CN220822097U - Indicator lamp module and socket - Google Patents

Abstract

The application provides an indicator lamp module and a socket, and belongs to the technical field of electric elements. The pilot lamp module includes: the display device comprises a first shell, an indicator light and two conductive components; the indicator lamp comprises a light-emitting part and two pin parts which are electrically connected, wherein the light-emitting part is positioned on the first side surface of the first shell, and the pin parts extend into the first shell; the two conductive assemblies respectively correspond to the two pin parts, and each conductive assembly comprises a first conductive piece and a second conductive piece which are electrically connected; wherein the two first conductive pieces extend to the two third side surfaces of the first shell respectively; the second conductive piece extends to the inside of the first shell and is electrically connected with the corresponding pin part. The indicator lamp module can supply power to the indicator lamp only by assembling the indicator lamp module at the target position in the assembling process, welding is not needed, labor is saved, and cost is reduced.

Description

Indicator lamp module and socket

Technical Field

The application relates to the technical field of electrical elements, in particular to an indicator lamp module and a socket.

Background

A socket is a common electronic device that is used to socket a plug of another electrical appliance, thereby providing electrical power to the electrical appliance.

In the related art, in order to be able to reflect whether or not a socket is energized, an indicator lamp is often arranged in the socket. The pilot lamp is pegged graft on the casing of socket, and the pin of pilot lamp extends in the casing inside to link to each other with the L utmost point copper bar and the N utmost point copper bar of socket respectively, so, after the socket is circular telegram, L utmost point copper bar and the N utmost point copper bar of socket will supply power to the pilot lamp for the pilot lamp lights.

However, the indicator lamp needs manual welding, automatic assembly cannot be achieved, and production efficiency of socket products is seriously affected.

Disclosure of utility model

The application provides an indicator lamp module and a socket, which can solve the problems that an indicator lamp needs manual welding and cannot be assembled automatically, and the production efficiency of a socket product is affected.

The technical scheme is as follows:

In one aspect, an indicator light module is provided, the indicator light module includes: the display device comprises a first shell, an indicator light and two conductive components;

The indicator lamp comprises a light-emitting part and two pin parts which are electrically connected, wherein the light-emitting part is positioned on the first side surface of the first shell, and the pin parts extend into the first shell;

The two conductive assemblies respectively correspond to the two pin parts, and each conductive assembly comprises a first conductive piece and a second conductive piece which are electrically connected;

wherein the two first conductive pieces respectively extend to the two third side surfaces of the first shell;

The second conductive piece extends to the inside of the first shell and is electrically connected with the corresponding pin part.

In some embodiments, two of the third side positions are opposite.

In some embodiments, the first conductive member includes a first power receiving portion and a second power receiving portion; the first power connection part is inserted into the first shell from the third side surface and is electrically connected with the second conductive piece; the second power receiving portion is exposed to the third side face.

In some embodiments, the first conductive member is a bent plate structure, and two bent plate bodies of the first conductive member form the first power receiving portion and the second power receiving portion, respectively.

In some embodiments, the third side surface has a first mounting groove, the first power receiving portion is inserted into the first housing from the first mounting groove, the first power receiving portion has a protruding limit protrusion, and a limit structure matched with the limit protrusion is arranged on the first housing.

In some embodiments, the third side has a first mounting groove, the first power receiving portion is inserted into the first housing from the first mounting groove, and the first housing has an upper stopper and a lower stopper therein, which form the first mounting groove.

In some embodiments, the second power receiving portion has a resilient power receiving protrusion protruding from the third side.

In some embodiments, the third side is provided with a recess, and the second power receiving portion is located in the recess.

In some embodiments, the second conductive member is an elastic member, and the second conductive member is disposed between the first conductive member and the lead portion in a compressed state.

On the other hand, a socket is provided, which comprises the indicator lamp module and at least one socket module, wherein the socket module is provided with an L contact and an N contact which extend out;

The two first conductive pieces of the indicator light module are respectively connected with the L contact and the N contact of one socket module; or alternatively

The two first conductive pieces of the indicator lamp module are respectively connected with the L contact of one socket module and the N contact of the other socket module.

