CN213361980U - Modular lamp - Google Patents

Abstract

The utility model provides a module lamps and lanterns belongs to lamps and lanterns technical field, including lamp stand shell, main drive board, electrode buckle, lantern festival and copper needle subassembly. A main drive plate is arranged in the lamp holder shell, and two oppositely arranged electrode buckles are arranged on the main drive plate; the bottom of the small lamp is provided with a copper needle assembly, and the copper needle assembly is in clamping fit with the electrode buckle and is used for electrically connecting the main driving board and the small lamp. The utility model provides a module lamps and lanterns, when dismouting lantern on the lamp stand shell, through the joint cooperation between two electrode buckles on copper needle subassembly on the lantern and the main drive board, realize the quick assembly disassembly of lantern and lamp stand shell, lantern and lamp stand shell easy dismounting, the user can be according to the different models of self demand adjustment, the lantern of different photochromic, and the suitability is stronger.

Description

Modular lamp

Technical Field

The utility model belongs to the technical field of lamps and lanterns, more specifically say, relate to a module lamps and lanterns.

Background

At present, the combined lamp on the market is actually assembled with the small lamp of each different illumination color on the main lamp holder according to a specific sequence and a pattern when leaving a factory, and because the small lamp is difficult to disassemble and assemble with the main lamp holder, a user is difficult to adjust the small lamp according to the self requirement, and the applicability is poor.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a module lamps and lanterns aims at solving the small lamp and main lamp stand dismouting difficulty, and the user is hardly according to the demand adjustment small lamp of self, the relatively poor problem of suitability.

In order to achieve the above object, the utility model adopts the following technical scheme: provided is a modular lamp comprising:

the lamp holder comprises a lamp holder shell, wherein a main driving plate is arranged in the lamp holder shell, and two oppositely arranged electrode buckles are arranged on the main driving plate;

the bottom of the small lamp is provided with a copper needle assembly, and the copper needle assembly is matched with the electrode buckle in a clamping mode and used for electrically connecting the main driving plate with the small lamp.

As another embodiment of the present application, the method further includes:

the electrode plate is arranged on one side, away from the bottom surface of the lamp holder shell, of the main drive plate, the two electrode buckles are arranged on the electrode plate, and clamping parts extending oppositely are arranged at the end parts of the two electrode buckles;

the LN input end is of an oval structure and is arranged at the end part of the copper needle assembly, the length of the short axis of the oval LN input end is smaller than the distance between the two clamping parts, and the length of the long axis of the oval LN input end is larger than the distance between the two clamping parts;

the LN input end penetrates through the two clamping parts from the short axis direction, and is clamped between the two electrode buckles in the long axis direction by virtue of the LN input end through rotation, and contacts the probes on the electrode plate.

As another embodiment of the application, a positioning buckle is arranged between the main driving board and the electrode plate, and a positioning surface ring used for mounting the small lamp is arranged on one side, away from the main driving board, of the electrode plate.

As another embodiment of this application, the small lamp includes heat dissipation casing, combination board and lamp shade, the combination board is installed in the heat dissipation casing, just the lamp shade cover is located on the heat dissipation casing, the copper needle subassembly runs through the heat dissipation casing is used for connecting the combination board.

As another embodiment of this application, the copper needle subassembly includes copper needle negative pole and copper needle is anodal, the copper needle negative pole runs through the heat dissipation casing is used for connecting the negative pole circuit of joint plate, the copper needle is anodal to run through the heat dissipation casing is used for connecting the positive pole circuit of joint plate, the copper needle positive pole with be equipped with the division board between the copper needle negative pole, the division board cooperation the heat dissipation casing is used for insulating the copper needle positive pole with the copper needle negative pole is located the LN input the copper needle negative pole is used for the joint two between the electrode buckle, is located the LN input the copper needle positive pole is used for the contact the probe.

As another embodiment of this application, the combination board is close to one side of heat dissipation casing is equipped with the snap ring relatively, two the snap ring is used for the electricity to be connected the negative pole circuit of combination board, the copper needle negative pole runs through heat dissipation casing is used for installing two between the snap ring and with the snap ring contact.

As another embodiment of this application, the copper needle negative pole includes the sleeve, the sleeve is installed on the heat dissipation casing, telescopic one end is equipped with two arcs, two the arc runs through the heat dissipation casing is used for the joint two the snap ring is intra-annular, the telescopic other end is equipped with oval end, oval end is used for the joint two between the electrode buckle.

