CN212961020U

CN212961020U - Illumination module and illumination lamp

Info

Publication number: CN212961020U
Application number: CN202022232740.1U
Authority: CN
Inventors: 朱增龙
Original assignee: Shanghai Qianlong Energy Saving Technology Co ltd
Current assignee: Shanghai Qianlong Energy Saving Technology Co ltd
Priority date: 2020-10-09
Filing date: 2020-10-09
Publication date: 2021-04-13
Anticipated expiration: 2030-10-09

Abstract

The utility model discloses a lighting module and illumination lamps and lanterns belongs to the lighting technology field. The lighting module comprises a module body and a light source module arranged on the module body, wherein a connecting groove is formed in one side of the module body, an extending portion is arranged on the other side of the module body, a first electric connector is arranged in the connecting groove, a second electric connector is arranged on the extending portion, the first electric connector and the second electric connector are both electrically connected with a light source substrate, one of the first electric connector and the second electric connector is provided with a conductive terminal extending along a first direction, the other one of the first electric connector and the second electric connector is provided with a terminal accommodating groove sunken along the first direction, the size of the terminal accommodating groove in a second direction is larger than that of the conductive terminal in a second direction, the size of the terminal accommodating groove in a third direction is larger than that of the conductive terminal in a third direction, the second direction and the third direction are perpendicular to the first direction, and the second direction and the third. The scheme can solve the problem of poor connection reliability between the existing lighting modules.

Description

Illumination module and illumination lamp

Technical Field

The utility model belongs to the technical field of the illumination, concretely relates to illumination module and illumination lamps and lanterns.

Background

In the field of lighting technology, in order to generate better effect of light emitted from a lighting fixture, a plurality of lighting modules are often connected for use.

The lighting modules which are common in the market at present are arranged in a frame, and then are matched through a plurality of components such as the frame, a connecting wire and the like, so that the connection of the lighting modules is completed. Failure of the connection structure may result if any of the frame, wires, etc. components are damaged. Therefore, the reliability of the connection between the existing lighting modules is poor.

SUMMERY OF THE UTILITY MODEL

The embodiment of the utility model provides an aim at provides a lighting module and illumination lamps and lanterns can solve the relatively poor problem of connection reliability between the current lighting module.

In order to solve the technical problem, the utility model discloses a realize like this:

in a first aspect, an embodiment of the present invention provides a lighting module, which includes a module body and a light source module disposed on the module body, wherein the light source module includes a light source substrate and a light source disposed on the light source substrate, one side of the module body is provided with a connecting groove, the other side of the module body is provided with an extending portion, a first electrical connector is disposed in the connecting groove, a second electrical connector is disposed on the extending portion, the first electrical connector and the second electrical connector are both electrically connected to the light source substrate, one of the first electrical connector and the second electrical connector is provided with a conductive terminal extending along a first direction, the other one is provided with a terminal receiving groove recessed along the first direction, a dimension of the terminal receiving groove in a second direction is larger than a dimension of the conductive terminal in the second direction, the size of the terminal accommodating groove in a third direction is larger than that of the conductive terminal in the third direction, wherein the second direction and the third direction are both perpendicular to the first direction, and the second direction is intersected with the third direction.

In a second aspect, an embodiment of the present invention provides an illumination lamp, which includes a driving module and an illumination module, wherein the illumination module is the above-mentioned illumination module, the number of the illumination module is at least two, each the illumination module is connected in sequence, wherein, at least one the illumination module with the driving module is connected, a driver is arranged in the driving module, and the illumination module passes through the first electrical connector and the second electrical connector with the driver is electrically connected.

The embodiment of the utility model provides an in, when operating personnel connects the module body, can align the cooperation with the extension of another module body with the spread groove of a module body, because the size of terminal accepting groove is greater than conductive terminal's size, consequently can make the spacing cooperation of terminal accepting groove and the electric conductance of the first electric connector in the conductive terminal of the second electric connector on the extension and the spread groove to can connect gradually lighting module fast and reliably.

Drawings

Fig. 1 is an exploded view of a lighting fixture disclosed in an embodiment of the present invention;

fig. 2 to 5 are schematic structural views of a lighting module according to an embodiment of the present invention;

FIG. 6 is an enlarged view of a portion of the structure shown at A in FIG. 4;

FIG. 7 is a schematic view of a portion of the enlarged structure at B in FIG. 5;

fig. 8 to 9 are schematic assembly views of a lighting module according to an embodiment of the present invention;

fig. 10 to 11 are schematic views of a partial enlarged structure of a lighting module according to another embodiment of the present invention;

fig. 12 to 13 are schematic views of a partial enlarged structure of a lighting module according to still another embodiment of the present invention.