In some embodiments, when the two first conductive members of the indicator light module are respectively exposed on the two opposite third sides, the indicator light module is sandwiched between the L contact and the N contact.

The technical scheme provided by the application has the beneficial effects that at least:

According to the indicating lamp module, the luminous part of the indicating lamp is positioned on the first side face of the first shell, the pin part of the indicating lamp is positioned in the first shell, the indicating lamp is powered by the conductive components, the first conductive parts of the conductive components are respectively arranged on the two third side faces, and only the indicating lamp module is assembled at the target position in the assembling process, so that the first conductive parts are in electrical contact with the conductive structures in the socket, the power can be supplied to the indicating lamp through the conductive structures, welding is not needed, labor is saved, and cost is reduced.

When the pilot lamp module is applied to the scene that indicates socket electric energy state, the pilot lamp module needs to draw electricity from the conductive structure of socket, because first electrically conductive piece is arranged in the third side for the pilot lamp module has more position selections, for example copper bar one side, socket one side etc. position, thereby makes the assembled position of pilot lamp module more diversified, is favorable to reducing the design degree of difficulty of socket class product, improves the design degree of freedom of socket class product.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present application, the drawings required for the description of the embodiments will be briefly described below, and it is apparent that the drawings in the following description are only some embodiments of the present application, and other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

Fig. 1 is a schematic structural diagram of an indicator light module according to an embodiment of the present application;

FIG. 2 is a cross-sectional view of an indicator light module according to an embodiment of the present application;

FIG. 3 is an exploded view of an indicator module according to an embodiment of the present application;

FIG. 4 is a cross-sectional view of another embodiment of an indicator module according to the present application;

FIG. 5 is an enlarged view of a portion of FIG. 4 at A;

fig. 6 is a schematic structural diagram of a first conductive member according to an embodiment of the present application;

fig. 7 is a schematic structural diagram of a socket according to an embodiment of the present application;

fig. 8 is a schematic connection diagram of an indicator light module in a socket according to an embodiment of the present application;

fig. 9 is a schematic connection diagram of an indicator light module in a socket according to another embodiment of the application.

Reference numerals in the drawings are respectively expressed as:

100. An indicator light module; 200. a second housing; 300. an L-pole copper bar; 400. an N-pole copper bar; 500. a grounding electrode copper bar; 600. a socket module;

1. a first housing; 101. a first side; 102. a second side; 103. a third side;

11. A first mounting groove; 12. a second mounting groove; 13. an upper housing; 14. a lower housing; 15. a limit structure; 16. an upper limiting block; 17. a lower limiting block; 18. a recessed position;

2. an indicator light;

21. a light emitting section; 22. a lead portion;

3. A conductive assembly;

31. A first conductive member; 311. a first power receiving portion; 3111. a limit protrusion; 312. a second power connection part; 3121. elastic electricity connection bulge; 32. a second conductive member;

4. A resistive element;

5. a connection structure;

2001. a front panel; 2002. a rear cover;

6001. an L contact; 6002. n contacts.

Detailed Description

Reference will now be made in detail to exemplary embodiments, examples of which are illustrated in the accompanying drawings. When the following description refers to the accompanying drawings, the same numbers in different drawings refer to the same or similar elements, unless otherwise indicated. The implementations described in the following exemplary examples do not represent all implementations consistent with the application. Rather, they are merely examples of apparatus and methods consistent with aspects of the application as detailed in the accompanying claims.

In the description of the present application, it should be understood that the terms "center", "longitudinal", "lateral", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "clockwise", "counterclockwise", "axial", "radial", "circumferential", etc. indicate orientations or positional relationships based on the orientations or positional relationships shown in fig. 1 are merely for convenience in describing the present application and simplify the description, and do not indicate or imply that the devices or elements referred to must have a specific orientation, be configured and operated in a specific orientation, and therefore should not be construed as limiting the present application.