As another embodiment of this application, the bonding board is kept away from one side of heat dissipation casing is equipped with the female terminal of all-metal, the female terminal of all-metal is used for the electricity to be connected the positive circuit of bonding board, the positive pole of copper needle runs through heat dissipation casing with the bonding board is used for connecting the female terminal of all-metal.

As another embodiment of this application, the anodal nail form structure that is of copper needle, the anodal pole portion of copper needle is equipped with the back-off structure, pole portion runs through heat dissipation casing with the combination board is used for connecting the female terminal of all-metal, the anodal end cap portion of copper needle is oval, the division board is located end cap portion with between the oval end.

As another embodiment of the present application, the probe is an elastic probe.

The utility model provides a module lamps and lanterns's beneficial effect lies in: compared with the prior art, the utility model discloses module lamps and lanterns when dismouting lantern on the lamp stand shell, through the joint cooperation between two electrode buckles on copper needle subassembly on the lantern and the main drive board, realize the quick assembly disassembly of lantern and lamp stand shell, lantern and lamp stand shell easy dismounting, the user can be according to the different models of self demand adjustment, the lantern of different photochromic, and the suitability is stronger.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings required for the embodiments or the prior art descriptions will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings without creative efforts.

Fig. 1 is a schematic structural view of a modular lamp provided in an embodiment of the present invention;

FIG. 2 is a cross-sectional view taken along A-A of FIG. 1;

FIG. 3 is an enlarged view at B in FIG. 2;

fig. 4 is a schematic structural diagram of a copper needle cathode provided in an embodiment of the present invention;

fig. 5 is a schematic structural diagram of a copper needle anode provided by an embodiment of the present invention.

In the figure: 1. a lamp socket housing; 2. a main drive plate; 21. a probe; 3. an electrode plate; 31. electrode buckling; 311. a clamping part; 4. a small lamp; 41. a heat dissipating housing; 411. an insulating sleeve; 42. a bonding plate; 421. a snap ring; 422. an all-metal female terminal; 43. a lamp shade; 5. a copper pin assembly; 51. a copper needle cathode; 511. a sleeve; 512. an arc-shaped plate; 513. an elliptical tip; 52. a copper needle positive electrode; 521. a rod portion; 522. a cap portion; 523. a back-off structure; 53. a separator plate; 6. positioning a ring buckle; 7. the locating surface ring.

Detailed Description

In order to make the technical problem, technical solution and advantageous effects to be solved by the present invention more clearly understood, the following description is given in conjunction with the accompanying drawings and embodiments to illustrate the present invention in further detail. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

Referring to fig. 1 to 5, a modular lamp of the present invention will now be described. The modularized lamp comprises a lamp holder shell 1, a main driving board 2, an electrode buckle 31, a small lamp 4 and a copper needle assembly 5.

A main drive plate 2 is arranged in the lamp holder shell 1, and two electrode buckles 31 which are oppositely arranged are arranged on the main drive plate 2; the bottom of the small lamp 4 is provided with a copper needle assembly 5, and the copper needle assembly 5 is in clamping fit with the electrode buckle 31 and is used for electrically connecting the main driving board 2 and the small lamp 4.

The utility model provides a module lamps and lanterns compares with prior art, when dismouting lantern 4 on lamp stand shell 1, through the joint cooperation between two electrode buckle 31 on copper needle subassembly 5 on lantern 4 and the main drive board 2, realizes lantern 4 and lamp stand shell 1's quick assembly disassembly, lantern 4 and lamp stand shell 1 easy dismounting, and the user can adjust different models according to self demand, lantern 4 of different photochromic, and the suitability is stronger.