Description of reference numerals:

100-module body, 110-light source module, 120-connecting groove, 121-first electric connector, 121 a-terminal containing groove, 122-base, 123-elastic piece, 124-sealing matching part, 125-matching convex part, 126-first plane, 127-second plane, 128-third plane, 130-extending part, 131-second electric connector, 131 a-conductive terminal, 132-connector body, 133-mounting seat, 134-operation notch, 135-sealing groove, 136-movable space, 137-threaded hole, 140-first plane, 150-second plane, 160-limiting groove, 170-sealing piece and 180-third plane;

200-drive module, 300-front cover, 400-screw.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, not all, of the embodiments of the present invention. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

The terms "first," "second," and the like in the description and in the claims, are used for distinguishing between similar elements and not necessarily for describing a particular sequential or chronological order. It is to be understood that the data so used is interchangeable under appropriate circumstances such that embodiments of the invention can be practiced in sequences other than those illustrated or described herein, and the terms "first," "second," and the like are generally used herein in a generic sense without limitation to the number of terms, e.g., the first term can be one, or more than one. In addition, "and/or" in the specification and claims means at least one of connected objects, a character "/" generally means that a preceding and succeeding related objects are in an "or" relationship.

The lighting module and the lighting fixture provided by the embodiments of the present invention are described in detail below with reference to the accompanying drawings through specific embodiments and application scenarios thereof.

As shown in fig. 1 to 13, an embodiment of the present invention discloses an illumination module, which includes a module body 100 and a light source module 110 disposed on the module body 100.

The light source module 110 includes a light source substrate (not shown) and a light source (not shown) disposed on the light source substrate.

The module body 100 has a first surface 140 and a second surface 150 opposite to each other and parallel, and a third surface 180 perpendicular to the first surface 140, specifically, the first surface 140 and the second surface 150 are opposite to each other in a first direction, which may be a thickness direction of the module body 100, and the module body 100 further has a length direction, which is perpendicular to the first direction, and the third surface 180 may be parallel to the length direction. One side of the module body 100 is provided with a connecting groove 120, and the other side of the module body 100 is provided with an extending portion 130, where the one side and the other side may be two sides of the module body 100 that are opposite to each other in a direction perpendicular to the third surface 180. A first electrical connector 121 is disposed in the connecting groove 120, a second electrical connector 131 is disposed on the extending portion 130, and both the first electrical connector 121 and the second electrical connector 131 are electrically connected to the light source substrate. In addition, the lighting module further comprises a front cover 300 and screws 400, the module body 100 is further provided with threaded holes 137, when an operator connects each lighting module, the connecting groove 120 of one module body 100 can be aligned and matched with the extending portion 130 of the other module body 100, the first electrical connector 121 in the connecting groove 120 and the second electrical connector 131 in the extending portion 130 are butted, and are matched and connected with the screws 400 through the threaded holes 137 in the module body 100, then the front cover 300 is matched and connected with the connecting groove 120 of one module body 100 through the screws 400 and the threaded holes 137, and finally the lighting module is electrified so that the light source can be electrically operated. Of course, the connection among the lighting modules can also be realized through the modes of snap connection, interference fit and the like, and the connection mode is more suitable for the condition that the lighting modules are lighter.

One of the first electrical connector 121 and the second electrical connector 131 is provided with a conductive terminal 131a extending along a first direction, the other one is provided with a terminal receiving groove 121a recessed along the first direction, the dimension of the terminal receiving groove 121a in the second direction is larger than the dimension of the conductive terminal 131a in the second direction, and the dimension of the terminal receiving groove 121a in the third direction is larger than the dimension of the conductive terminal 131a in the third direction, wherein the second direction and the third direction are perpendicular to the first direction, and the second direction and the third direction intersect. That is, the second direction and the third direction are in the same plane, and the first direction is perpendicular to the plane in which the second direction and the third direction are located.

In the embodiment of the present invention, when the operator connects each lighting module, the connecting slot 120 of one module body 100 can be aligned and matched with the extending portion 130 of another module body 100, because the size of the terminal receiving slot 121a is larger than that of the conductive terminal 131a, the terminal receiving slot 121a can receive at least a part of the conductive terminal 131a, so that the conductive terminal 131a of the second electrical connector 131 on the extending portion 130 can be in spacing fit with and electrically conducted to the terminal receiving slot 121a of the first electrical connector 121 in the connecting slot 120, thereby connecting each lighting module in sequence quickly and reliably.

