CN220506614U

CN220506614U - Lamp connecting structure and assembled lamp

Info

Publication number: CN220506614U
Application number: CN202321727743.XU
Authority: CN
Inventors: 赵学亮
Original assignee: Individual
Current assignee: Individual
Priority date: 2023-07-03
Filing date: 2023-07-03
Publication date: 2024-02-20
Anticipated expiration: 2033-07-03

Abstract

The utility model discloses a lamp connecting structure and an assembled lamp, wherein the lamp connecting structure comprises a structure connecting seat, an electric connecting piece, a structure connecting piece and an electric connecting female seat, wherein the structure connecting piece is at least provided with two assembling modes relative to the structure connecting seat so as to allow two adjacent single lamps to be assembled according to the needs of users and simultaneously complete physical connection and electric connection.

Description

Lamp connecting structure and assembled lamp

Technical Field

The utility model belongs to the field of lighting equipment, and particularly relates to a lamp connecting structure and an assembled lamp.

Background

The lamp is a necessary device for household illumination and public occasion illumination, people continuously promote the requirements on aesthetic property, and the spliced lamp is widely used, however, at present, the spliced lamp needs to be physically connected by adopting a connecting structure and electrically connected by adopting a cable respectively, and the cable needs to be wired in the connecting process, so that the installation is complicated, and particularly when the lamp is installed in a high-place suspended mode, electricians install and splice the lamp in the high-place and have larger wiring difficulty.

Disclosure of Invention

The utility model aims to provide a lamp connecting structure and a spliced lamp, wherein the lamp connecting structure and the spliced lamp can be spliced and connected to be connected with a physical structure and electrically.

As a first aspect of the present utility model, there is provided a lamp connection structure, which includes an electrical connector connected to a single lamp and a structural connector detachably connected to the single lamp, and further includes a structural connection base connected to the single lamp, wherein the structural connector and the structural connection base are respectively provided with a first sliding mechanism and a second sliding mechanism, and the first sliding mechanism and the second sliding mechanism are respectively a sliding rail and a sliding groove; the sliding rail is tightly matched with the sliding groove to fasten the structural connecting piece and the structural connecting seat or fasten the structural connecting piece and the structural connecting seat, so that the first sliding mechanism and the second sliding mechanism can form a relatively stable connection relationship after being mutually assembled without causing random sliding.

At least one side wall of the electric connecting piece is provided with a first electric connecting piece, and the first electric connecting piece is electrically connected to the single lamp. Wherein, at least one side wall of the electric connector refers to at least one of the front end face and two side faces thereof.

The two opposite ends of the structural connecting piece are respectively provided with a first butt joint part and a second butt joint part, and the first butt joint part and the second butt joint part are a male plug connector and a female plug connector which can be assembled in a mutually plugging manner; the male connector is arranged to be capable of being tightly inserted into the female connector of another structural connector so as to fasten two adjacent structural connectors or fasten two adjacent structural connectors, so that a relatively stable inserted connection relationship can be formed after the male connector and the female connector are inserted, and random detachment is not caused.

According to the lamp connecting structure, the second sliding mechanism comprises four connecting columns which are square; the connecting column comprises a first column body and a second column body, wherein the second column body is connected with the structural connecting seat through the first column body, the two adjacent side edges of the second column body are respectively provided with a convex block which is convexly arranged relative to the first column body, and the convex blocks on the two adjacent connecting columns are on the same straight line to form a sliding rail, so that the structural connecting piece can be respectively slipped and assembled relative to the structural connecting seat in four directions.

Correspondingly, the first sliding mechanism comprises a sliding groove and a limiting block positioned on the bottom surface of the sliding groove.

According to the lamp connecting structure, the protruding block is arranged at the outer side edge of the second column.

According to the lamp connecting structure, the structure connecting seat is arranged on the top surface of the electric connecting piece.

According to the lamp connecting structure, the limiting blocks are at least two and are arranged corresponding to the connecting columns.

According to the lamp connecting structure, the first sliding mechanism is arranged at two sides of the bottom surface of the structural connecting piece. Preferably, the first sliding mechanism is arranged along the connecting line direction of the first butt joint part and the second butt joint part, so that the arrangement direction of the first butt joint part is the same as the sliding assembly direction of the structural connecting piece, and the assembly process is facilitated.

According to the lamp connecting structure, the first electric connecting piece is an electric connecting male head concavely arranged on the side wall of the electric connecting piece.

According to the lamp connecting structure, the lamp connecting structure further comprises an electric connection female base, and the electric connection female base is used for being connected between electric connection male heads of two adjacent single lamps so as to electrically connect the two single lamps.

According to the lamp connecting structure, the electric connection male head comprises at least two electric plug posts, and the electric connection female seat is provided with a corresponding number of electric jacks so as to be electrically connected with the electric plug posts in one-to-one correspondence.

According to the lamp connecting structure, the detachable first baffle is arranged at the position of at least one tail end of the sliding groove.

According to the lamp connecting structure, the second baffle plate which is detachably arranged is arranged at the electric connecting male head, and the plug piece is detachably arranged.