As a specific embodiment of the modular lamp provided by the present invention, please refer to fig. 1 to 5, further comprising a plate electrode 3 and an LN input end, which are disposed on one side of the main driving plate 2 away from the bottom surface of the lamp holder housing 1, two electrode fasteners 31 disposed on the plate electrode 3, and two end portions of the two electrode fasteners 31 both having a relatively extending fastening portion 311; the LN input end is of an oval structure and is arranged at the end part of the copper needle component 5, the length of the short axis of the oval LN input end is smaller than the distance between the two clamping parts 311, and the length of the long axis of the oval LN input end is larger than the distance between the two clamping parts 311; the LN input end passes through the two clamping portions 311 from the short axis direction, is clamped between the two electrode buckles 31 by the long axis direction of the LN input end by rotating the LN input end, and contacts the probe 21 on the electrode plate 3. In this embodiment, the small lamp 4 is rotated to change the directions of the long axis and the short axis of the elliptic LN input end of the copper needle assembly 5, so as to realize the quick installation and disassembly of the small lamp 4. When installing small lamp 4 on lamp stand shell 1, make the joint portion 311 of passing through two electrode buckle 31 on the plate electrode 3 with the minor axis direction of LN input, rotate certain angle, the major axis direction joint of LN input is between two electrode buckle 31, and can not deviate from in two joint portion 311, guarantee the stability of small lamp 4 installation on plate electrode 3, at this moment, probe 21 and plate electrode 3 on the copper needle subassembly 5 contact main drive board 2 of small lamp 4, thereby make small lamp 4 and main drive board 2 accomplish the electricity and be connected, small lamp 4 normally works. When dismantling the small lamp 4 from lamp stand shell 1, the small lamp 4 of antiport makes the minor axis direction of LN input and the clearance phase-match of the joint portion 311 of two electrode buckles 31, and two joint portions 311 of 5 accessible of copper needle subassembly of small lamp 4 lift off small lamp 4 from electrode plate 3 smoothly to accomplish the dismantlement of small lamp 4. The small lamp 4 and the lamp holder shell 1 are convenient to disassemble and assemble, users can adjust the small lamps 4 with different models and different light colors according to the requirements of the users, and the applicability is stronger.

As a specific embodiment of the modular lamp provided by the present invention, please refer to fig. 1 to 3, a positioning buckle 6 is disposed between the main driving board 2 and the electrode plate 3, and a positioning surface ring 7 for installing the small lamp 4 is disposed on one side of the electrode plate 3 away from the main driving board 2. In this embodiment, the electrode plate 3 is mounted on the positioning buckle 6, so that the stability of the electrode plate 3 can be ensured, and the electrode plate 3 is separated from the main drive board 2 by the positioning buckle 6. The positioning face ring 7 is arranged at the end part of the base and is used for sealing the electrode plate 3, the positioning ring buckle 6 and the main driving plate 2 in the lamp holder shell 1. In addition, a plurality of mounting concave parts are formed in the positioning surface ring 7, the small lamp 4 is mounted through the mounting concave parts, through holes are formed in the middle parts of the positioning ring buckle 6 and the mounting concave parts, and the probe 21 mounted on the main driving plate 2 penetrates through the through holes and is used for contacting the copper pin assembly 5 of the small lamp 4. The main driving plate 2, the electrode plate 3 and the positioning buckle 6 can be splicing plates or whole plates.

As a specific implementation manner of the modular lamp provided by the present invention, please refer to fig. 3, the small lamp 4 includes a heat dissipation casing 41, a combination board 42 and a lampshade 43, the combination board 42 is installed in the heat dissipation casing 41, the lampshade 43 covers the heat dissipation casing 41, and the copper pin assembly 5 penetrates the heat dissipation casing 41 and is used for connecting the combination board 42. In the present embodiment, the coupling plate 42 is enclosed inside by the lamp cover 43 at the end of the heat dissipating case 41. The copper pin assembly 5 is connected to the connection board 42, and penetrates the heat dissipation housing 41 for connecting the two electrode buckles 31 and contacting the probe 21.

As a specific implementation manner of the modular lamp provided by the present invention, please refer to fig. 3, the copper needle assembly 5 includes a copper needle cathode 51 and a copper needle anode 52, the copper needle cathode 51 runs through the heat dissipation casing 41 and is used for connecting the cathode circuit of the connection board 42, the copper needle anode 52 runs through the anode circuit of the heat dissipation casing 41 and is used for connecting the connection board 42, a separation plate 53 is disposed between the copper needle anode 52 and the copper needle cathode 51, the separation plate 53 cooperates with the heat dissipation casing 41 and is used for insulating the copper needle anode 52 and the copper needle cathode 51, the copper needle cathode 51 at the LN input end is used for the joint between the two electrode buckles 31, and the copper needle anode 52 at the LN input end is used for the contact probe 21. In this embodiment, the copper pin anode 52 is electrically connected to the anode circuit of the bonding board 42, the copper pin cathode 51 is electrically connected to the cathode circuit of the bonding board 42, wherein the isolation board 53 is used to separate the copper pin cathode 51 and the copper pin anode 52 at the LN input end, and the heat dissipation case 41 is used to separate the copper pin anode 52 and the copper pin cathode 51 at the rest positions, so as to avoid the short circuit between the two. In addition, the copper needle positive electrode 52 and the copper needle negative electrode 51 can be exchanged according to the actual use requirement.