It should be understood that "electrically connected" in the present application may be understood as components in physical contact and in electrical conduction; it is also understood that the various components in the circuit configuration are connected by physical lines, such as printed circuit board (printed circuit board, PCB) copper foil or wires, that transmit electrical signals. "communication connection" may refer to transmission of electrical signals, including wireless communication connections and wired communication connections. The wireless communication connection does not require physical intermediaries and does not belong to a connection relationship defining the product architecture. "connected" or "coupled" may refer to a mechanical or physical connection, i.e., a and B are connected or a and B are connected, and may refer to a fastening member (such as a screw, bolt, rivet, etc.) between a and B, or a and B are in contact with each other and a and B are difficult to separate.

Unless defined otherwise, all technical terms used in the embodiments of the present application have the same meaning as commonly understood by one of ordinary skill in the art.

For the purpose of making the objects, technical solutions and advantages of the present application more apparent, the embodiments of the present application will be described in further detail with reference to the accompanying drawings.

In one aspect, as shown in connection with fig. 1-3, there is provided an indicator light module 100, the indicator light module 100 comprising: a first housing 1, an indicator light 2 and a conductive assembly 3.

The indicator lamp 2 comprises a light-emitting part 21 and two pin parts 22 which are electrically connected, wherein the light-emitting part 21 is positioned on the first side surface 101 of the first shell 1, and the pin parts 22 extend into the first shell 1; the two conductive assemblies 3 respectively correspond to the two pin portions 22, and each conductive assembly 3 comprises a first conductive member 31 and a second conductive member 32 which are electrically connected; wherein the two first conductive members 31 respectively extend to the two third side surfaces 103 of the first housing 1; the second conductive member 32 extends into the first housing 1 and is electrically connected to the corresponding lead portion 22.

In the indicator lamp module 100 of this embodiment, the light emitting portion 21 of the indicator lamp 2 is located on the first side 101 of the first housing 1, the pin portion 22 of the indicator lamp 2 is located in the first housing 1, the power is supplied to the indicator lamp 2 through the conductive component 3, the two first conductive members 31 of the two conductive components 3 are respectively arranged on the two third sides 103, and only the indicator lamp module 100 needs to be assembled at the target position in the assembling process, so that the two first conductive members 31 on the two third sides 103 are in electrical contact with the conductive structures in the socket, and can supply power to the indicator lamp 2 through the conductive structures without welding, thereby being beneficial to saving labor and reducing cost.

When the indicator light module 100 is applied to the scene of indicating the electrical energy state of the socket, the indicator light module 100 needs to be powered from the conductive structure of the socket, because the first conductive piece 31 is arranged on the third side 103, the indicator light module 100 has more position selections, such as positions on one side of a copper bar and one side of the socket, so that the assemblable positions of the indicator light module 100 are more diversified, the design difficulty of socket products is reduced, and the design freedom of the socket products is improved.

As shown in connection with fig. 1 and 2, in some embodiments, the two third sides 103 are positioned opposite. Optionally, two third sides 103 are respectively adjacent to the first sides 101. Thus, the two first conductive members 31 are respectively exposed on two sides adjacent to the first side 101, and when the indicator light module 100 needs to be powered, the two third sides 103 may be used to contact the conductive structures in the socket, so that the indicator light module 100 has more position choices.

Illustratively, the first housing 1 includes a second side 102 opposite the first side 101, and a third side 103 adjacent the first side 101, the first housing 1 being configured as a cuboid, which facilitates positioning and securing of the indicator light module 100 within the receptacle.

As shown in connection with fig. 2, in some embodiments, the first conductive member 31 includes a first electrical connection 311 and a second electrical connection 312; the first electrical connection portion 311 is inserted into the first housing 1 from the third side 103 and is electrically connected to the second conductive member 32; the second electrical connection portion 312 is exposed to the third side surface 103.