According to the lamp connecting structure, the structural connecting piece is detachably connected to the single lamp by the first butt joint part inwards, outwards or towards one of two sides of the single lamp, so that the single lamp can be slidingly assembled in one of four directions.

According to the lamp connecting structure, the electric connecting male heads are three and are respectively arranged on the front end face and the two side faces of the electric connecting piece.

As a second aspect of the present utility model, there is provided a lamp connection structure including an electrical connector connected to a single lamp and a structural connector detachably connected to the single lamp; the electric connector further comprises a structure connecting seat arranged on the top surface of the electric connector, wherein a first sliding mechanism and a second sliding mechanism are respectively arranged on the structure connecting piece and the structure connecting seat, and the first sliding mechanism and the second sliding mechanism are respectively a sliding rail and a sliding groove; the sliding rail is tightly matched with the sliding groove to fasten the structural connecting piece and the structural connecting seat or fasten the structural connecting piece and the structural connecting seat, so that the first sliding mechanism and the second sliding mechanism can form a relatively stable connection relationship after being mutually assembled without causing random sliding.

The two opposite ends of the structural connecting piece are respectively provided with a first butt joint part and a second butt joint part, the first butt joint part and the second butt joint part are a male plug-in piece and a female plug-in piece which can be assembled in a mutually plugging manner, the male plug-in piece is arranged in the female plug-in piece of the other structural connecting piece in a tightly fitting manner so as to fasten two adjacent structural connecting pieces or fasten the two adjacent structural connecting pieces, and therefore a relatively stable plugging connection relationship can be formed after the male plug-in piece and the female plug-in piece are plugged, and random separation is avoided.

The first butt joint portion and the second butt joint portion are respectively provided with a first electric connecting piece and a second electric connecting piece, the structural connecting seat and the bottom surface of the structural connecting piece are respectively provided with a first electric connecting portion and a second electric connecting portion, and the first electric connecting portion is electrically connected to the single lamp.

According to the lamp connecting structure, the second sliding mechanism comprises four connecting columns which are square; the connecting column comprises a first column body and a second column body, the second column body is connected with the structural connecting seat through the first column body, the two adjacent side edges of the second column body are respectively provided with a convex block which is convexly arranged relative to the first column body, and the convex blocks on the two adjacent connecting columns are on the same straight line to form a sliding rail.

According to the lamp connecting structure, the first sliding mechanism comprises a sliding groove and a limiting block positioned on the bottom surface of the sliding groove.

According to the lamp connecting structure, the limiting blocks are at least two and are arranged corresponding to the connecting columns, and the first sliding mechanism is arranged at two sides of the bottom surface of the structural connecting piece.

According to the lamp connecting structure, the first electricity receiving part comprises at least two first contacts arranged along a 45-degree line, and the second electricity receiving part comprises at least four second contacts arranged at the top point or the center point of the square along the array, so that the first electricity receiving part and the second electricity receiving part can be contacted to be electrically connected when the structural connecting piece is assembled along four mutually perpendicular directions relative to the structural connecting seat. Wherein, when having two first contacts, the second electrical connection portion includes four second contacts and is disposed at four vertices of a square along an array, respectively, so as to allow assembly and electrical connection from four directions; when three first contacts are provided, the second power receiving portion includes five second contacts and is disposed at four vertexes and at a center point of a square along an array, respectively, so as to allow fitting and electrical connection from four directions; and so on. For example, when four sets of contacts are provided, 16 second contacts are arranged in an array at equal intervals according to 4*4, and 4 first contacts are correspondingly and equally arranged along 45 DEG lines, so that the contacts can be respectively butted in four directions to be connected with electricity; five sets of contacts may then be provided with 1 second contact at the centre point of the array on the basis of the above.

Preferably, the first contact is fixedly arranged or telescopically arranged on the top surface of the structure connecting seat, and the second contact is an electric contact concave point, a conductive piece arranged on the bottom surface of the structure connecting piece or a conductive piece arranged in the slot hole.

According to the lamp connecting structure, the electric connection male head comprises three electric jacks, the electric connection female seat comprises three electric jacks, the first electric connection part comprises three first contacts, the second electric connection part comprises five second contacts and is respectively arranged at the top point and the center point of the square, the electric connection male head comprises three electric jacks, the electric connection female seat comprises three electric jacks, the five second contacts are divided into three groups, and the electric jacks are also divided into three groups and are respectively and correspondingly electrically connected with the three groups of second contacts.

According to the lamp connecting structure, the structural connecting piece is detachably connected to the single lamp by the first butt joint part inwards, outwards or towards one of two sides of the single lamp.

As a third aspect of the present utility model, there is provided a lamp connection structure including:

The structure connecting seat is arranged on the single lamp;

the electric connecting piece is arranged on the single lamp and is electrically connected with at least one electric connecting male head;

the structure connecting piece is detachably connected to the structure connecting seat; and, a step of, in the first embodiment,

the electric connection female base is used for being connected between electric connection male heads of two adjacent single lamps so as to electrically connect the two adjacent single lamps.

The structure connecting piece is assembled on the structure connecting seat in a sliding mode or is removed from the structure connecting seat in a sliding mode, wherein the structure connecting piece has at least two sliding assembling modes relative to the structure connecting seat so as to allow the adjacent two single lamps to be assembled in a straight line or vertically.