Further, the extension portion 130 is formed by protruding from the edge of the module body 100, the connection groove 120 is formed by recessing from the module body 100 along the first direction, one of the connected lighting modules is a first module, the other is a second module, when the first module is connected with the second module, the extension portion 130 of the first module is connected to the connection groove 120 of the second module, and the conductive terminal 131a of the first module is inserted into and electrically connected to the terminal receiving groove 121a of the second module. The extension portion 130 is formed by protruding from the edge of the module body 100, that is, the edge of the module body 100 has a protruding extension portion 130, and the connection groove 120 is formed by recessing from the module body 100 along the first direction, that is, the module body 100 has a recessed connection groove 120, and when the first module is connected to the second module, the extension portion 130 of the first module can be matched with the connection groove 120 of the second module, and is inserted into and electrically connected to the terminal receiving groove 121a of the second module through the conductive terminal 131a of the first module, thereby realizing the fast and reliable connection of the first module and the second module.

In a further embodiment, the light source module 110 is disposed on the first surface 140 of the module body 110, the extension portion 130 is formed by protruding from the third surface 180 of the module body 110, and the connection groove 120 is formed by recessing from the second surface 150 of the module body 110. When an operator connects the lighting modules, the extension portion 130 formed by the protruding third surface 180 of the first module and the connection groove 120 formed by the recessed second surface 150 of the second module can be matched, so that the first module and the second module can be connected quickly and reliably. When the lighting modules are connected together, the gaps between the lighting modules are smaller, so that the light sources of the lighting modules can be spliced to form a more concentrated and uniform light emitting surface, and the light emitting effect of the lighting modules is improved.

In a further alternative embodiment, in the case that the first module and the second module are connected, the first surface 140 of the first module and the first surface 140 of the second module are coplanar, and since the light source modules 110 are disposed on the first surface 140, the light source modules 110 of each lighting module are substantially at the same height, so that the light emitted by each lighting module is more uniform. Furthermore, in the case that the first module is connected to the second module, the second surface 150 of the first module may be coplanar with the second surface 150 of the second module, which can ensure that the extending portions 130 and the connecting grooves 120 are at substantially the same height, thereby ensuring that the first module is reliably connected to the second module, and that the connected lighting modules have better appearance.

In one embodiment, at least one of the first electrical connector 121 and the second electrical connector 131 is a movable connector movably disposed on the module body 100. By arranging at least one of the first electrical connector 121 and the second electrical connector 131 as a movable connector, the processing error and the assembly error of parts can be better adapted, so that an operator can conveniently butt the first electrical connector 121 and the second electrical connector 131 when connecting the first module and the second module, the operator can quickly connect the first module and the second module, and the reliability of electrical connection of the first electrical connector 121 and the second electrical connector 131 can be improved.

In a further embodiment, the movable connector may include a connector body 132 and a mounting seat 133, the mounting seat 133 is disposed on the module body 100 and forms a movable space 136 therebetween, the connector body 132 is at least partially located in the movable space 136, and the connector body 132 is slidably connected to the mounting seat 133 through the movable space 136. Referring to fig. 6, the dotted line in fig. 6 indicates a position before the connector body 132 moves, when an operator connects the first module and the second module, if the first electrical connector 121 and the second electrical connector 131 cannot be mated, the operator can operate the connector body 132 to slide the connector body 132 to a proper mating position in the movable space 136, so that the second electrical connector 131 on the connector body 132 can be precisely mated with the first electrical connector 121, thereby quickly connecting the first module and the second module. The movable connector in this embodiment is simpler in construction and more convenient to operate.

In an alternative embodiment, the connector body 132 is movable in at least the second and third directions. When the operator docks the first electrical connector 121 and the second electrical connector 131, the operator can drive the connector body 132 to move along the second direction and the third direction, so that the connector body 132 can stay at more positions, and therefore the docking position of the second electrical connector 131 can be flexibly adjusted through the structure, so that the operator can dock the first electrical connector 121 and the second electrical connector 131 conveniently, and the operator can rapidly connect the first module and the second module conveniently.

In another alternative embodiment, the side of the connector body 132 facing the mounting seat 133 is provided with an operation notch 134. An operator may place a finger or other tool within the operating notch 134 to adjust the position of the connector body 132 to facilitate mating of the first electrical connector 121 with the second electrical connector 131. The operation notch 134 facilitates the operator to adjust the position of the connector body 132, and also simplifies the structure of the lighting module.

