CN220122159U - Connector and lamp assembly using same - Google Patents

Abstract

The utility model discloses a connector and a lamp assembly using the same, wherein the connector comprises: the mounting seat comprises a plurality of layer frames which are sequentially connected in a laminated mode; a conductive piece is arranged between two adjacent layers of frames of the conductive piece, at least two terminals are arranged on the conductive piece, each terminal on the same conductive piece transversely extends out of the mounting seat in a non-overlapping direction, and each terminal extending towards the same side is sequentially distributed along the stacking direction of the layers of frames; the insulating sleeve is provided with a plurality of independent channels with openings at two ends, and each terminal facing the same side is inserted into each channel corresponding to the same insulating sleeve; the layer frame and the conductive parts are sequentially installed layer by layer, the conductive parts are fixed to form a whole through the layer frame, the conductive parts of each layer are effectively separated by each layer of frame, the safety performance of an electric appliance is improved, more than two electric appliances are mechanically and electrically connected by utilizing terminals on the conductive parts, and the device is simple in overall structure and quite convenient to install and use.

Description

Connector and lamp assembly using same

Technical Field

The utility model relates to the field of electric devices, in particular to a connector and a lamp assembly using the same.

Background

Some existing connection devices for connecting a plurality of electrical devices, such as lamps, generally use connectors, electrical rails, etc. The connector is directly arranged on the end part of the lamp, and the two lamps are directly connected through the end part. The arrangement orientation of the connection between the two lamps is limited in this way. And some external connecting devices have complicated internal structures and very complicated production and assembly.

Disclosure of Invention

The present utility model aims to solve at least one of the above-mentioned technical problems in the related art to some extent. To this end, the present utility model proposes a connector and a lamp assembly using the same.

In order to achieve the above purpose, the technical scheme of the utility model is as follows:

a connector, comprising:

the mounting seat comprises a plurality of layer frames which are sequentially connected in a laminated mode;

the conductive pieces are arranged between two adjacent shelves, at least two terminals are arranged on the conductive pieces respectively, each terminal on the same conductive piece transversely extends out of the mounting seat in a non-overlapping direction, and the terminals extending towards the same side are sequentially distributed along the stacking direction of the shelves;

the insulating sleeve is provided with a plurality of independent channels with openings at two ends, and each terminal facing the same side is inserted into each channel corresponding to the same insulating sleeve.

The connector has at least the following beneficial effects: the layer frame and the conductive parts are sequentially installed layer by layer, the conductive parts are fixed to form a whole through the layer frame, the conductive parts of each layer are effectively separated by each layer of frame, the safety performance of an electric appliance is improved, more than two electric appliances are mechanically and electrically connected by utilizing terminals on the conductive parts, and the device is simple in overall structure and quite convenient to install and use.

As an improvement of the above technical solution, the conductive member further includes a main body portion from which each of the terminals extends, and the conductive member is fixed to the shelf by the main body portion.

As a further improvement of the technical scheme, the layer rack is provided with a sinking table which is matched with the shape of the main body part, and the main body part is fixed in the sinking table.

Further, the main body portion has a flat sheet-like structure, and the terminals extend horizontally from the main body portion.

Further, a plurality of first jacks are formed in the main body portion, first plug-in columns matched with the first jacks are arranged on the layer frame, and the first plug-in columns penetrate through the first jacks to position the main body portion on the layer frame.

Further, a second plug-in column is arranged on one side of the layer frame, a second jack is arranged on the layer frame on the opposite side where the second plug-in column is located, and two adjacent layer frames are in counterpoint butt joint through the second plug-in column and the second jack.

Further, the terminal has a hollow cylindrical shape.

Further, two layer frames positioned on the two outermost sides are provided with buckles, the insulating sleeve is provided with buckling positions which are clamped with the buckles in a matching manner, and the insulating sleeve is clamped with the buckling positions in a mutually clamping manner so as to be fixed on the mounting seat.

Further, the novel socket comprises a cover body, the mounting seat is fixed in the cover body, a plurality of plug interfaces are arranged on the cover body, the insulating sleeves correspond to the plug interfaces one by one and extend out of the plug interfaces, and elastic buckles are arranged on the inner walls of the plug interfaces.

The utility model also relates to a lamp assembly, which comprises a lamp body and a connector, wherein a plurality of pins are arranged on the end part of the lamp body, and the pins are in butt joint with the terminals on the same side.

The lamp assembly has at least the following beneficial effects: the connector can realize electric connection when carrying out mechanical connection to each lamp body, and is very convenient in use.

