CN220021666U - Conductive structure of plywood lamp in cabinet body - Google Patents

Abstract

The utility model discloses a structure of a laminate lamp in a cabinet body, in particular to a conductive structure of the laminate lamp in the cabinet body, wherein a first positive electrode contact terminal and a second positive electrode bump terminal are adopted to conduct contact between an electric connecting piece I led out from a power supply and an electric connecting piece II on a side plate of the cabinet body, and a second positive electrode contact terminal and a second positive electrode bump terminal are adopted to conduct contact between the electric connecting piece II on the side plate of the cabinet body and an electric connecting piece III led out from the lamp on the laminate plate of the cabinet body. The utility model solves the technical problem of improving the electrical contact stability of the conductive structure of the layer plate lamp in the cabinet body, and the conductive structure of the layer plate lamp in the cabinet body has good electrical contact stability and relatively low failure rate in the process of disassembling and assembling the layer plate of the cabinet body on the side plate of the cabinet body or in the daily use process of the cabinet body after the layer plate of the cabinet body is assembled on the side plate of the cabinet body.

Description

Conductive structure of plywood lamp in cabinet body

Technical Field

The utility model relates to a structure of a layer plate lamp in a cabinet body, in particular to a conductive structure of the layer plate lamp in the cabinet body.

Background

The laminate lamp is widely applied to household illumination of a wardrobe, a cupboard, a sideboard, a shoe cabinet and the like, namely plays a role in illumination in the cabinet and simultaneously plays a role in beautifying and decorating, and is widely applied to modern extremely simple households.

The existing cabinet body structure is provided with a groove on the side face of the laminated board, a lead is perforated on the back board of the cabinet body, and finally the power supply lead is led to the back of the cabinet body.

Accordingly, the present utility model has been made.

Disclosure of Invention

The utility model aims to solve the defects of the prior art and provide a conductive structure of a laminate lamp in a cabinet body, which has good electrical contact stability.

In order to achieve the above object, the present utility model provides a conductive structure of a laminate lamp in a cabinet, which comprises:

an electric connector I, one end of which is provided with a positive and negative electrode contact terminal I, wherein the positive and negative electrode contact terminal I is electrically connected with a power supply through a power supply lead I;

an electric connector II, one end of which is provided with a positive and negative electrode convex point terminal I, and the other end of which is provided with a positive and negative electrode contact terminal II, wherein the positive and negative electrode convex point terminal I and the positive and negative electrode contact terminal II are electrically connected through a power wire II;

an electric connecting piece III, one end of which is provided with a positive and negative electrode convex point terminal II, and the positive and negative electrode convex point terminal II is electrically connected with the lamp through a power wire III;

the side plate of the cabinet body is provided with a first hole for embedding a first positive and negative electrode bump terminal, a second hole for embedding a second positive and negative electrode contact terminal and a first wire slot for communicating the two holes and embedding a second power supply wire; the first hole and the first wire slot are arranged at the rear end of the side plate of the cabinet body and are parallel to the direction of the laminate of the cabinet body, the first hole is arranged at the rear end of the second hole, and the back plate of the cabinet body is arranged in the middle of the two holes;

the side surface of the cabinet body laminate is provided with a hole III for embedding the positive and negative electrode salient point terminals II, a communication hole III and a wire slot II of the lamp slot, and the hole III is positioned at the rear end of the cabinet body laminate;

the positive and negative electrode bump terminals I of the electric connecting piece II are embedded into the holes I of the side plate of the cabinet body, the positive and negative electrode contact terminals II are embedded into the holes II of the side plate of the cabinet body, and the power supply lead II is embedded into the wire slot I of the side plate of the cabinet body; the positive and negative electrode bump terminals II of the electric connecting piece III are embedded into the hole III of the cabinet layer board, and the power supply lead III is embedded into the wire slot II of the cabinet layer board;

after the cabinet body laminate is mounted on the cabinet body side plate, the positive and negative electrode contact terminal I of the first electric connecting piece is in electric contact with the positive and negative electrode bump terminal I of the second electric connecting piece; and the positive and negative electrode contact terminal II of the electric connecting piece II is electrically contacted with the positive and negative electrode bump terminal II of the electric connecting piece III.