In order to facilitate the quick connection of the first module and the second module by an operator, the module body 100 is further provided with a limiting groove 160, the limiting groove 160 is communicated with the connecting groove 120, and under the condition that the first module is connected with the second module, the extending part 130 of the first module is matched with the limiting groove 160 of the second module, so that the limiting groove 160 can realize the pre-positioning of the first module and the second module, and then the first module and the second module are reliably connected together through parts such as a screw 400, and therefore, the limiting groove 160 can facilitate the quick and reliable connection of the first module and the second module by the operator.

As described above, the limiting groove 160 can realize the pre-positioning of the first module and the second module, so the size of the limiting groove 160 can be set to be relatively large, so that the extending portion 130 can enter the connecting groove 120 more quickly, however, when the size of the limiting groove 160 is large, a large gap will occur between the extending portion 130 of the first module and the connecting groove 120 of the second module, which is not favorable for the reliable connection between the two. Based on this, further, a matching protrusion 125 is disposed in the connecting groove 120, the matching protrusion 125 protrudes relative to the inner wall of the limiting groove 160, and when the first module is connected to the second module, the extending portion 130 of the first module abuts against the matching protrusion 125 of the second module. Alternatively, the fitting protrusion 125 may be integrally provided with the module body 100, or may be connected to the module body 100 by welding, screwing, or the like. The extension portion 130 can be more tightly engaged in the stopper groove 160 by providing the coupling protrusion 125 in the coupling groove 120, so that the first module and the second module can be more reliably coupled.

In a further alternative embodiment, the inner wall of the connecting groove 120 includes a first plane 126, a second plane 127 and a third plane 128 connected in sequence, the first plane 126 and the third plane 128 are opposite, a matching protrusion 125 is provided at the connection position of the first plane 126 and the second plane 127, and/or a matching protrusion 125 is provided at the connection position of the second plane 127 and the third plane 128. Since the inner wall of the coupling groove 120 is formed by a plurality of planes, the coupling groove 120 is easier to mold, and the fitting protrusion 125 is disposed at the joint of the planes, so that the position of the extension portion 130 can be defined by the fitting protrusion 125 in at least two directions, thereby further improving the position-limiting effect of the fitting protrusion 125.

The first plane 126 and the third plane 128 may be perpendicular to the second plane 127, or an end of the first plane 126 away from the second plane 127 and an end of the third plane 128 away from the second plane 127 may be gradually close to each other, but in order to increase the connecting slot 120 appropriately and obtain a larger installation space, an end of the first plane 126 away from the second plane 127 and an end of the third plane 128 away from the second plane 127 may be gradually far away.

In another alternative embodiment, a portion of the fitting protrusion 125 is attached to the inner wall of the connecting groove 120, and another portion is attached to the inner wall of the limiting groove 160. The fitting protrusion 125 can be more firmly disposed by increasing the fitting area, and the fitting area between the fitting protrusion 125 and the extension 130 can be increased, so that the first module and the second module can be more reliably connected.

In one embodiment, the limiting groove 160 is disposed along an inner wall of the connecting groove 120, i.e., a portion of a sidewall of the limiting groove 160 is aligned with a portion of a sidewall of the connecting groove 120. When the module body 100 is processed, the limiting groove 160 and the connecting groove 120 can share the same reference positioning surface, so that the processing precision of the limiting groove 160 and the connecting groove is higher, and the manufacturing precision of the whole lighting module is improved accordingly. Meanwhile, a portion of the sidewalls of the limiting groove 160 and a portion of the sidewalls of the connecting groove 120 may be formed simultaneously through a single operation, so that the structure may also simplify the manufacturing process of the lighting module.

In order to avoid the damage of the first connector or the second connector caused by excessive force when the operator connects the first module and the second module, at least one of the first electrical connector 121 and the second electrical connector 131 may be an elastic connector, the elastic connector includes a base 122 and an elastic member 123, the base 122 is provided with a terminal receiving slot 121a, the elastic member 123 is disposed in the terminal receiving slot 121a, and the conductive terminal 131a contacts with the elastic member 123 when the first module and the second module are connected. On one hand, the elastic member 123 is compressed and deformed, and the deformation allows the elastic member 123 to apply a pressing force to the conductive terminal 131a, so that the first electrical connector 121 and the second electrical connector 131 are more closely fitted, and thus the first electrical connector 121 and the second electrical connector 131 are more reliably electrically conducted; on the other hand, the elastic element 123 can also buffer the force applied when connecting the first module and the second module, so as to avoid the damage to the first electrical connector 121 or the second electrical connector 131 caused by the excessive force applied by the operator.

