CN213840829U - Module connecting structure - Google Patents

Abstract

The utility model discloses a connection structure of module, it includes: the module comprises a connecting body, a first conductive pin and a second conductive pin, wherein the connecting body is used for connecting two or more modules together in a clamping mode, the first conductive pin and the second conductive pin are arranged on two sides of the connecting body, are respectively inserted into two different modules and electrically contact with circuit units in the modules, and are installed in the connecting body and used for conducting the first conductive pin and the second conductive pin, wherein the connecting body is an insulator. The utility model discloses in adopt and connect the body and link together two adjacent module blocks, through connect this internal setting respectively with insert two adjacent module in and with the first conductive needle and the second conductive needle that the circuit board switched on, and this internal first conductive needle of electric connection and the current conducting plate of second conductive needle that sets up of connection, thereby realize being in the same place two adjacent module electric connection, make only need insert one of them module electric wire netting and can realize being whole module power supply, moreover, the steam generator is simple in structure, the installation is convenient and fast, and the cost is saved.

Description

Module connecting structure

The technical field is as follows:

the utility model relates to a connect technical field, refer in particular to a connection structure of module.

Background art:

the traditional connection mode is that each module is connected by adopting an independent wire to supply power to each module, when a plurality of modules are required to be supplied with power simultaneously, the condition of wire intercrossing can occur, high temperature of a circuit is easily caused in the use process, potential safety hazards exist, and the guide of each module needs to be clearly smoothed out when the modules are installed, so that the installation workload is large, the installation time is long, and the cost is increased.

In view of the above, the present inventors propose the following.

The utility model has the following contents:

an object of the utility model is to overcome prior art not enough, provide a connection structure of module.

In order to solve the technical problem, the utility model discloses a following technical scheme: the connection structure of the module includes: the module comprises a connecting body, a first conductive pin and a second conductive pin, wherein the connecting body is used for connecting two or more modules together in a clamping mode, the first conductive pin and the second conductive pin are arranged on two sides of the connecting body and are respectively inserted into two different modules, and circuit units in the modules are in electric contact with each other, and a conductive plate is arranged in the connecting body and is used for conducting the first conductive pin and the second conductive pin, wherein the connecting body is an insulator.

Further, in the above technical solution, the connecting body is a groove type, wherein the first conductive pin and the second conductive pin are respectively installed in a left groove wall and a right groove wall of two sides of the connecting body, and the conductive plate is installed in a bottom connecting plate of the connecting body; and the left groove wall and the right groove wall are respectively inserted into different modules to realize conductive connection.

Furthermore, among the above-mentioned technical scheme, be provided with on the module at least two with left cell wall and/or the pilot hole that right cell wall block is connected, wherein, left cell wall with the both sides of right cell wall shaping respectively have be used for with first sand grip and second sand grip of pilot hole inner wall block, also symmetrical shaping has on the inner wall of pilot hole with the draw-in groove of first sand grip and/or second sand grip joint.

Further, in the above technical solution, the cross sections of the first protruding strip and the second protruding strip are both trapezoidal.

Further, in the above technical solution, the first conductive pin and the second conductive pin are both spring pins; a first stepped hole for mounting the first conductive needle is formed in the left groove wall, wherein a needle tube of the first conductive needle is mounted in the first stepped hole and is in contact with the conductive plate, and a needle head of the first conductive needle extends out of the left groove wall and can elastically stretch out and retract; and a second stepped hole for mounting the second conductive needle is formed in the right groove wall, the needle tube of the second conductive needle is mounted in the second stepped hole and is in contact with the conductive plate, and the needle head of the second conductive needle extends out of the right groove wall and can elastically stretch.

Furthermore, in the above technical solution, an insulating cover plate covering the conductive plate is further disposed at the bottom of the connection body.

Further, in the above technical solution, the module is a lamp, a display screen, or a signal processor.