By arranging the first power receiving portion 311 of the first conductive member 31 on the third side 103 adjacent to the first side 101, the indicator light module 100 can be powered by the third side 103, which is advantageous for enriching the fittable position of the indicator light module 100 within the socket.

In some possible implementations, referring to fig. 3, the first housing 1 includes an upper housing 13 and a lower housing 14 that are connected up and down, and as illustrated in fig. 3, the first side 101 is located at the bottom end of the lower housing 14, the second side 102 is located at the top end of the upper housing 13, and the third side 103 is located at the front, rear, left, or right side of the upper housing 13.

In operation, the light emitting portion 21 emits light downward, and in the socket product, the lower portion is generally designed as an appearance of a socket or a plug-in operation panel, so that the user can see the light emitting state of the indicator lamp module 100. The second side 102 and the third side 103 face upward and sideways, respectively, so that the power supply of the indicator lamp 2 can be achieved only by electrically contacting the first conductive member 31 with the lateral conductor structure of the indicator lamp module 100. When the conductor structure in the socket is energized, the indicator light 2 can illuminate.

The first side 101 of the first housing 1 is also provided with a connection structure 5, by way of example, with which connection structure 5 the first housing 1 can be connected to a socket structure.

As shown in connection with fig. 2, 3, 5 and 6, in some embodiments, the first conductive member 31 is a bent plate structure, and two of the bent plate bodies of the first conductive member 31 form a first power receiving portion 311 and a second power receiving portion 312, respectively. Illustratively, the first conductive member 31 is a conductive metal sheet bent into an L shape, so that the first and second power receiving portions 311 and 312 having different contact surface directions can be formed by using plates bent to different sides, respectively.

As shown in connection with fig. 4, 5, in some embodiments, the third side 103 of the first housing 1 has a first mounting groove 11; the first power receiving portion 311 is inserted into the first housing 1 from the first mounting groove 11, the first power receiving portion 311 has a protruding limit protrusion 3111, and a limit structure 15 matching with the limit protrusion 3111 is provided on the first housing 1.

With the above arrangement, the first power receiving portion 311 of the first conductive member 31 is inserted into the first mounting groove 11, and the first conductive member 31 is fixed by the first mounting groove 11 such that the first power receiving portion 311 of the first conductive member 31 is located to be exposed at the third side 103, so that the third side 103 of the first housing 1 has power receiving capability.

After the first power connection part 311 is inserted into the first mounting groove 11 from the third side surface 103, the limiting protrusion 3111 of the first power connection part 311 is engaged with the limiting structure 15, so that the first power connection part 311 is limited in the first mounting groove 11, and the limiting fixation of the whole first conductive member 31 is realized by using the limiting fixation of the first power connection part 311. The structure of the first mounting groove 11 is also beneficial to guiding assembly of the first conductive piece 31, and reduces the assembly difficulty of the first conductive piece 31.

In some possible implementations, referring to fig. 4 and 5, a second mounting groove 12 is provided in the first housing 1, the second mounting groove 12 communicates with the first mounting groove 11, and the second conductive member 32 and the pin portion 22 are located in the second mounting groove 12.

The second conductive member 32 and the lead portion 22 are mounted by the second mounting groove 12, so that a good conductive connection between the second conductive member 32 and the lead portion 22 can be ensured.

Alternatively, the upper end of the second conductive member 32 is in electrical contact with the first power receiving portion 311 in the first mounting groove 11, and the lower end of the second conductive member 32 is in electrical contact with the lead portion 22. The first conductive member 31 is powered by the second power receiving portion 312 exposed on the third side surface 103, and then the power is supplied to the lead portion 22 through the first power receiving portion 311 and the second conductive member 32, so as to supply power to the indicator lamp 2.