Drawings

Further description is provided below with reference to the drawings and examples.

FIG. 1 is a schematic view of a portion of a connector;

FIG. 2 is a schematic view of the structure of FIG. 1 without the insulating sleeve assembled;

FIG. 3 is an exploded view of the structure of FIG. 2;

FIG. 4 is a bottom directional schematic view of a single shelf;

FIG. 5 is a schematic view of the structure of an insulating sleeve;

FIG. 6 is a schematic view of the structure of FIG. 1 mounted within a cover;

FIG. 7 is a schematic view of one of the connectors;

FIG. 8 is a schematic view of one of the connectors;

FIG. 9 is a schematic view of one of the connectors;

FIG. 10 is a schematic view of one of the connectors;

FIG. 11 is a schematic view of the structure of a lamp body;

FIG. 12 is a schematic view of one of the lamp assemblies in assembled form;

FIG. 13 is a schematic view of one of the lamp assemblies in assembled form;

fig. 14 is a schematic view of one of the lamp assemblies in assembled form.

Reference numerals: a mounting base 100; a layer rack 110; a sinking platform 111; a first plug post 112; a second peg 113; a second jack 114; a clasp 115; a conductive member 200; a terminal 210; a main body 220; a first jack 221; an insulating sleeve 300; a channel 310; a button 320; a cover 400; an interface 410; a snap 411; a lamp body 500; pins 510.

Detailed Description

Embodiments of the present utility model are described in detail below, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to like or similar elements or elements having like or similar functions throughout. The embodiments described below by referring to the drawings are illustrative and intended to explain the present utility model and should not be construed as limiting the utility model.

The utility model relates to a connector, which comprises a mounting seat 100, a conductive piece 200 and an insulating sleeve 300.

As shown in fig. 1, 2 and 3, the mount 100 includes a plurality of shelves 110 sequentially stacked one on top of the other in the illustrated direction. The conductive member 200 is installed between two adjacent shelves 110. In this embodiment, three conductive members 200 are provided, and four layers of the layer frame 110 are correspondingly provided. The conductive member 200 is provided with at least two terminals 210. Each terminal 210 on the conductive member 200 extends laterally beyond the mounting base 100 in a non-overlapping direction. The terminals 210 extending from the same side of the mounting base 100 are sequentially distributed from top to bottom in the stacking direction of the shelves 110. As shown in fig. 2 and 3, the conductive members 200 are in a straight shape, two terminals 210 are provided on one conductive member 200, and the two terminals 210 on the conductive member 200 of each layer are respectively oriented left and right. As shown in fig. 7, the conductive member 200 has an L-shape, and the conductive member 200 is provided with two terminals 210, so that the two terminals 210 of the conductive member 200 of each layer are directed toward the front and the left, respectively, in the illustrated direction. As shown in fig. 8, the conductive member 200 is provided with two terminals 210, and an included angle formed between the two terminals 210 is an obtuse angle, so that the two terminals 210 of the conductive member 200 of each layer face to the right and to the left rear respectively in the illustrated direction. As shown in fig. 9, the conductive member 200 is provided with three terminals 210, and the conductive member 200 has a T-shape, and the three terminals 210 face forward, left and right, respectively, in the direction shown in the drawing. The conductive member 200 may also have a Y-shape, etc. As shown in fig. 10, when four terminals 210 are disposed on the conductive member 200, the conductive member 200 may have a cross shape or an X shape, or more than 4 terminals 210 of the conductive member 200 may be disposed, so long as the terminals 210 on the same conductive member 200 are not overlapped, and have a certain included angle. The insulating sleeve 300 is provided with a plurality of passages 310, and the passages 310 are independent from each other and do not communicate with each other. Both ends of the channel 310 are open. One terminal 210 is inserted into one channel 310 to ensure that the terminals 210 on different conductive members 200 are insulated from each other. The number of the insulating sleeves 300 is determined according to the number of the terminals 210 on the conductive member 200, and the number of the channels 310 on the insulating sleeves 300 is determined according to the number of the layers of the conductive member 200. In this embodiment, the terminals 210 facing the same side are on the same straight line in the vertical direction, and the channels 310 of the insulating sleeve 300 are distributed sequentially from top to bottom and are parallel to each other. As shown in fig. 1, 2 and 5, the conductive member 200 is provided with two terminals 210, and the three layers of conductive members 200 are provided on the mounting base 100, so that three channels 310 are provided on one insulating sleeve 300, and two insulating sleeves 300 are correspondingly used. One insulating sleeve 300 is sleeved on the terminals 210 which are all facing left, and the other insulating sleeve 300 is sleeved on the terminals 210 which are all facing right. In use, the three layers of conductive elements 200 may correspond to the hot, neutral, and ground/signal lines, respectively. Electrical devices such as lamps, power boxes, etc. are docked with the insulating sleeve 300, one electrical device is connected to one insulating sleeve 300, pins 510 on the electrical device are inserted into the channels 310 to contact the terminals 210, and the electrical devices are electrically connected through the conductive members 200. The layer frame 110 and the conductive pieces 200 are sequentially installed layer by layer, the conductive pieces 200 are fixed through the layer frame 110 to form a whole, each layer frame 110 effectively separates the conductive pieces 200 of each layer, the safety performance of an electric appliance is improved, more than two electric appliances are mechanically and electrically connected by utilizing the terminals 210 on the conductive pieces 200, the whole structure is simple, and the installation and the use are very convenient.