According to the lamp connecting structure, the structure connecting piece and the structure connecting seat are respectively provided with the first sliding mechanism and the second sliding mechanism, the first sliding mechanism and the second sliding mechanism are respectively a sliding rail and a sliding groove, the sliding rail and the sliding groove are tightly matched with each other so as to fasten the structure connecting piece and the structure connecting seat or fasten the structure connecting piece and the structure connecting seat, and therefore the first sliding mechanism and the second sliding mechanism can form a relatively stable connection relationship after being mutually assembled without random sliding.

Preferably, the two opposite ends of the structural connector are respectively provided with a first butt joint part and a second butt joint part, the first butt joint part and the second butt joint part are a male connector and a female connector which can be assembled in a mutually plugging manner, the male connector is arranged in the female connector of the other structural connector in a tightly fitting manner so as to fasten two adjacent structural connectors or fasten the two adjacent structural connectors, and therefore a relatively stable plugging connection relationship can be formed after the male connector and the female connector are plugged, and random detachment is not caused.

According to the lamp connecting structure, the second sliding mechanism is composed of at least four connecting columns, and the four connecting columns are square; the connecting column comprises a first column body and a second column body, the second column body is connected with the structural connecting seat through the first column body, the two adjacent side edges of the second column body are respectively provided with a convex block which is convexly arranged relative to the first column body, and the convex blocks on the two adjacent connecting columns are on the same straight line to form a sliding rail.

Preferably, the first sliding mechanism comprises a sliding groove and a limiting block positioned on the bottom surface of the sliding groove.

According to the lamp connecting structure, the protruding blocks are arranged at the outer side edges of the second columns, the structural connecting seats are arranged on the top surfaces of the electric connecting pieces, the limiting blocks are at least two and correspond to the connecting columns, and the first sliding distribution mechanisms are arranged at the two sides of the bottom surfaces of the structural connecting pieces.

According to the lamp connecting structure, the electric connecting piece is integrated on the single lamp, the structural connecting seat is integrated on the top surface of the electric connecting piece, the electric connecting male heads are three and are respectively arranged on the front end surface and the two side surfaces of the electric connecting piece, and the electric connecting female seats are connected between the electric connecting male heads of the two adjacent single lamps so as to electrically connect the two adjacent single lamps.

According to the lamp connecting structure, the electric connection male head is integrated in the second butt joint part, the electric connection female seat is integrated in the first butt joint part, a first electric connection part and a second electric connection part are respectively arranged on the structural connection seat and the bottom surface of the structural connection piece, and the first electric connection part is electrically connected to the single lamp; the electric connection female socket comprises three electric jacks, the first electric connection part comprises three first contacts, the second electric connection part comprises five second contacts and is respectively arranged at the top point and the center point of the square, the electric connection male socket comprises three electric jacks, the five second contacts are divided into three groups, and the electric jacks are also divided into three groups and are respectively and correspondingly electrically connected with the three groups of second contacts.

As a fourth aspect of the present utility model, there is provided an assembled lamp, including at least two single lamps, wherein two adjacent single lamps are assembled and connected with each other in physical structure by a structural connector of the lamp connecting structure, and are electrically connected with an electrical connection male head by the electrical connection female seat; after assembly, two adjacent single lamps are mutually perpendicular or are arranged along a straight line.

As a fifth aspect of the present utility model, there is provided a split mounting type lamp, including at least two single lamps, wherein two adjacent single lamps are tightly connected to each other by the first butt joint portion and the second butt joint portion of the lamp connection structure, so as to be assembled and connected and electrically connected to each other structurally.

According to the assembled lamp, the assembled lamp further comprises a fixing frame and a driving power supply, at least one single lamp is fixed on the fixing frame, and at least one single lamp is electrically connected with the driving power supply to be powered by the driving power supply.

According to the assembled lamp, the fixing frame is rectangular, fixing pieces are arranged at two ends of the driving power supply and are clamped on the T-shaped pieces of the fixing frame; the fixing piece comprises a first bending piece, a second bending piece and a third bending piece, wherein the first bending piece, the second bending piece and the third bending piece are integrally formed and formed through bending, the first bending piece is perpendicular to the second bending piece, and the second bending piece is perpendicular to the third bending piece; the third bending piece is positioned at the side edge of the second bending piece to be clamped at the lower part of the T-shaped piece so as to fix the driving power supply to the fixing frame.

According to the assembled lamp, the first bending piece is further provided with the second through hole, and the fastener passes through the second through hole and then abuts against the inner wall of the T-shaped piece so as to fix the fixing piece to the T-shaped piece; the fastening piece comprises a first fastening part and a second fastening part, wherein the second fastening part passes through the second through hole and then acts on the inner wall of the T-shaped piece; the first fastening portion is fastened to the first bending piece to be formed in an assembled locked state.

According to the assembled lamp, the assembled lamp further comprises a fixing frame, and the single lamp is fixed to the lower connecting end of the fixing frame through the lamp connecting piece.