The utility model relates to a conductive structure of a laminate lamp in a cabinet body, wherein a first electric connecting piece led out from a power supply and a second electric connecting piece on a side plate of the cabinet body are in contact conduction by adopting a first positive electrode contact terminal and a first positive electrode bump terminal, namely wireless electricity taking is realized, and a second electric connecting piece on the side plate of the cabinet body and a third electric connecting piece led out from the lamp on the laminate plate of the cabinet body are in contact conduction by adopting a second positive electrode contact terminal and a second positive electrode bump terminal, namely wireless electricity taking is realized. Therefore, when the cabinet body laminate combined with the conductive structure is disassembled and assembled on the side plate of the cabinet body, the situation of poor electric contact of the lamp caused by pulling the power wire is thoroughly avoided.

Compared with the prior art, the conductive structure of the laminate lamp in the cabinet body has the following technical advantages:

1. the conductive structure of the laminate lamp in the cabinet body provided by the utility model has the advantages that the conductive structure of the laminate lamp has good electrical contact stability and relatively low failure rate no matter in the process of disassembling and assembling the laminate of the cabinet body on the side plate of the cabinet body or in the daily use process of the cabinet body after the laminate of the cabinet body is assembled on the side plate of the cabinet body;

2. the conductive structure of the laminate lamp in the cabinet body has the advantages that the layout of power wires in the structure is clear, the laminate of the cabinet body can be conveniently disassembled and assembled on the side plate of the cabinet body, and the construction efficiency is relatively high.

Drawings

FIG. 1 is a schematic diagram of a cabinet structure;

FIG. 2 is a schematic diagram of the conductive structure of a laminate lamp in a cabinet;

FIG. 3 is an enlarged partial schematic view at A in FIG. 2;

FIG. 4 is a schematic view of a side panel of the cabinet;

FIG. 5 is a schematic view of a structure of a cabinet laminate;

FIG. 6 is a schematic view of a mounting structure of a cabinet side plate and a second electrical connector;

FIG. 7 is an enlarged partial schematic view at B in FIG. 6;

fig. 8 is a schematic view of a mounting structure of a cabinet laminate and an electrical connector.

In the figure: positive and negative electrode contact terminal 1, positive and negative electrode bump terminal 2, positive and negative electrode contact terminal 3, power wire 4, positive and negative electrode bump terminal 5, power wire 6, cabinet side plate 7, hole 8, hole 9, wire slot 10, cabinet back plate 11, cabinet layer plate 12, hole 13, wire slot 14, lamp slot 15, and lamp 16.

Description of the embodiments

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which are derived by a person skilled in the art based on the embodiments of the utility model, fall within the scope of protection of the utility model.

As shown in fig. 1 to 8, as an embodiment of the present utility model, a conductive structure of a laminate lamp in a cabinet provided in this embodiment includes:

an electric connector I, one end of which is provided with a positive and negative electrode contact terminal I1, wherein the positive and negative electrode contact terminal I1 is electrically connected with a power supply through a power supply lead I (not shown in the drawing in the specification);

the electric connector II is provided with a positive and negative electrode convex point terminal I2 at one end part and a positive and negative electrode contact piece terminal II 3 at the other end part, wherein the positive and negative electrode convex point terminal I2 and the positive and negative electrode contact piece terminal II 3 are electrically connected through a power supply lead II 4;

an electric connector III, one end of which is provided with a positive and negative electrode convex point terminal II 5, and the positive and negative electrode convex point terminal II 5 is electrically connected with a lamp 16 through a power supply lead III 6;

the side plate 7 of the cabinet body is provided with a first hole 8 for embedding the first positive and negative electrode bump terminals 2, a second hole 9 for embedding the second positive and negative electrode contact terminals 3 and a first wire slot 10 for connecting the two holes and embedding the second power supply wire 4; the holes and the first wire slots 10 are arranged at the rear end of the side plate 7 of the cabinet body, the three holes are arranged in parallel to the direction of the layer plate 12 of the cabinet body, the first hole 8 is arranged at the rear end of the second hole 9, and the back plate 11 of the cabinet body is arranged in the middle of the two holes, so that the third electric connector and an external power supply can be completely shielded, and the third electric connector and the external power supply can not be completely seen on the visible surface (front surface) of the cabinet body;

the side surface of the cabinet layer plate 12 is provided with a hole III 13 for embedding the positive and negative electrode salient point terminals II 5, a communication hole III 13 and a wire slot II 14 of the lamp slot 15, and the hole III 13 is positioned at the rear end of the cabinet layer plate 12;