Further, in the above technical solution, the lamp includes a lamp housing, an LED strip mounted on an inner wall of the lamp housing, a diffusion film, a light guide plate, a reflective film, a circuit board sequentially mounted in the lamp housing, and a rear cover covering a rear end of the lamp housing, wherein the circuit board is provided with a pin portion contacting the first conductive pin and/or the second conductive pin for conduction, the pin portion is located in the assembly hole, and the assembly hole is formed in the rear cover.

Further, in the above technical solution, the circuit board is provided with a battery for providing electric energy to the LED strip, and the lamp further includes a power connector, which is also adapted to the assembly hole; the front end face of the lamp shell is a light-transmitting plate, and the side wall of the lamp shell is a light-opaque plate.

Further, in the above technical solution, the lamp is hexagonal, and each side is provided with the assembly hole; the first conductive pins and the second conductive pins are arranged in parallel; the back cover is formed with a plurality of convex columns which are clamped and fixed with the circuit board, the circuit board is formed with a plurality of clamping holes which are matched with the convex columns, and each assembling hole is formed with two convex columns.

After the technical scheme is adopted, compared with the prior art, the utility model has following beneficial effect:

1. the utility model discloses in connect the body with two adjacent module block links together, through set up respectively in connecting the body with insert two adjacent module and with the first conductive needle and the second conductive needle that the circuit board switches on, and set up the current conducting plate of electric connection first conductive needle and second conductive needle in connecting the body, thereby realize two adjacent module electric connection together, make only need insert electric wire netting with one of them module and can realize supplying power for whole module, simple structure, simple to operate is swift, practice thrift the cost; for example: when a plurality of lamps are connected, the connection of external complex wires can be reduced, high-temperature combustion caused by the concentrated wires is avoided, potential safety hazards are eliminated, and the use safety of the lamps is improved.

2. The utility model can realize surface lighting or line lighting by connecting a plurality of lamps, can be spliced into a plurality of shapes according to the needs, and can also select lamps with different colors to splice into a monochromatic lamp wall or a colored lamp wall to increase the atmosphere of a room; secondly, the LED lamp area of lamps and lanterns sets up on the lateral wall of lamp body, and the light that produces is not direct projection, consequently for lamps and lanterns send be comparatively soft light, can not produce dazzling effect, can follow good protection eyes.

Description of the drawings:

fig. 1 is a first perspective view of the present invention;

fig. 2 is an exploded view of the present invention;

fig. 3 is a second perspective view of the present invention;

fig. 4 is an exploded view of the present invention;

fig. 5 is a cross-sectional view of the present invention;

fig. 6 is a first perspective view of the lamp of the present invention;

fig. 7 is a second perspective view of the lamp of the present invention;

fig. 8 is an exploded view of the lamp of the present invention;

fig. 9 is a second exploded view of the lamp of the present invention;

fig. 10 is a cross-sectional view of a lamp of the present invention;

fig. 11 is a first usage state reference diagram of the present invention;

fig. 12 is a second usage state reference diagram of the present invention;

fig. 13 is a third use state reference diagram of the present invention.

Description of reference numerals:

1 module 11 lamp shell 111 light-transmitting plate

112 light-proof plate 12 LED lamp strip 13 diffusion film

14 light guide plate 15 reflection film 16 circuit board

161 card hole 17 rear cover 171 assembly hole

172-notch 173 convex column 18 battery

19 the power connector 2 is connected with the left groove wall of the main body 21

211 first protruding strip 212 first stepped hole 22 right groove wall

221 second convex strip 222 bottom connecting plate of second stepped hole 23

3 first conductive pin 4 second conductive pin 5 conductive plate

6 insulating cover plate

The specific implementation mode is as follows:

the present invention will be further described with reference to the following specific embodiments and accompanying drawings.