According to the assembled lamp, the lamp connecting piece comprises the buckling piece, the first clamping piece, the second clamping piece and the pin, the first clamping piece and the second clamping piece are connected through the pin to form the clamping piece capable of being clamped to the lower connecting end, and the buckling piece is arranged above the clamping piece and is provided with the first connecting piece at two ends respectively for connecting the single lamp.

According to the assembly type lamp, the first clamping piece comprises a first clamping main body and first clamping ends which are arranged along one side of the first clamping main body in a bending manner, and two first clamping ends are formed to form a first gap; the second clamping piece comprises a second clamping main body and second clamping ends which are arranged at the other side of the second clamping main body in a bending way, and two second clamping ends are formed into a second gap; the second clamping end and the first clamping end are assembled in opposite directions and fixedly connected with each other through the pin, the buckling piece is arranged along the first notch and the second notch, and the first clamping end and the second clamping end are respectively buckled and connected along two sides of the lower connecting end.

The lamp connecting structure and the assembled lamp can adjust the assembly mode of the structural connecting piece on the single lamp according to the requirement, so that the structural connection between two adjacent single lamps can be realized, and the electric connection between the two adjacent single lamps can be synchronously completed by matching with the electric connection female seat additionally arranged or integrally arranged, so that the connection and the installation of the lamps can be conveniently completed. And, the final assembled luminaire shape may allow the installer to set as desired, including but not limited to straight, L-shaped, T-shaped, frame-shaped, figure-8, etc.

In addition, the utility model also provides a driving power supply fixing structure easy to install and a hanging structure of the single lamp, so that the installation operation can be further simplified.

Drawings

Fig. 1 is a schematic structural diagram of a single lamp according to a first embodiment of the present utility model;

FIG. 2 is an exploded view of the embodiment of FIG. 1;

FIG. 3 is a schematic bottom view of the structural connector of the embodiment of FIG. 1;

FIG. 4 is an exploded view of the embodiment of FIG. 2 showing one end of a single lamp;

fig. 5 is a schematic view illustrating a partial structural exploded view of a single lamp according to a second embodiment of the present utility model;

FIG. 6 is a schematic diagram of the operation of step one in assembly case one;

FIG. 7 is a schematic diagram of the operation of step two in the first assembly case;

FIG. 8 is a schematic diagram of the operation of step three in the assembly case one;

FIG. 9 is a schematic diagram of the operation of step four in the assembly case one;

FIG. 10 is a schematic view of the assembly effect of the first assembly case;

FIG. 11 is a schematic diagram of the operation of step one in assembly case two;

FIG. 12 is a schematic diagram of the operation of step two in assembly case two;

FIG. 13 is a schematic diagram of the operation of step three in assembly case two;

FIG. 14 is a schematic diagram of the operation of step four in assembly case two;

FIG. 15 is a schematic view of the assembly effect of the second assembly case;

FIG. 16 is a schematic illustration of the operation of step four of the assembly case three;

FIG. 17 is a schematic view of the assembly effect of assembly case three;

FIG. 18 is a schematic diagram of the operation of step four in the fourth assembly case;

FIG. 19 is a schematic view of the assembly effect of the fourth assembly case;

fig. 20 is a schematic view of the installation effect of the lamp of the fourth embodiment;

FIG. 21 is an enlarged schematic view of the structure at A in FIG. 20;

FIG. 22 is a schematic cross-sectional view of the front structure at A in FIG. 20;

FIG. 23 is an enlarged schematic view of the structure at B in FIG. 20;

FIG. 24 is a schematic view of the lamp attachment of FIG. 23;

FIG. 25 is an exploded schematic view of the lamp attachment of FIG. 24;

FIG. 26 is a cross-sectional view of the light fixture attachment of FIG. 24;

fig. 27 is a schematic structural diagram of a single lamp in a fifth embodiment of the present utility model, which is a schematic structural diagram in an initial state;

FIG. 28 is a schematic view of the fifth embodiment of FIG. 27 showing the disassembly of the structural connector;

FIG. 29 is a schematic view of a first assembly of the structural connector of FIG. 27;

FIG. 30 is a schematic illustration of a second assembly of the structural connector of FIG. 27;

FIG. 31 is a schematic view of a third embodiment of the structural connector of FIG. 27;

FIG. 32 is a schematic bottom view of the structural connector of FIG. 27;

FIG. 33 is a schematic top view of the unitary lamp of FIG. 27;

FIG. 34 is a schematic exploded view of a unitary lamp according to a sixth embodiment of the present utility model;

FIG. 35 is a top and bottom view of the structural connector of the sixth embodiment of FIG. 34;

FIG. 36 is a bottom elevational view of the structural connector of FIG. 35;

FIG. 37 is a schematic top view of the single lamp of FIG. 34;

fig. 38 is a bottom elevation view of a structural connector in accordance with a seventh embodiment of the present utility model.

Wherein, the single lamp 10, the fixing frame 20, the T-shaped piece 211, the driving power source 30, the power line 301,

structural connector 11, electrical connector 12, structural connector socket 13, electrical connector socket 14,

A first sliding mechanism 110, a first abutting part 111, a second abutting part 112, a first baffle plate 113, a chute 114, a limiting block 115, a first through hole 116,

a second baffle 121, a connector cap 122, a connector body 123, an electrical plug 124, an electrical connector pin 125,

a second slip fit mechanism 130, a connecting post 131, a first post 132, a second post 133, a bump 134,

the fixing member 31, the first bending member 311, the second bending member 312, and the third bending member 313, the first fastening portion 321, the second fastening portion 322,

tool 100, top groove 101, wire 102.