If moisture or some other impurities enter the connecting groove 120 or the extending portion 130, it may cause damage to components in the connecting groove 120 or the extending portion 130, thereby causing the lighting module to be unable to be powered on for use, therefore, the lighting module further includes a sealing member 170, a sealing matching portion 124 is arranged in the connecting groove 120, the first electrical connector 121 is arranged in the sealing matching portion 124, under the condition that the first module is connected with the second module, the extending portion 130 of the first module can be in sealing matching with the sealing matching portion 124 through the sealing member 170, thereby preventing the moisture or the impurities from entering the connecting groove 120 or the extending portion 130, further protecting the lighting module, and prolonging the service life of the lighting module.

Alternatively, the sealing member 170 may be a sealing ring having a better sealing effect.

In a further embodiment, the extension portion 130 may be provided with a sealing groove 135, in a case that the first module is connected to the second module, the sealing groove 135 of the first module may be in sealing engagement with the sealing engagement portion 124 through the sealing member 170, at this time, the sealing groove 135 may assist in limiting the position of the sealing member 170, so as to prevent the sealing member 170 from moving, and at the same time, the sealing groove 135 and the sealing member 170 form a larger sealing area, so as to more effectively prevent moisture or impurities from entering the connecting groove 120 or the extension portion 130, thereby protecting the lighting module and prolonging the service life of the lighting module.

In further alternative embodiments, the number of first electrical connectors 121 and second electrical connectors 131 is two (as shown in fig. 1-9), three (as shown in fig. 10 and 11), or four (as shown in fig. 12 and 13), and each first electrical connector 121 mates with one second electrical connector 131. Through the above arrangement mode, an operator can select the number of the first electrical connectors 121 and the second electrical connectors 131 according to different use scenes, and simultaneously can flexibly adjust the connection form of each first electrical connector 121 and each second electrical connector 131, so that the electrical connection modes between the lighting modules are more diversified through a series-parallel connection mode, and the use requirements of users are better met.

The embodiment of the utility model also discloses an illumination lamp, it includes drive module 200 and lighting module, and lighting module is the lighting module of the arbitrary embodiment of above-mentioned, and lighting module's quantity is at least two, and each lighting module links to each other in proper order, and wherein, at least one lighting module links to each other with drive module 200, is equipped with the driver in the drive module 200, and lighting module is connected with the driver electricity through first electric connector 121 and second electric connector 131. The driver in the driving module 200 can conduct the supplied electric energy to the light source substrate through the first electrical connector 121 and the second electrical connector 131, so as to energize the light source on the lighting module to emit light.

Furthermore, the lighting fixture is a street lamp, the lighting fixture comprises a street lamp pole, and each lighting module is installed at one end of the street lamp pole. The embodiment of the utility model provides an in quantity of lighting module can expand wantonly, consequently through the quantity that increases lighting module, satisfies the user demand of street lamp more easily to make things convenient for people to go on a journey.

The embodiments of the present invention have been described with reference to the accompanying drawings, but the present invention is not limited to the above-mentioned embodiments, which are only illustrative and not restrictive, and those skilled in the art can make many forms without departing from the spirit and scope of the present invention.

Claims

1. A lighting module is characterized by comprising a module body (100) and a light source module (110) arranged on the module body (100), wherein the light source module (110) comprises a light source substrate and a light source arranged on the light source substrate, one side of the module body (100) is provided with a connecting groove (120), the other side of the module body (100) is provided with an extending part (130), a first electric connector (121) is arranged in the connecting groove (120), a second electric connector (131) is arranged on the extending part (130), the first electric connector (121) and the second electric connector (131) are both electrically connected with the light source substrate,

one of the first electrical connector (121) and the second electrical connector (131) is provided with a conductive terminal (131a) extending along a first direction, the other one of the first electrical connector and the second electrical connector is provided with a terminal accommodating groove (121a) recessed along the first direction, the size of the terminal accommodating groove (121a) in a second direction is larger than that of the conductive terminal (131a) in a second direction, the size of the terminal accommodating groove (121a) in a third direction is larger than that of the conductive terminal (131a) in the third direction, wherein the second direction and the third direction are perpendicular to the first direction, and the second direction and the third direction are intersected.