Referring to fig. 1 to 13, a module connecting structure includes: the module comprises a connecting body 2 for connecting two or more modules 1 together in a clamping manner, a first conductive pin 3 and a second conductive pin 4 which are arranged on two sides of the connecting body 2 and are respectively inserted into two different modules 1 and electrically contacted with circuit units in the modules 1, and a conductive plate 5 which is arranged in the connecting body 2 and is used for conducting the first conductive pin 3 and the second conductive pin 4, wherein the connecting body 2 is an insulator. The two adjacent modules 1 are clamped and connected together by adopting the connecting body 2, the first conductive pin 3 and the second conductive pin 4 which are respectively inserted into the two adjacent modules 1 and are conducted with the circuit board 16 are arranged in the connecting body 2, and the conductive plate 5 which is electrically connected with the first conductive pin 3 and the second conductive pin 4 is arranged in the connecting body 1, so that the two adjacent modules 1 are electrically connected together, and the power supply of all the modules 1 can be realized by only connecting one of the modules 1 into a power grid, the structure is simple, and the installation is convenient; for example: when a plurality of lamps are connected, the connection of external complex wires can be reduced, high-temperature combustion caused by the concentrated wires is avoided, potential safety hazards are eliminated, and the use safety of the lamps is improved.

The connecting body 2 is in a groove shape, wherein the first conductive pin 3 and the second conductive pin 4 are respectively installed in a left groove wall 21 and a right groove wall 22 at two sides of the connecting body 2, and the conductive plate 5 is installed in a bottom connecting plate 23 of the connecting body 2; and are respectively inserted into different modules 1 through the left slot wall 21 and the right slot wall 22 to realize conductive connection.

Be provided with on the module 1 at least two with left cell wall 21 and/or the pilot hole 171 that right cell wall 22 block is connected, wherein, left side cell wall 21 with the both sides of right cell wall 22 are formed respectively be used for with first sand grip 211 and the second sand grip 221 of pilot hole 171 inner wall block, also symmetrical forming have on the inner wall of pilot hole 171 with first sand grip 211 and/or the draw-in groove 172 of second sand grip 221 joint.

The cross sections of the first protruding strip 211 and the second protruding strip 221 are both trapezoidal.

The first conductive pin 3 and the second conductive pin 4 are both spring pins; a first stepped hole 212 for mounting the first conductive pin 3 is formed in the left groove wall 21, wherein a needle tube of the first conductive pin 3 is mounted in the first stepped hole 212 and contacts with the conductive plate 5, and a needle head of the first conductive pin 3 extends out of the left groove wall 21 and can elastically stretch out and retract; a second stepped hole 222 for mounting the second conductive pin 4 is formed in the right groove wall 22, wherein a needle tube of the second conductive pin 4 is mounted in the second stepped hole 222 and contacts with the conductive plate 5, and a needle head of the second conductive pin 4 extends out of the right groove wall 22 and can elastically stretch out and retract.

The bottom of the connecting body 2 is also provided with an insulating cover plate 6 covering the conductive plate 5.

The module 1 is a lamp or a display screen or a signal processor.

The traditional illumination mode adopts point illumination, namely, a high-brightness lamp source is used for illuminating a field, and a plurality of points are used for emitting light to illuminate to realize illumination in a larger field.

In order to solve the problem that the light of the traditional lighting lamp is too strong and not soft enough, the lamp which is popular in the market is taken as the lighting lamp, the lamp has the great advantages that the light is soft and not dazzling, the quantity can be increased more easily, surface lighting or line lighting can be realized by splicing a plurality of lamps together, the lamps can be spliced into various shapes according to the needs, lamps with different colors can be further spliced into a single-color lamp wall or a color lamp wall, and the atmosphere of a room is increased. Secondly, the LED lamp strip 12 of lamps and lanterns sets up on the lateral wall of lamp body, and the light that produces is not direct projection, consequently for lamps and lanterns send be comparatively soft light, can not produce dazzling effect, can follow good protection eyes.