In some possible implementations, the limiting protrusion 3111 is a rib, a flange, or the like formed by stamping a part of the plate body in the first power receiving portion 311. Alternatively, the limiting protrusion 3111 and the limiting structure 15 are located on the same side of the first power receiving portion 311, so that the snap connection of the limiting protrusion 3111 and the limiting structure 15 can be used as a foolproof structure when the first power receiving portion 311 is assembled with the first mounting slot 11. Once the limit protrusion 3111 and the limit structure 15 cannot be smoothly engaged, it is indicated that the assembly of the first conductive member 31 and the first housing 1 is incorrect.

In some possible implementations, referring to fig. 3, the first housing 1 includes an upper housing 13 and a lower housing 14, wherein the upper housing 13 is hollow inside and open at the bottom, the lower housing 14 is inserted into the upper housing 13 from bottom to top, the first mounting groove 11 is located between the top wall of the lower housing 14 and the upper housing 13, and the second mounting groove 12 is located in the lower housing 14.

When the indicator light module 100 of this embodiment is assembled, the first conductive member 31 is first installed in the upper housing 13, the indicator light 2 and the second conductive member 32 are installed in the lower housing 14, and then the lower housing 14 is inserted into the upper housing 13, and the first conductive member 31 and the second conductive member 32 are electrically contacted in the up-down direction.

As shown in connection with fig. 5 and 6, in some embodiments, the second power receiving portion 312 has a resilient power receiving protrusion 3221 protruding from the third side 103.

The elastic electrical connection protrusion 3221 is a bent arch structure, so that on one hand, the second electrical connection portion 312 has the ability of being elastically deformed towards the third side surface 103 after being pressed, and provides contact pressure for the electrical contact of the first conductive element 31, so as to ensure the reliability of the electrical contact; on the other hand, the second power receiving portion 312 is bent toward the third side 103, which is beneficial to reducing the assembly difficulty of the indicator light module 100 when the indicator light module is inserted into the socket from top to bottom.

Illustratively, the resilient electrical connection protrusion 3221 is formed by protruding a middle portion of the second electrical connection portion 312 toward a direction away from the third side 103.

As shown in fig. 4 and 5, in some embodiments, the third side 103 is provided with a recess 18 recessed inward, and the second power receiving portion 312 is located in the recess 18.

With the concave portion 18 disposed on the third side 103, a space can be provided for the inward elastic deformation of the second electrical connection portion 312, and when the second electrical connection portion 312 is in conductive contact with the conductor structure, the contact pressure can be increased by using the elastic deformation of the second electrical connection portion itself, so as to improve the electrical contact effect.

As shown in connection with fig. 1-3, in some embodiments, the second conductive member 32 is an elastic member, and the second conductive member 32 is disposed between the first conductive member 31 and the lead portion 22 in a compressed state.

As shown in connection with fig. 1-3, in some embodiments, the indicator light module 100 further includes a resistive element 4. The pin portion 22 of the indicator lamp 2 comprises two groups of conductive assemblies 3, the two groups of conductive assemblies 3 are respectively and electrically connected to the two pin portions 22, and the resistor element 4 is arranged between one conductive assembly 3 and the pin portion 22 to play a role in voltage division protection.

The indicator light module 100 provided in this embodiment is designed as a whole, so that the whole assembly in the socket can be realized, and after the indicator light module 100 is assembled in the socket, only the first conductive piece 31 is required to be electrically contacted with the conductor structure in the socket, and manual welding is not required, thereby reducing the labor cost and being beneficial to realizing the automatic assembly of the socket.

On the other hand, as shown in connection with fig. 7 to 9, the present embodiment provides a socket including the indicator lamp module 100 of the present application, and at least one socket module 600, the socket module 600 having L contacts 6001 and N contacts 6002 protruding.

The two first conductive members 31 of the indicator lamp module 100 are connected to the L contact 6001 and the N contact 6002 of one socket module 600, respectively; or the two first conductive members 31 of the indicator lamp module 100 are connected to the L contact 6001 of one socket module 600 and the N contact 6002 of the other socket module 600, respectively.

The socket of the embodiment adopts the indicator lamp module 100 provided by the application, and has all the beneficial technical effects of the application.