as shown in fig. 6-8, the positive and negative electrode bump terminals 2 of the electric connector II are embedded into the holes 8 of the side plate 7 of the cabinet body, the positive and negative electrode contact terminals 3 are embedded into the holes 9 of the side plate 7 of the cabinet body, and the power supply lead 4 is embedded into the wire slot 10 of the side plate 7 of the cabinet body; the positive and negative electrode bump terminals II 5 of the electric connector III are embedded into the hole III 13 of the cabinet layer plate 12, and the power supply lead III 6 is embedded into the wire slot II 14 of the cabinet layer plate 12;

wherein, after the cabinet laminate 12 is mounted on the cabinet side plate 7, the positive and negative electrode contact terminal 1 of the first electric connector is in electrical contact with the positive and negative electrode bump terminal 2 of the second electric connector, and the first electric connector can be directly fixed to the rear end of the cabinet side plate 7 (completely shielded by the cabinet back plate 11) or the back surface of the cabinet back plate 11 in the cabinet assembly process, so that the conductive relationship between the positive and negative electrode contact terminal 1 of the first electric connector and the positive and negative electrode bump terminal 2 on the cabinet side plate 7 in electrical contact therewith is relatively stable; the positive and negative electrode contact terminal two 3 of the second electrical connector is electrically contacted with the positive and negative electrode bump terminal two 5 of the third electrical connector, and the cabinet layer 12 is fixed on the cabinet side plate 7 by two or three pieces in the process of assembling the customized cabinet, so that once the cabinet layer 12 is assembled on the cabinet side plate 7 and finally positioned, the conductive relationship between the positive and negative electrode contact terminal two 3 on the cabinet side plate 7 and the positive and negative electrode bump terminal two 5 on the cabinet layer 12 electrically contacted with the positive and negative electrode contact terminal two is relatively stable.

In the conductive structure of the laminate lamp in the cabinet provided in this embodiment, the electrical contact stability of the conductive structure of the laminate lamp 16 is good, and the failure rate is relatively low, both in the process of disassembling and assembling the cabinet laminate 12 on the cabinet side plate 7 and in the process of daily use of the cabinet after assembling the cabinet laminate 12 on the cabinet side plate 7.

The present utility model is not limited to the above-mentioned preferred embodiments, and any person who can obtain other various products under the teaching of the present utility model can make any changes in shape or structure, and all the technical solutions that are the same or similar to the present utility model fall within the scope of the present utility model.

Claims (1)

1. A conductive structure for a laminate lamp in a cabinet, comprising:

an electric connector I, one end of which is provided with a positive and negative electrode contact terminal I, wherein the positive and negative electrode contact terminal I is electrically connected with a power supply through a power supply lead I;

an electric connector II, one end of which is provided with a positive and negative electrode convex point terminal I, and the other end of which is provided with a positive and negative electrode contact terminal II, wherein the positive and negative electrode convex point terminal I and the positive and negative electrode contact terminal II are electrically connected through a power wire II;

an electric connecting piece III, one end of which is provided with a positive and negative electrode convex point terminal II, and the positive and negative electrode convex point terminal II is electrically connected with the lamp through a power wire III;

the side plate of the cabinet body is provided with a first hole for embedding a first positive and negative electrode bump terminal, a second hole for embedding a second positive and negative electrode contact terminal and a first wire slot for communicating the two holes and embedding a second power supply wire; the first hole and the first wire slot are arranged at the rear end of the side plate of the cabinet body and are parallel to the direction of the laminate of the cabinet body, the first hole is arranged at the rear end of the second hole, and the back plate of the cabinet body is arranged in the middle of the two holes;

the side surface of the cabinet body laminate is provided with a hole III for embedding the positive and negative electrode salient point terminals II, a communication hole III and a wire slot II of the lamp slot, and the hole III is positioned at the rear end of the cabinet body laminate;

the positive and negative electrode bump terminals I of the electric connecting piece II are embedded into the holes I of the side plate of the cabinet body, the positive and negative electrode contact terminals II are embedded into the holes II of the side plate of the cabinet body, and the power supply lead II is embedded into the wire slot I of the side plate of the cabinet body; the positive and negative electrode bump terminals II of the electric connecting piece III are embedded into the hole III of the cabinet layer board, and the power supply lead III is embedded into the wire slot II of the cabinet layer board;

after the cabinet body laminate is mounted on the cabinet body side plate, the positive and negative electrode contact terminal I of the first electric connecting piece is in electric contact with the positive and negative electrode bump terminal I of the second electric connecting piece; and the positive and negative electrode contact terminal II of the electric connecting piece II is electrically contacted with the positive and negative electrode bump terminal II of the electric connecting piece III.