall surface installation fixing bottom plate (2), the low-voltage power transmission component (3) and each low-voltage power connection functional module in the low-voltage power connection functional module group are fixedly arranged on the front surface of the wall surface installation fixing bottom plate (2), the front surface of each low-voltage power connection functional module is provided with a corresponding switch functional piece (5);

wherein, the ultra-low safe voltage power output end of the strong power supply module (1) is electrically contacted with the first low-voltage power connection function module (4), the electric contact surface of the low-voltage power transmission component (3) is arranged to be electrically contacted with the first low-voltage power connection function module (4), the subsequent low-voltage power connection function modules are electrically contacted with the electric contact surface of the low-voltage power transmission component (3), and each switch function piece (5) is electrically contacted with the corresponding low-voltage power connection function module;

thereby forming a low-voltage power-on path from the ultra-low safe voltage power output end of the strong power supply module (1) to each switch functional piece (5).

2. The intelligent modular switch structure without wiring according to claim 1, characterized in that the ultra-low safety voltage power output end of the high voltage power supply module (1) is electrically contacted with the first low voltage power connection function module (4) through a thimble jack structure.

3. The intelligent wiring-free modular switch structure according to claim 2, wherein the ultra-low safety voltage power output terminal is a first jack (11), a first thimble (41) is disposed on the first low voltage power connection functional module (4) at a position corresponding to the first jack (11), and the first thimble (41) is inserted into the first jack (11) to achieve electrical contact; or,

the ultra-low safety voltage power output end is a first thimble, a first jack is arranged at the position, corresponding to the first thimble, of the first low-voltage power connection functional module (4), and the first thimble is inserted in the first jack to realize electric contact.

4. The intelligent modular switch structure without wiring according to claim 2, characterized in that said ultra-low safety voltage power output is arranged in a position corresponding to the central area of said first low voltage power connection functional module (4).

5. The intelligent wiring-free modular switch structure as claimed in claim 1, wherein the low voltage power transmission component (3) is electrically contacted with each low voltage power connection functional module through a thimble contact surface structure.

6. The structure of claim 5, wherein the low voltage power transmission component (3) has an electrical contact surface, a second pin (42) is disposed at a position corresponding to the electrical contact surface on each low voltage power connection function module, the second pin (42) abuts against the electrical contact surface to achieve electrical connection, and the ultra-low safety voltage power output end of the high voltage power supply module (1) is electrically connected to the second pin (42) of each low voltage power connection function module; or,

the low-voltage power transmission component (3) is a second thimble, an electric contact surface is arranged on the corresponding position of each low-voltage power connection functional module and the second thimble, the second thimble is connected with the electric contact surface to realize electric connection, and the ultra-low safe voltage power output end of the strong power supply module (1) is electrically connected with the electric contact surface of each low-voltage power connection functional module.

7. The intelligent modular switch structure without wires according to claim 6, characterized in that said low voltage power transmission means (3) is an extra low safety voltage power transmission rail extending along the arrangement direction of each of said low voltage power connection functional modules.

8. The intelligent modular switch structure without wiring according to claim 7, characterized in that the ultra-low safety voltage power transmission rail is arranged in the edge area of the front surface of the wall-mounted fixed bottom plate (2).

9. The intelligent modular switch architecture without wiring according to claim 1, characterized in that each low voltage power connection functional module is in electrical contact with its respective switch function (5) through a thimble contact structure.

10. The intelligent wiring-free modular switch structure according to claim 9, wherein each low-voltage power connection functional module is provided with a central contact (45), a third thimble (51) is arranged at a position of the switch functional element (5) corresponding to the central contact, and the central contact (45) abuts against the third thimble (51) to realize electrical connection; or,

the central position of the low-voltage power connection functional module is a third thimble, a central contact is arranged at the position of the switch functional part (5) corresponding to the third thimble, and the third thimble is connected with the central contact to realize electric connection.

11. The intelligent modular switch structure without wires according to claim 10, wherein the switch function (5) is a switch rocker function, the front of which has a rocker structure, and the rocker structure is at least one-bit rocker.

12. The intelligent modular switch architecture without wires of claim 11, wherein the rocker structure is a two-position or three-position side-by-side rocker.

13. The intelligent wiring-free modular switch structure according to claim 1, wherein the strong power supply module (1) further comprises a dimming signal output end, the switch structure further comprises a dimming signal transmission component, and the dimming signal transmission component is fixedly arranged on the front surface of the wall surface mounting fixed bottom plate (2);

the dimming signal output end is electrically contacted with the first low-voltage power connection functional module (4), and the electric contact surface of the dimming signal transmission component is arranged to be electrically contacted with the first low-voltage power connection functional module (4),

thereby forming a dimming signal output path from the dimming signal output end of the strong power supply module (1) to the dimming signal transmission component.

14. The intelligent modular switch structure without wires according to claim 13, wherein the dimming signal transmission component is disposed at the edge region of the front surface of the wall-mounted fixed base plate (2).

15. The intelligent modular switch structure without wiring according to claim 13, characterized in that the dimming signal output terminal of the high voltage power supply module (1) is electrically connected to the first low voltage power connection function module (4) through a thimble jack structure.

16. The intelligent wiring-free modular switch structure according to claim 15, wherein the dimming signal output terminal is a second jack (12), a fourth thimble (43) is disposed on the first low-voltage power connection functional module (4) at a position corresponding to the second jack (12), and the fourth thimble (43) is inserted into the second jack (12) to achieve electrical contact; or,

the dimming signal output end is a fourth thimble, a second jack is arranged at a position, corresponding to the fourth thimble, on the first low-voltage power connection functional module (4), and the fourth thimble is inserted in the second jack to realize electric contact.

17. The intelligent modular switch architecture without wiring according to claim 16, characterized in that the dimming signal output of the high voltage power supply module (1) is arranged in a position corresponding to the central region of the first low voltage power connection functional module (4).

18. The intelligent modular switch structure without wires according to claim 14, characterized in that the dimming signal transmission part is electrically contacted with the first low voltage power connection function module (4) through a thimble contact surface structure.

19. The intelligent wiring-free modular switch structure according to claim 18, wherein the dimming signal transmission component has an electrical contact surface, a fifth thimble (44) is disposed at a position corresponding to the electrical contact surface on the first low-voltage power connection functional module (4), the fifth thimble (44) abuts against the electrical contact surface to realize electrical connection, and the dimming signal output end of the high-voltage power supply module (1) is electrically connected with the fifth thimble (44) of the first low-voltage power connection functional module (4); or,

the dimming signal transmission part is a fifth thimble, an electric contact surface is arranged at the position, corresponding to the fifth thimble, of the first low-voltage power connection functional module (4), the fifth thimble is abutted with the electric contact surface to realize electric connection, and the dimming signal output end of the strong power supply module (1) is electrically connected with the electric contact surface of the first low-voltage power connection functional module (4).

20. The intelligent modular switch structure without wires as claimed in claim 19, wherein the dimming signal transmission part is a transmission rail for transmitting 0-10V electric signal or DALI signal, the rail extending along the arrangement direction of each low voltage power connection function module.

21. A structure of a wiring-free intelligent modular switch as claimed in any one of claims 1 to 20, wherein the switch structure is further provided with a multi-bit conjoined frame (6), and the multi-bit conjoined frame (6) is provided as a conjoined frame with a bit number corresponding to the switch function member (5).

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