The lamp connector 210, the lower connector 212, the first connector 201, the second connector 202,

the fastening member 21, the first fastening member 22, the second fastening member 23, the pin 24,

a first engaging body 221, a first engaging end 222, a first notch 223, a fixing through hole 224,

the second engaging body 231, the second engaging end 232, the second notch 233, the elongated through hole 234.

Detailed Description

The following description of the embodiments of the present utility model is given by way of example with reference to the accompanying drawings, in order to facilitate understanding of the technical content of the present utility model.

Example 1

The single lamp 10 is provided with lamp connecting structures at two ends respectively so that at least two single lamps can be mutually assembled to form an assembled lamp with various shapes. The shape of the assembled lamp formed after assembly is not limited, and can be changed correspondingly according to different assembly modes, such as a linear type, a T type, a frame type and the like.

As shown in fig. 1, the lamp connection structure includes a structural connector 11 detachably fitted at an end of the unit lamp 10, and an electrical connector 12 also located at an end of the unit lamp 10; wherein: the structural connector 11 is used for structurally connecting two adjacent single lamps 10 with each other to form a whole structure, and the electrical connector 12 is used for mutually and electrically connecting two adjacent single lamps 10 to enable power supply or electrical signals to be transmitted between the single lamps 10.

In the utility model, the lamp connecting structure is assembled in at least two modes, so that the aim of changing the assembling mode according to different use scenes or customer requirements can be fulfilled, and the lamp connecting structure is advantageous.

As shown in fig. 1, in the present utility model, two ends of each single lamp 10 are provided with a structural connector 11 and an electrical connector 12, and one or two of them can be used as required when a user assembles the lamp.

In some embodiments, the structural and electrical connectors 11, 12 are assembled at the end of the single-piece luminaire 10 at the factory, so that a complete single-piece luminaire 10 as shown in fig. 1 can be formed. Of course, in other embodiments, the structural connector 11 or the electrical connector 12 may be packaged separately from the single lamp 10, and may be connected to the single lamp 10 only when assembled by the user.

As shown in fig. 2, in one embodiment, the electrical connector 12 is integrated at an end of the single-body lamp 10, and a structural connection socket 13 for the structural connector 11 is further formed on the electrical connector 12. The structural connector 11 is slidably mounted to or removed from the structural connector seat 13. Of course, in other embodiments, other detachable structures, such as a snap-fit structure or a screw-fastening structure, may be provided between the structural connector 11 and the structural connector base 13, which also achieves the purpose of detachably fastening the structural connector 11 to the structural connector base 13.

In this embodiment, the opposite ends of the structural connector 11 are respectively provided with a first abutting portion 111 and a second abutting portion 112, which are a set of male connectors and female connectors that are mutually inserted and matched, and the male connector of one structural connector 11 can be mutually inserted with the female connector of the other structural connector 11 so as to physically connect the two structural connectors 11 together. Since the two structural connectors 11 are respectively fixed on one single lamp 10, the two adjacent single lamps 10 can be connected together through the two structural connectors 11 to form the assembly shape required by a user. The male plug connector and the female plug connector are plug connectors and plug grooves respectively, and the external dimension of the plug connectors is slightly larger than the internal dimension of the plug grooves, so that the plug connectors are tightly plugged in the plug grooves.

As shown in fig. 1, the single lamp 10 is provided with a top groove 101 for accommodating therein a first docking portion 111 of the structural connector 11 in an initial factory state; and, the top groove 101 may also be used to accommodate a wire 102, where the wire 102 is used to electrically connect the single lamp 10 with the output end of the power driver 30 when needed.

Therefore, the structural design can make the single lamp 10 have relatively regular shapes in all directions, the first butt joint part 111 protruding from the single lamp 10 is not formed into a shape protruding from the edge of the single lamp 10 when the single lamp is shipped from the factory due to the arrangement of the structural connecting piece 11, and meanwhile, the defect that the first butt joint part 111 of the single lamp 10 is easy to damage when protruding from the edge of the single lamp is avoided, so that the single lamp is favorable for packaging and transportation of products. Of course, if the structural connector 11 and the single lamp 10 are packaged separately at the time of shipment, this problem can be solved, but the product packaging is complicated, which is disadvantageous in cost control.

Preferably, concave structures are correspondingly arranged at two ends of the single lamp 10 for accommodating the structural connecting pieces 11, so that the structural connecting pieces 11 are assembled at the ends of the single lamp 10 when leaving the factory to form a regular-shaped lamp strip together with the single lamp 10, and the packaging size and volume of the product can be reduced. Optimally, the light bar formed after the structural connector 11 is assembled to the end of the single-body luminaire 10 is in the shape of a cube, a cylinder, or a shape obtained by simply changing the two shapes.