The indicator light module 100 is powered through the L contact 6001 and the N contact 6002 of the socket module 600, can be arranged on one side of one socket module 600, can be powered from one socket module 600, can also be arranged between two socket modules 600, and can be powered from different poles of the two socket modules 600, respectively, so that the assemblable positions of the indicator light module 100 are more diversified.

Optionally, the socket further includes a second housing 200, an L-pole copper bar 300, an N-pole copper bar 400; the L-pole copper bar 300, the N-pole copper bar 400, the indicator light module 100 and the at least one socket module 600 are respectively positioned in the second shell 200; the first shell 1 is connected with the inner wall of the second shell 200, so that the positioning and fixing of the indication module 100 in the socket are realized.

At least one socket module 600 is arranged in parallel in the second housing 200, the L-pole copper bars 300 and the N-pole copper bars 400 span across the socket module 600, the L-contact 6001 of each socket module 600 is electrically connected with the L-pole copper bars 300, and the N-contact 6002 of each socket module 600 is electrically connected with the N-pole copper bars 400.

The jack module 600 may be a dual-hole jack module or a three-hole jack module.

In some possible implementations, the second housing 200 includes a front panel 2001 and a rear cover 2002 that are fastened back and forth, a cavity is formed in the second housing 200, and structures such as the indicator light module 100, the L-pole copper bar 300, the N-pole copper bar 400, and the like are disposed in the cavity. The first side 101 of the first housing 1 faces the front panel 2001, so that the light emitting portion 21 of the indicator lamp 2 faces the front panel 2001, so that light can be emitted outwards through the front panel 2001, and the second side 102 and the third side 103 of the first housing 1 face the rear cover 2002 or the lateral inner side, respectively, wherein the position of the third side 103 faces the positions of the L contact 6001 and the N contact 6002 of the socket module 600, thereby facilitating the electrical connection of the indicator lamp module 100.

Referring to fig. 8, in a scenario where the indicator light module 100 and one socket module 600 are symmetrically arranged in a superposition manner, the L-pole contact 6001 and the N-pole contact 6002 in the socket module 600 extend to the indicator light module 100 respectively, and extend to the third side 103 of the indicator light module 100 respectively, and are electrically connected to the second power receiving portion 312 of the first conductive member 31 on the third side 103 in a contact manner, so that power supply of the indicator light module 100 is realized by using different contacts of a single socket module 600.

Referring to fig. 9, in the case where the indicator light module 100 is disposed between two adjacent socket modules 600, the L contact 6001 of one socket module 600 adjacent to the indicator light module 100 extends to one third side 103 of the indicator light module 100, is electrically connected to the second power receiving portion 312 on the third side 103, and the N contact 6002 of the other socket module 600 adjacent to the indicator light module 100 extends to the other third side 103 of the indicator light module 100, is electrically connected to the second power receiving portion 312 on the third side 103, and power supply of the indicator light module 100 is realized by using different contacts of the two socket modules 600.

Therefore, after the socket of the present embodiment is applied to the indicator light module 100 provided by the present application, the socket has more diversified assembly schemes, and the design freedom of the socket is improved.

It should be noted that, in the description of the present application, unless explicitly specified and limited otherwise, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be either fixedly connected, detachably connected, or integrally connected, for example; may be a mechanical connection; can be directly connected or indirectly connected through an intermediate medium, and can be communicated with the inside of two elements or the interaction relationship of the two elements. The specific meaning of the above terms in the present application can be understood by those of ordinary skill in the art according to the specific circumstances.

Furthermore, the terms "first," "second," and the like, are used for descriptive purposes only and are not to be construed as indicating or implying a relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defining "a first" or "a second" may explicitly or implicitly include one or more features. In the description of the present application, the meaning of "a plurality" is two or more, unless explicitly defined otherwise.