2. The lighting module according to claim 1, wherein the extension portion (130) is formed protruding from an edge of the module body (100), the coupling groove (120) is formed recessed from the module body (100) in the first direction,

one of the connected lighting modules is a first module, the other one is a second module, when the first module is connected with the second module, the extending part (130) of the first module is connected with the connecting groove (120) of the second module, and the conductive terminal (131a) of the first module is inserted into and electrically conducted with the terminal receiving groove (121a) of the second module.

3. The lighting module according to claim 2, wherein the module body (100) has a first face (140) and a second face (150) opposite and parallel to each other, and a third face (180) perpendicular to the first face (140), the light source module (110) is disposed on the first face (140), the extension portion (130) is formed to protrude from the third face (180), and the connection groove (120) is formed to be recessed from the second face (150).

4. The lighting module of claim 3, wherein the first face (140) of the first module is coplanar with the first face (140) of the second module when the first module is connected to the second module.

5. The lighting module of claim 2, wherein at least one of the first electrical connector (121) and the second electrical connector (131) is a movable connector movably disposed to the module body (100).

6. The lighting module of claim 5, wherein the movable connector comprises a connector body (132) and a mounting seat (133), the mounting seat (133) is disposed on the module body (100) and forms a movable space (136) therebetween, the connector body (132) is at least partially located in the movable space (136), and the connector body (132) is slidably connected with the mounting seat (133) through the movable space (136).

7. The lighting module of claim 6, wherein the connector body (132) is movable in at least the second direction and the third direction.

8. The lighting module of claim 6, wherein a face of the connector body (132) facing the mounting seat (133) is provided with an operation notch (134).

9. The lighting module according to claim 2, wherein the module body (100) is further provided with a limiting groove (160), the limiting groove (160) is communicated with the connecting groove (120), and the extending portion (130) of the first module is matched with the limiting groove (160) of the second module in a state that the first module is connected with the second module.

10. The lighting module according to claim 9, wherein a mating protrusion (125) is provided in the connecting groove (120), the mating protrusion (125) protrudes relative to an inner wall of the limiting groove (160), and the extension portion (130) of the first module abuts against the mating protrusion (125) of the second module when the first module is connected to the second module.

11. The lighting module according to claim 10, wherein the inner wall of the connecting slot (120) comprises a first plane (126), a second plane (127) and a third plane (128) which are connected in sequence, the first plane (126) and the third plane (128) are opposite, the connecting position of the first plane (126) and the second plane (127) is provided with the matching convex part (125), and/or the connecting position of the second plane (127) and the third plane (128) is provided with the matching convex part (125).

12. The lighting module of claim 10, wherein a portion of the mating protrusion (125) is attached to an inner wall of the connecting groove (120), and another portion is attached to an inner wall of the retaining groove (160).

13. The lighting module of claim 9, wherein the limiting groove (160) is disposed along an inner wall of the connecting groove (120).

14. The lighting module of claim 2, wherein at least one of the first electrical connector (121) and the second electrical connector (131) is an elastic connector, the elastic connector comprises a base (122) and an elastic member (123), the base (122) is provided with the terminal receiving slot (121a), the elastic member (123) is disposed in the terminal receiving slot (121a), and the conductive terminal (131a) contacts with the elastic member (123) when the first module is connected to the second module.

15. The lighting module of claim 2, further comprising a sealing member (170), wherein a sealing mating portion (124) is disposed within the attachment slot (120), wherein the first electrical connector (121) is disposed within the sealing mating portion (124),

the extension (130) of the first module is in sealing engagement with the sealing engagement portion (124) through the seal (170) when the first module is connected to the second module.

16. The lighting module according to claim 15, wherein the extension (130) is provided with a sealing groove (135), and the sealing groove (135) of the first module is in sealing engagement with the sealing engagement portion (124) through the sealing member (170) when the first module is connected with the second module.

17. The lighting module of claim 15, wherein the number of the first electrical connectors (121) and the second electrical connectors (131) is two, three or four, each first electrical connector (121) mating with one second electrical connector (131).

18. A lighting fixture, comprising a driving module (200) and at least two lighting modules according to any one of claims 1 to 17, wherein at least one of the lighting modules is connected to the driving module (200), a driver is disposed in the driving module (200), and the lighting modules are electrically connected to the driver through the first electrical connector (121) and the second electrical connector (131).

19. A lighting fixture as recited in claim 18, wherein said lighting fixture is a street light, said lighting fixture comprises a light pole, and each of said lighting modules is mounted to one end of said light pole.