In this embodiment, in order to enable the structural connector 11 and the single lamp 10 to be assembled or removed in a sliding manner, the first sliding mechanism 110 and the second sliding mechanism 130 are respectively disposed on the structural connector 11 and the single lamp 10, so as to achieve the purpose of assembling together or separating and removing by relative sliding displacement between the two.

As shown in fig. 3, the two sides of the bottom surfaces of the structural connecting piece 11 and the bottom surface are respectively provided with a first sliding mechanism 110, and the first sliding mechanism 110 is formed by a chute 114 and two limiting blocks 115 positioned on the bottom surface of the chute 114; a removable first blocking piece 113 is provided at the end of the chute 114 near one side of the second abutting portion 112, and a free structure is provided at the other end (i.e., near one side of the first abutting portion 111), so that the structural connector 11 can be assembled without removing the first blocking piece 113 when assembled in two different directions of the first abutting portion 111 toward the top groove 101 and perpendicular to the top groove 101, and the first blocking piece 113 needs to be removed in advance when the first abutting portion 111 is assembled in a direction away from the top groove 101.

Correspondingly, the end of the single lamp 10 is provided with a structural connecting seat 13, the structural connecting seat 13 comprises four connecting posts 131 arranged in a square shape, the four connecting posts are respectively positioned at four vertexes of the square shape, and the size of the square shape is matched with the size between the two sliding grooves 114.

In this embodiment, the connecting posts 131 include a first post 132 and a second post 133 that are adjacently disposed, and the second post 133 is formed as a protrusion 134 with respect to the first post 132 in two directions of the outer side, and two protrusions 134 on the adjacent two connecting posts 131 on the same line are formed as the main functional structure of the second sliding mechanism 130. Therefore, the post-slip fitting projection 134 slides in the slide groove 114 and is restrained by the stopper 115 in the up-down direction, so that the structural connector 11 appears to be slidably disposed in a straight direction (i.e., the slide groove 114 direction) with respect to the single lamp 10.

Preferably, the protrusion 134 and the chute 114 are also disposed in a sliding fit relationship, so that the structural connector 11 can be locked by a tight fit with respect to the single lamp 10. For this purpose, the outer dimensions of the projection 134 can be set to be slightly larger than the inner dimensions of the slide groove 114, in whole or in part, so that a tight locking of both can be achieved.

As shown in fig. 4, in the present embodiment, the electrical connector 12 includes a connector body 123 integrally formed on the single lamp 10 and a connector cover 122 fastened on the connector body 123, and an electrical connection structure is formed in a cavity between the connector body 123 and the connector cover 122, and the electrical connection structure includes electrical plugs 124 respectively disposed at an outer end and two sides thereof, so that the electrical connection structure can be electrically connected in three different directions.

In this embodiment, the connecting post 131 is integrally formed on the top surface of the connecting seat cover 122 to form the second sliding mechanism 130. And, second blocking pieces 121 are detachably arranged on the outer end of the connecting seat cover 122 and the end surfaces at the two sides respectively, the second blocking pieces 121 are used for blocking the electric plug posts 124, and when the electric plug posts 124 are required to be electrically connected, the electric plug posts 124 can be exposed for power supply connection by removing the corresponding second blocking pieces 121.

In the present embodiment, the lamp connecting structure further includes an electrical connection socket 14 that can be inserted between the electrical plug posts 124 of two adjacent single lamps 10 to perform electrical connection, and two ends of the electrical connection socket 14 are respectively provided with an electrical jack 141 for inserting the electrical plug posts 124 therein to perform electrical connection.

Wherein, the outer end and two sides of the electrical connector 12 are respectively provided with an electrical connection male head 125, two ends of the electrical connection female base 14 are respectively formed into electrical connection female heads, and after the adjacent single lamps 10 are mutually assembled, the electrical connection female base 14 is accommodated in the electrical connection male heads 125 of the adjacent single lamps 10. Optimally, after the adjacent single lamps 10 are assembled and connected with each other, the electric connection female base 14 is completely contained in the two electric connection male heads 125, so that the two single lamps 10 are contacted with each other to be clung to each other, and the assembled lamp strip is minimum in size and compact in structure.

As shown in fig. 3, a first through hole 116 is further provided on the top surface of the structural connector 11 at a position corresponding to the sliding groove 114 to allow a user to operate the connection post 131 through the first through hole 116 when the structural connector 11 needs to be detached.

Example two

A lamp connection structure, which is substantially the same as the first embodiment, is different in that: in this embodiment, the electrical connector 12 does not have an integrally formed, removable second blocking piece 121 at the electrical connector male 125, but uses a plug 126, and the plug 126 is preferably made of a soft material such as silicone.

In the initial state, the plug 126 is plugged at the electrical connection male 125 to shield the electrical plug 124 located in the electrical connection male 125.

When the corresponding electrical connection male connector 125 needs to be connected, the plug 126 is removed to expose the electrical connection male connector 125, so that the electrical connection female socket 14 can be plugged into the electrical connection male connector 125 of the adjacent single lamp 10, and the electrical connection of the adjacent single lamp 10 is realized.

Example III

The lamp connection structure is the same as that of the first embodiment, but is different from the first embodiment in that it is applied as a part of the single lamp 10, and is a separate structure.