As a specific embodiment of the modular lamp provided in the present invention, please refer to fig. 3, a clamp ring 421 is relatively disposed on one side of the combining plate 42 close to the heat dissipating casing 41, the two clamp rings 421 are used to electrically connect the negative circuit of the combining plate 42, and the copper pin negative electrode 51 penetrates the heat dissipating casing 41 and is installed between the two clamp rings 421 and contacts with the clamp rings 421. In this embodiment, the two snap rings 421 are disposed oppositely, the two snap rings 421 are both electrically connected to the negative electrode circuit of the connection plate 42, and one end of the copper needle negative electrode 51 penetrates through the heat dissipation casing 41 and is clamped between the two snap rings 421, so that the copper needle negative electrode 51 is electrically connected to the negative electrode circuit on the connection plate 42.

As a specific implementation manner of the modular lamp provided by the present invention, please refer to fig. 3 and 4, the copper needle cathode 51 includes a sleeve 511, the sleeve 511 is installed on the heat dissipation casing 41, one end of the sleeve 511 is provided with two arc plates 512, the two arc plates 512 run through the heat dissipation casing 41 for being connected in two snap rings 421, the other end of the sleeve 511 is provided with an oval end 513, and the oval end 513 is used for being connected between two electrode buckles 31. In this embodiment, the copper pin negative electrode 51 is a sleeve 511 structure, one end of which is provided with two opposite arc-shaped plates 512, and the two arc-shaped plates 512 penetrate through two arc-shaped holes correspondingly formed in the heat dissipation casing 41, are clamped between the two clamping rings 421, and are in contact with the inner side walls of the two clamping rings 421, so that the copper pin negative electrode 51 is electrically connected with the negative circuit of the combination plate 42. The heat dissipation case 41 has an insulating sleeve 411, the sleeve 511 of the copper needle cathode 51 is sleeved outside the insulating sleeve 411, the copper needle anode 52 penetrates through the insulating sleeve 411, and the copper needle anode 52 and the copper needle cathode 51 are insulated by the insulating sleeve 411 of the heat dissipation case 41. The oval end 513 of the sleeve 511 is clamped between the two electrode buckles 31, so that the copper needle cathode 51 is electrically connected with the electrode plate 3 through the electrode buckles 31.

As a specific implementation manner of the modular lamp provided by the present invention, please refer to fig. 3, one side of the combining plate 42 away from the heat dissipation casing 41 is provided with an all-metal female terminal 422, the all-metal female terminal 422 is used for electrically connecting the positive circuit of the combining plate 42, and the copper pin positive electrode 52 runs through the heat dissipation casing 41 and the combining plate 42 to connect the all-metal female terminal 422. In this embodiment, the middle of the all-metal female terminal 422 has a gap, the all-metal female terminal 422 is electrically connected to the positive electrode circuit of the connection plate 42, and one end of the positive electrode 52 of the copper pin penetrates through the heat dissipation housing 41 and the connection plate 42 and is clamped in the gap in the middle of the all-metal female terminal 422, so that the positive electrode 52 of the copper pin is electrically connected to the positive electrode circuit on the connection plate 42.

As a specific embodiment of the modular lamp provided by the present invention, please refer to fig. 3 and 5, the positive electrode 52 of the copper pin is a nail-shaped structure, the rod portion 521 of the positive electrode 52 of the copper pin is provided with the reverse-buckling structure 523, the rod portion 521 penetrates through the heat dissipation housing 41 and the combining plate 42 for connecting the all-metal female terminal 422, the end cap 522 of the positive electrode 52 of the copper pin is oval, and the isolation plate 53 is located between the end cap 522 and the oval end 513. In this embodiment, one end of the rod 521 of the copper pin anode 52 is a pointed structure, and is used to be clamped in the gap in the middle of the all-metal female terminal 422 and electrically connected to the anode circuit on the bonding board 42; the end cap 522 of the other end of the stem 521 of the copper pin anode 52 contacts the probe 21 and is electrically connected to the main drive plate 2. The rod portion 521 of the copper pin anode 52 penetrates through the insulating sleeve 411 of the heat dissipation housing 41, and the inverted structure 523 prevents the copper pin anode from coming off the insulating sleeve 411, so that the stability of the copper pin anode is ensured. In addition, end cap portion 522, oval end 513 and division board 53 are oval, and the size is unanimous, constitute a whole ellipsoid, and this ellipsoid is through rotating, through the joint portion 311 of two electrode buckles 31 to the joint is between two electrode buckles 31, contacts probe 21 simultaneously, in order to realize that the anodal 52 of copper needle and the negative 51 of copper needle are connected electrode plate 3 and main drive board 2 respectively electrically, and the two is insulated each other.