In an embodiment, the present invention is applied to the field of lamps, and the quantum lamp is specifically described as an example: the lamp comprises a lamp shell 11, an LED lamp strip 12 arranged on the inner wall of the lamp shell 11, a diffusion film 13, a light guide plate 14, a reflection film 15, a circuit board 16 and a rear cover 17 covering the rear end of the lamp shell 11, wherein the diffusion film 13, the light guide plate 14, the reflection film 15, the circuit board 16 and the rear cover 17 are sequentially arranged in the lamp shell 11, a pin part which is in contact with the first conductive pin 3 and/or the second conductive pin 4 for conducting electricity is arranged on the circuit board 16, the pin part is located in the assembling hole 171, and the assembling hole 171 is formed in the rear cover 17. The switch of the lamp is a lamp shell 11, and the lamp can be turned on or off by touching the front side of the lamp.

The circuit board 16 is provided with a battery 18 for providing power to the LED strip 12, and the lamp further includes a power connector 19, wherein the power connector 19 is also adapted to the mounting hole 171; the front end surface of the lamp housing 11 is a light-transmitting plate 111, and the side wall of the lamp housing 11 is a light-transmitting plate 112. By arranging the battery 18 on the circuit board 16, each light fixture can be supplied with power independently, and after a plurality of light fixtures are connected together, the light fixtures can be mutually supplied with power, so that the light fixtures can be carried around for lighting, and can be installed on other positions of a room without being limited to a wall, and more choices are provided for users.

The lamp is hexagonal, and each side is provided with the assembling hole 171; the first conductive pins 3 and the second conductive pins 4 are arranged in parallel; the rear cover 17 is formed with a plurality of convex pillars 173 engaged with the circuit board 16, the circuit board 16 is formed with a plurality of engaging holes 161 matching with the convex pillars 173, wherein each of the assembling holes 171 is formed with two convex pillars 173. By arranging the assembling holes 171 on the lamp mountain, the lamp can be spliced infinitely and spliced in various modes, and the lamp can have a plurality of conducting points, so that after one lamp is broken down, other lamps can be kept to be illuminated without power failure, and the situation of large-area lamp failure is avoided; the left groove wall 21 and the right groove wall 22 of the connecting body 2 are respectively provided with the plurality of first conductive pins 3 and the plurality of second conductive pins 4, so that the electrical contact is more stable, and the phenomenon that the lamp is turned off after the single first conductive pin 3 and/or the single second conductive pin 4 are failed can be avoided.

In summary, taking the application of the present invention to a quantum lamp as an example, when in use, the left and right groove walls 21 and 22 at the two sides of the connecting body 2 are respectively clamped and installed in the assembling holes 17 of different lamps, so as to connect the two lamps together, and the first and second conductive pins 3 and 4 and the conductive plate 5 arranged in the connecting body 1 are used to electrically connect the two lamps, so that the plurality of connecting bodies 2 can connect the plurality of lamps and electrically connect the plurality of lamps together, when one of the lamps is connected with electricity through the power connector 19, the other lamps are also connected with electricity through the connecting body 1, and the plurality of assembling holes 171 are arranged on the lamps and can connect the plurality of lamps in series through the connecting body 2, thereby preventing the lamps at the back from being unable to be powered due to the damage of one of the lamps, and therefore, the utility model can simply and quickly connect the plurality of lamps together, and complicated wire connection is not needed, high-temperature combustion caused by wire concentration is avoided, potential safety hazards are eliminated, and the use safety of the lamp is improved.

Of course, the above description is only an exemplary embodiment of the present invention, and not intended to limit the scope of the present invention, and all equivalent changes and modifications made by the constructions, features, and principles of the present invention in accordance with the claims of the present invention are intended to be included in the scope of the present invention.