Assembly case one

As shown in fig. 6-10, at least two individual lamps 10 are assembled end to end. The assembly process comprises the following steps:

1. as shown in fig. 6, a user removes the second tab 121 at the outer end of the electrical connector 12 using the tool 100 to place the electrical posts 124 within the electrical connector male 125 in a dockable state. Of course, it is also possible to remove the second flap 121 manually.

2. As shown in fig. 7, the structural connector 11 is slid out in the outer end direction and the first flap 113 is removed with the tool 100 or by hand.

3. As shown in fig. 8, the structural connector 11 is turned 180 ° and then slides inwards in such a way that the second abutting portion 112 faces inwards and the first abutting portion 111 faces outwards to be assembled to the structural connector seat 13; meanwhile, the electric connection female socket 14 is inserted into the electric connection male head 125, so that the end of the single lamp 10 is in a butt-joint state.

4. As shown in fig. 9, two adjacent single lamps 10 are spliced with each other in an inserted manner. As shown in fig. 9, the left end of the single lamp 10 on the left side is in an initial state, the right end of the single lamp 10 on the left side is in the state to be inserted after the adjustment, that is, is formed as an inserted male end, and both the left and right ends of the single lamp 10 on the right side are in an initial state, that is, are formed as inserted female ends.

5. As shown in fig. 10, the assembled light bar after insertion is shown. Of course, the first assembling manner may include more single lamps 10 besides two single lamps 110 as shown in fig. 10, and the operation process thereof may be repeated by the steps one to four, which will not be described again.

Assembly case two

As shown in fig. 11-15, at least two individual lamps 10 are assembled in a mutually perpendicular manner. The assembly process is generally similar to the assembly case one, but with a different detail location. In particular the number of the elements,

in step one, the second blocking piece 121 at one side of the electrical connector 12 is removed.

In the second step, the first blocking piece 113 is not removed.

In the third step, the structural connector 11 is assembled to the structural connector holder 13 after being rotated by 90 ° to be formed into a dockable state.

In step four, two adjacent single lamps 10 are vertically inserted.

Finally, the assembled light bar is shown in fig. 15.

Of course, in other embodiments, the linear assembly of the first assembly case may be further applied to the present case to extend the length of the light bar. Or, the vertical assembly mode in the present assembly case is reused to vertically assemble another single lamp 10 at the end of one single lamp 10 to form a U-shaped light bar.

Assembly case III

As shown in fig. 16-17, at least three individual light fixtures 10 are assembled in an adjacent vertical fashion. The assembly process is generally similar to the first and second assembly cases, but with the details being different. In particular the number of the elements,

one of the three single lamps 10 is adjusted to the setting state of the structural connecting piece 11 in the first mode of the assembly case, the other single lamp 10 is adjusted to the setting state of the structural connecting piece 11 in the second mode of the assembly case, and the third single lamp 10 is not adjusted.

Finally, the three single lamps 10 are assembled and butted in an inserting mode shown in fig. 16 to form an assembled state shown in fig. 17.

Of course, each single lamp 10 can be further assembled in a prolonged manner according to the assembly case.

Assembly case four

As shown in fig. 18-19, at least four individual lamps 10 are assembled in a mutually perpendicular manner between adjacent ones. The assembly process is approximately similar to that of the second assembly case, one end of each single lamp 10 is adjusted in a matching state according to the adjustment mode shown by the second assembly case, and the other end of each single lamp maintains an initial state; and then the four single lamps 10 are assembled around the head and the tail to form the square assembled lamp strip.

Of course, in the present assembly case, each single lamp 10 may be further assembled in a prolonged manner according to the first assembly case, and then assembled in a square manner as shown in fig. 18.

Because the four single lamps 10 are formed into a ring-shaped structure after being connected end to end, the electric connection socket 14 between two single lamps 10 can be omitted from unsafe condition in consideration of circuit safety. In other words, in the present embodiment, the adjacent individual lamps 10 are physically connected to each other by the four structural connectors 11, and the electrical connection female sockets 14 are provided at three connection points to achieve the electrical connection.

Example IV

As shown in fig. 20-26, an assembled lamp comprises a fixing frame 20, a driving power supply 30 and four single lamps 10, wherein the four single lamps 10 are assembled to form square lamp strips according to the structure described in the first embodiment and the assembling mode of the fourth assembly case.

Wherein each individual lamp 10 is fixed to a fixing frame 20, and the fixing frame 20 is connected to a building fixture such as a roof through a hanging structure. The driving power supply 30 may have a step-down and rectifying function, which is connected to an ac power source via a power line 301 on the one hand, and is electrically connected to the at least one individual lamp 10 on the other hand to supply power thereto.

As shown in fig. 20, the fixing frame 20 has a square shape, and its size matches that of the single lamp 10.

As shown in fig. 21-22, the two ends of the driving power supply 30 are provided with fixing members 31, and the fixing members 31 are engaged with the T-shaped members 211 of the fixing frame 20. The fixing member 31 includes a first bending member 311, a second bending member 312, and a third bending member 313, wherein the first bending member 311, the second bending member 312, and the third bending member 313 are integrally formed and formed by bending, the first bending member 311 is perpendicular to the second bending member 312, and the second bending member 312 is perpendicular to the third bending member 313; and, the third bending piece 313 is also located at a side of the second bending piece 312.