In the present application, unless expressly stated or limited otherwise, a first feature "above" or "below" a second feature may include both the first and second features being in direct contact, as well as the first and second features not being in direct contact but being in contact with each other through additional features therebetween. Moreover, a first feature being "above," "over" and "on" a second feature includes the first feature being directly above and obliquely above the second feature, or simply indicating that the first feature is higher in level than the second feature. The first feature being "under", "below" and "beneath" the second feature includes the first feature being directly under and obliquely below the second feature, or simply means that the first feature is less level than the second feature.

In the description of the present specification, reference to the terms "certain embodiments," "one embodiment," "some embodiments," "an exemplary embodiment," "an example," "a particular example," or "some examples" means that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the present application.

The foregoing description of the embodiments of the application is not intended to limit the application, but rather, the application is to be construed as limited to the embodiments disclosed.

Claims (11)

1. An indicator light module, characterized in that the indicator light module (100) comprises: a first housing (1), an indicator light (2) and two conductive components (3);

The indicator lamp (2) comprises a light-emitting part (21) and two pin parts (22) which are electrically connected, wherein the light-emitting part (21) is positioned on a first side surface (101) of the first shell (1), and the pin parts (22) extend into the first shell (1);

The two conductive assemblies (3) respectively correspond to the two pin parts (22), and each conductive assembly (3) comprises a first conductive piece (31) and a second conductive piece (32) which are electrically connected;

Wherein the two first conductive elements (31) respectively extend to the two third side surfaces (103) of the first shell (1); the second conductive member (32) extends into the first housing (1) and is electrically connected to the corresponding pin portion (22).

2. The indicator light module according to claim 1, characterized in that the two third sides (103) are located opposite.

3. The indicator light module according to claim 1, wherein the first conductive member (31) comprises a first electrical connection portion (311) and a second electrical connection portion (312); the first power receiving part (311) is inserted into the first shell (1) from the third side surface (103) and is electrically connected with the second conductive piece (32); the second power receiving portion (312) is exposed to the third side surface (103).

4. An indicator light module as claimed in claim 3, characterized in that the first conductive member (31) is of a bent plate-shaped structure, and two of the bent plate bodies of the first conductive member (31) form the first electrical connection portion (311) and the second electrical connection portion (312) respectively.

5. An indicator light module as claimed in claim 3, characterized in that the third side (103) has a first mounting groove (11), the first power connection part (311) is inserted into the first housing (1) from the first mounting groove (11), the first power connection part (311) has a protruding limit projection (3111), and a limit structure (15) matching with the limit projection (3111) is provided on the first housing (1).

6. An indicator light module as claimed in claim 3, characterized in that the third side (103) has a first mounting groove (11), the first power connection part (311) is inserted into the first housing (1) from the first mounting groove (11), and an upper limit block (16) and a lower limit block (17) are provided in the first housing (1), which form the first mounting groove (11).

7. An indicator light module as claimed in claim 3, characterized in that the second electrical connection part (312) has a resilient electrical connection protrusion (3121) protruding from the third side (103).

8. An indicator light module as claimed in claim 3, characterized in that the third side (103) is provided with a recess (18), the second electrical connection (312) being located in the recess (18).

9. The indicator light module according to any one of claims 1 to 8, characterized in that the second conductive member (32) is an elastic member, and the second conductive member (32) is provided in a compressed state between the first conductive member (31) and the pin portion (22).

10. A socket comprising an indicator light module (100) according to any one of claims 1 to 9, and at least one socket module (600), the socket module (600) having protruding L contacts (6001) and N contacts (6002);

The two first conductive pieces (31) of the indicator lamp module (100) are respectively connected with an L contact (6001) and an N contact (6002) of one socket module (600); or alternatively

The two first conductive members (31) of the indicator lamp module (100) are respectively connected with the L contact (6001) of one socket module (600) and the N contact (6002) of the other socket module (600).

11. The socket of claim 10, wherein the indicator light module (100) is sandwiched between the L contact (6001) and the N contact (6002) when the two first conductive members (31) of the indicator light module (100) are respectively exposed at the opposite two third sides (103).