In some embodiments, as shown in fig. 3, the conductive member 200 further includes a body portion 220. Each terminal 210 on the same conductive member 200 extends from the main body 220. The conductive member 200 is fixed between the two-layered frames 110 through the main body portion 220. As shown in fig. 3 and 4, the shelf 110 may have a cubic block structure, and a sink 111 may be disposed on an upper surface of the shelf 110 in a direction shown in the drawing, and a shape of the sink 111 is adapted to a shape of the main body 220. The main body 220 is fixed in the sinking table 111, and the other shelf 110 is pressed down from below the sinking table 111 to the upper surface of the shelf 110 with the conductive member 200 mounted thereon, thereby performing limit clamping on the upper and lower sides of the main body 220. In this embodiment, the main body 220 has a flat sheet-like structure. Correspondingly, the sinking platform 111 is of a rectangular notch structure. The main body is not provided with a plurality of right first jacks 221, and the first jacks 221 can be through hole structures. A first plug-in column 112 is provided on the shelf 110, the first plug-in column 112 preferably being arranged in the sinking platform 111. The first plug post 112 extends vertically upward, and the first plug post 112 mates with the first receptacle 221. When the main body 220 is placed on the racking 110/sinking platform 111, the first plug-in posts 112 pass through the first plug holes 221 to position and mount the main body 220 on the racking 110 in the lateral direction, and fix the main body on the racking 110 in the vertical direction through two adjacent racking 110.

The layer frames 110 may be fastened by a plurality of fastening methods, such as fastening with screws, fastening with a clamping structure, or the like. In this embodiment, as shown in fig. 3 and 4, the upper side of the shelf 110 is provided with a second plugging post 113, and the second plugging post 113 extends vertically upwards. Correspondingly, the lower side of the layer rack 110 is also provided with a second jack 114. The second jack 114 is adapted to the second socket 113. The second plug-in posts 113 on one layer rack 110 are plugged in cooperation with the second plug-in holes 114 on the adjacent layer rack 110 to mutually fix the adjacent two layer racks 110, so that quick installation is realized.

In some embodiments, the terminal 210 of the conductive member 200 is hollow and cylindrical. The axial direction of the terminal 210 is horizontal and transverse. Pins 510 on the electrical device can be plugged with terminals 210 to make mechanical and electrical connection.

In some embodiments, as shown in fig. 1, 2 and 3, each layer 110 is mounted in a top-down order, in the illustrated orientation. The two-layer frames 110 at the uppermost and lowermost sides are provided with a buckle 115. The clip 115 extends toward the protruding direction of the terminal 210. The insulating sleeve 300 is provided with a buckle position 320 which is matched with the buckle 115. After the insulating sleeve 300 is fitted over the terminal 210, the snap 115 of the shelf 110 is snapped onto the snap 320 of the insulating sleeve 300, thereby rapidly securing the insulating sleeve 300 to the mounting block 100 to complete the assembly. The assembly between shelves 110 and the installation of insulating sleeve 300 are not required to use other locking members such as screws, and the assembly is very efficient.

In some embodiments, a cover 400 is also included. The cover 400 may be assembled from an upper cover and a lower cover. The mount 100 is fixed in the cover 400. The cover 400 is provided with a plurality of plug-in ports 410, and the number of the plug-in ports 410 is determined according to the number of the terminals 210 of the conductive member 200. As shown in fig. 6, one conductive member 200 is provided with two terminals 210, and the terminals 210 of each conductive member 200 protrude from two of the lateral directions of the mount 100. Two plug interfaces 410 are correspondingly arranged on the cover body 400. The terminals 210 extend from the mounting base 100 into the plug ports 410. The insulating sleeve 300 is inserted over the terminals 210 within the plug interface 410. The shape of the socket 410 mates with the shape of the end of the external electrical device, which is inserted into the socket 410 to interface with the terminal 210. Wherein, a snap 411 is provided on the inner wall of the plug 410. The snap 411 may be used to snap to the end of the external electrical device.