Referring to fig. 3, the probe 21 is an elastic probe 21 as a specific embodiment of the modular lamp provided by the present invention. In this embodiment, the elastic probe 21 itself has an elastic free end in the axial direction, and can ensure good contact with the end cap 522 of the copper needle positive electrode 52.

The above description is only exemplary of the present invention and should not be taken as limiting the scope of the present invention, as any modifications, equivalents, improvements and the like made within the spirit and principles of the present invention are intended to be included within the scope of the present invention.

Claims (10)

1. Modular lamps and lanterns, its characterized in that includes:

the lamp holder comprises a lamp holder shell, wherein a main driving plate is arranged in the lamp holder shell, and two oppositely arranged electrode buckles are arranged on the main driving plate;

the bottom of the small lamp is provided with a copper needle assembly, and the copper needle assembly is matched with the electrode buckle in a clamping mode and used for electrically connecting the main driving plate with the small lamp.

2. The modular lamp of claim 1, further comprising:

the electrode plate is arranged on one side, away from the bottom surface of the lamp holder shell, of the main drive plate, the two electrode buckles are arranged on the electrode plate, and clamping parts extending oppositely are arranged at the end parts of the two electrode buckles;

the LN input end is of an oval structure and is arranged at the end part of the copper needle assembly, the length of the short axis of the oval LN input end is smaller than the distance between the two clamping parts, and the length of the long axis of the oval LN input end is larger than the distance between the two clamping parts;

the LN input end penetrates through the two clamping parts from the short axis direction, and is clamped between the two electrode buckles in the long axis direction by virtue of the LN input end through rotation, and contacts the probes on the electrode plate.

3. The modular lamp of claim 2, wherein a positioning ring is disposed between the main driving board and the electrode board, and a positioning ring is disposed on a side of the electrode board away from the main driving board for mounting the small lamp.

4. The modular lamp of claim 3, wherein the small lamp comprises a heat dissipating housing, a coupling plate and a lampshade, the coupling plate is mounted in the heat dissipating housing, the lampshade covers the heat dissipating housing, and the copper pin assembly penetrates the heat dissipating housing for connecting the coupling plate.

5. The modular lamp of claim 4, wherein the copper pin assembly comprises a copper pin negative electrode and a copper pin positive electrode, the copper pin negative electrode penetrates through the heat dissipation housing for connecting the negative electrode circuit of the bonding board, the copper pin positive electrode penetrates through the heat dissipation housing for connecting the positive electrode circuit of the bonding board, a separation plate is arranged between the copper pin positive electrode and the copper pin negative electrode, the separation plate is matched with the heat dissipation housing for insulating the copper pin positive electrode and the copper pin negative electrode, the copper pin negative electrode at the LN input end is used for being clamped between two of the electrode buckles, and the copper pin positive electrode at the LN input end is used for contacting the probe.

6. The modular lamp of claim 5, wherein the side of the connecting plate adjacent to the heat dissipating housing is provided with a pair of opposing snap rings, the two snap rings are used for electrically connecting the negative circuit of the connecting plate, and the copper pin negative electrode penetrates through the heat dissipating housing and is arranged between the two snap rings and in contact with the snap rings.

7. The modular lamp of claim 6, wherein the copper pin cathode comprises a sleeve, the sleeve is mounted on the heat dissipation housing, one end of the sleeve is provided with two arc-shaped plates, the two arc-shaped plates penetrate through the heat dissipation housing for being clamped in the two clamping rings, the other end of the sleeve is provided with an oval end, and the oval end is used for being clamped between the two electrode clamps.

8. The modular lamp of claim 7, wherein the side of the bonding board away from the heat dissipation housing is provided with an all-metal female terminal, the all-metal female terminal is used for electrically connecting with a positive circuit of the bonding board, and the copper pin positive electrode penetrates through the heat dissipation housing and the bonding board and is used for connecting with the all-metal female terminal.

9. The modular lamp of claim 8, wherein the copper pin anode has a nail-like structure, the rod of the copper pin anode has a reverse structure, the rod penetrates through the heat dissipation housing and the connection plate for connecting the all-metal female terminal, the end cap of the copper pin anode has an oval shape, and the isolation plate is located between the end cap and the oval end.

10. The modular lamp of claim 2, wherein the probe is a resilient probe.

Images