Claims (10)

1. A connecting structure of a module, comprising: the module comprises a connecting body (2) which connects two or more modules (1) together in a clamping manner, a first conductive pin (3) and a second conductive pin (4) which are arranged on two sides of the connecting body (2) and are respectively inserted into two different modules (1) and electrically contacted with a circuit unit in each module (1), and a conductive plate (5) which is arranged in the connecting body (2) and is used for conducting the first conductive pin (3) and the second conductive pin (4), wherein the connecting body (2) is an insulator.

2. A connecting structure of a module according to claim 1, wherein: the connecting body (2) is in a groove shape, wherein the first conductive pin (3) and the second conductive pin (4) are respectively installed in a left groove wall (21) and a right groove wall (22) at two sides of the connecting body (2), and the conductive plate (5) is installed in a bottom connecting plate (23) of the connecting body (2); and the left groove wall (21) and the right groove wall (22) are respectively inserted into different modules (1) to realize conductive connection.

3. A connecting structure of a module according to claim 2, wherein: be provided with on module (1) at least two with left side cell wall (21) and/or pilot hole (171) that right side cell wall (22) block is connected, wherein, left side cell wall (21) with the both sides of right side cell wall (22) are shaped respectively be used for with first sand grip (211) and second sand grip (221) of pilot hole (171) inner wall block, also symmetrical shaping have on the inner wall of pilot hole (171) with first sand grip (211) and/or draw-in groove (172) of second sand grip (221) joint.

4. A connecting structure of a module according to claim 3, wherein: the cross sections of the first convex strip (211) and the second convex strip (221) are trapezoidal.

5. A connecting structure of a module according to claim 3, wherein: the first conductive pin (3) and the second conductive pin (4) are both spring pins; a first stepped hole (212) for mounting the first conductive needle (3) is formed in the left groove wall (21), wherein a needle tube of the first conductive needle (3) is mounted in the first stepped hole (212) and is in contact with the conductive plate (5), and a needle head of the first conductive needle (3) extends out of the left groove wall (21) and can elastically stretch out and retract; a second stepped hole (222) for mounting the second conductive needle (4) is formed in the right groove wall (22), a needle tube of the second conductive needle (4) is mounted in the second stepped hole (222) and is in contact with the conductive plate (5), and a needle head of the second conductive needle (4) extends out of the right groove wall (22) and can elastically stretch out and retract.

6. A connecting structure of a module according to claim 5, wherein: the bottom of the connecting body (2) is also provided with an insulating cover plate (6) which covers the conducting plate (5).

7. A connecting structure of a module according to any one of claims 3 to 6, wherein: the module (1) is a lamp or a display screen or a signal processor.

8. A connecting structure of a module according to claim 7, wherein: the lamp comprises a lamp shell (11), an LED lamp strip (12) arranged on the inner wall of the lamp shell (11), a diffusion film (13), a light guide plate (14), a reflection film (15), a circuit board (16) and a rear cover (17) covering the rear end of the lamp shell (11), wherein the circuit board (16) is provided with a pin part which is in contact with the first conductive pin (3) and/or the second conductive pin (4) and is conductive, the pin part is positioned in an assembling hole (171), and the assembling hole (171) is formed in the rear cover (17).

9. A connecting structure of a module according to claim 8, wherein: the circuit board (16) is provided with a battery (18) for providing power for the LED lamp strip (12), the lamp also comprises a power connector (19), and the power connector (19) is also matched with the assembly hole (171); the front end face of the lamp shell (11) is a light-transmitting plate (111), and the side wall of the lamp shell (11) is a light-tight plate (112).

10. A connecting structure of a module according to claim 9, wherein: the lamp is hexagonal, and each side is provided with the assembling hole (171); the first conductive pins (3) and the second conductive pins (4) are arranged in parallel; the back lid (17) is gone up the shaping and is had the plural number with fixed boss (173) of circuit board (16) block, circuit board (16) is gone up the shaping and has the plural number with card hole (161) that boss (173) match, wherein, every all be formed with two on pilot hole (171) boss (173).

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