The utility model also relates to a lamp assembly. The electric device is a lamp body 500, and the lamp body 500 is matched with the connector for use. As shown in fig. 11, a plurality of pins 510 are provided at the end of the lamp body 500, and the pins 510 are arranged in the same manner as the terminals 210 facing the same side. The end of the lamp body 500 may extend into the socket 410 of the cover 400, and the pins 510 extend into the channels 310 to interface with the terminals 210 one by one. As shown in fig. 12 and 13, when the connector is provided with the two-direction extension terminals 210, two lamp bodies 500 may be connected; when the terminals 210 of three directions are provided, three lamp bodies 500 may be connected. As shown in fig. 14, when four terminals 210 are provided, four lamp bodies 500 may be connected. That is, if the terminals 210 in N directions are provided, N lamp bodies 500 can be connected correspondingly. The connector can realize electrical connection while mechanically connecting the lamp bodies 500, and is very convenient to use.

While embodiments of the present utility model have been shown and described above, it will be understood that the above embodiments are illustrative and not to be construed as limiting the utility model, and that variations, modifications, alternatives and variations may be made to the above embodiments by one of ordinary skill in the art within the scope of the utility model.

Claims (10)

1. A connector, comprising:

the mounting seat (100), the mounting seat (100) comprises a plurality of shelves (110) which are sequentially connected in a laminated manner;

the conductive pieces (200) are arranged between two adjacent shelves (110), the conductive pieces (200) are provided with at least two terminals (210) respectively, the terminals (210) on the same conductive piece (200) transversely extend out of the mounting seat (100) in a non-overlapping direction, and the terminals (210) extending towards the same side are distributed in sequence along the stacking direction of the shelves (110);

the insulating sleeve (300) is provided with a plurality of independent channels (310) with two open ends, and the terminals (210) facing the same side are inserted into the channels (310) corresponding to the same insulating sleeve (300).

2. A connector as defined in claim 1, wherein: the conductive member (200) further comprises a main body portion (220), each terminal (210) extends from the main body portion (220), and the conductive member (200) is fixed on the shelf (110) through the main body portion (220).

3. A connector as claimed in claim 2, wherein: the multi-layer shelf (110) is provided with a sinking table (111) which is matched with the main body part (220) in shape, and the main body part (220) is fixed in the sinking table (111).

4. A connector according to claim 3, wherein: the main body (220) is of a flat sheet-like structure, and the terminals (210) extend horizontally from the main body (220).

5. A connector according to claim 2 or 3, wherein: a plurality of first jacks (221) are formed in the main body portion (220), first plug-in columns (112) matched with the first jacks (221) are arranged on the layer frame (110), and the first plug-in columns (112) are inserted into the first jacks (221) to position the main body portion (220) on the layer frame (110).

6. A connector as defined in claim 1, wherein: one side of the layer frame (110) is provided with a second plug-in column (113), the layer frame (110) which is positioned on the opposite side of the second plug-in column (113) is provided with a second jack (114), and two adjacent layer frames (110) are in butt joint through the second plug-in column (113) and the second jack (114).

7. A connector as defined in claim 1, wherein: the terminal (210) is hollow and cylindrical.

8. A connector as defined in claim 1, wherein: two layer frames (110) at two outermost sides are provided with buckles (115), the insulating sleeve (300) is provided with buckling positions (320) matched and clamped with the buckles (115), and the insulating sleeve (300) is mutually clamped and connected with the buckling positions (320) through the buckles (115) so as to be fixed on the mounting seat (100).

9. A connector as defined in claim 1, wherein: the novel socket comprises a socket body, and is characterized by further comprising a cover body (400), wherein the mounting seat (100) is fixed in the cover body (400), a plurality of plug interfaces (410) are arranged on the cover body (400), the insulating sleeves (300) are in one-to-one correspondence with the plug interfaces (410) and extend out of the plug interfaces (410), and elastic buckles (411) are arranged on the inner walls of the plug interfaces (410).

10. A lamp assembly, characterized in that: comprising a lamp body (500) and a connector according to any one of claims 1 to 9, wherein a plurality of pins (510) are arranged on the end of the lamp body (500), and the pins (510) are in butt joint with the terminals (210) on the same side.