After the fixing members 31 at both ends of the driving power source 30 are assembled to the two T-pieces 211, the second bending member 312 is located at the outer side of the T-pieces 211. The fixing member 31 may be appropriately deformed during the assembly process to complete the assembly.

The first bending member 311 is further provided with a second through hole 314, the fastening member 32 passes through the second through hole 314 and abuts against the inner wall of the T-shaped member 211, so as to achieve the purpose of fixing the fixing member 31 to the T-shaped member 211, and the third bending member 313 and the T-shaped member 211 interact to limit. The fastener 32 includes a first fastening portion 321 and a second fastening portion 322, wherein the second fastening portion 322 acts on the inner wall of the T-shaped member 211 after passing through the second through hole 314, and the first fastening portion 321 is fastened to the first bending member 311 by a screw to form an assembled locking state as shown in fig. 22.

As shown in fig. 23-26, in the present embodiment, the single lamp 10 is fixedly connected to the mount 20, more specifically, to the lower connection end 212 of the mount 20 via the lamp connector 210. The lamp connector 210 is formed with a first connector 201 capable of being engaged and fixed in the top groove 101 of the single lamp 10, and a second connector 202 capable of being engaged and connected to the lower connector 212, so as to achieve the purpose of fixedly connecting the single lamp 10 to the fixing frame 20.

As shown in fig. 24-25, the lamp connector 210 specifically includes a fastener 21, a first engaging member 22, a second engaging member 23, and a pin 24. The first engaging member 22 and the second engaging member 23 are connected by a pin 24 to form an engaging member that can be engaged with the lower connecting end 212 of the fixing frame 20, and the engaging member 21 is located above the engaging member to be supported by the engaging member and is formed into a first connecting member 201 at two ends thereof, respectively, for connecting the single lamp 10 thereto.

In this embodiment, the length direction of the fastening member 21 is perpendicular to the length direction of the fastening member, the first connecting member 201 is located at two ends of the fastening member 21 in the length direction, the fastening member is formed with the second connecting members 202 at two sides of the fastening member in the length direction, and the fastening member is provided with a notch at a middle position of the fastening member in the length direction for the fastening member 21 to be disposed.

As shown in fig. 25, the fastener 21 includes a fastener body 213 provided along a longitudinal direction thereof, and first bending portions 214 formed by bending both ends of the fastener body 213 toward the same side, respectively, the first bending portions 214 being configured to form the first connecting member 201. The first engaging member 22 and the second engaging member 23 are formed in a laterally symmetrical structure, and are assembled together from both sides to form the engaging member.

The first engaging member 22 includes a first engaging body 221 and a first engaging end 222 bent along one side of the first engaging body 221, wherein the first engaging ends 222 are two and form a first gap 223 therebetween; the second engaging member 23 includes a second engaging body 231 and second engaging ends 232 bent at the other side of the second engaging body 231, and two second engaging ends 232 are formed with a second notch 233 therebetween. The second engaging end 232 and the first engaging end 222 are disposed in opposite directions, so that the first engaging member 22 and the second engaging member 23 are assembled and located on two sides respectively. The first notch 223 corresponds to the second notch 233 so as to be formed into which the fastener 21 can be received so as to be formed into a vertical assembly relationship as shown in FIG. 24.

Preferably, the second engaging body 231 of the second engaging member 23 is further provided with an elongated through hole 234 disposed along the left and right directions, the first engaging body 221 of the first engaging member 22 is provided with a fixing through hole 224 for the pin 24 to be screwed therein, the pin 24 passes through the elongated through hole 234 after assembly and is screwed with the fixing through hole 224, and the cap of the pin 24 acts on the second engaging body 231 to fix the second engaging member 23 and the first engaging member 22 relatively. When the lower connection ends 212 with different widths need to be matched, the pin 24 can move in the elongated through hole 234 to finally adjust the relative distance between the first clamping end 222 of the first clamping member 22 and the second clamping end 232 of the second clamping member 23, so as to match the width of the lower connection end 212 and respectively fasten and connect along two sides of the lower connection end 212.

In the present embodiment, the first engaging member 22 and the second engaging member 23 are assembled from both sides to form an engaging member, so that the engaging member is better assembled to the lower connecting end 212 of the fixing frame 20. Since the unit lamp 10 is carried entirely by the second connector 202, the second connector 202 is provided with a suitable degree of freedom to allow it to be assembled to the lower connector end 212 by deforming the second connector 202 open, which is possible for assembly but which may lead to possible detachment after assembly, which is disadvantageous for later use. In this embodiment, the first engaging member 22 and the second engaging members 23, 222 and 232 are configured to be relatively fixed, and are fixed by the pins 24 after being assembled from two sides, so as to meet the requirements of the assembling process and the connection firmness after being assembled.

A cross-sectional view of the assembled luminaire connection 210 is shown in fig. 26. The lamp connector 210 is fixed to the lower connecting end 212, and then the single lamp 10 is clamped to the two first connectors 201 of the lamp connector 210 through the top groove 101, so as to complete the fixation of the single lamp 10.

In the present embodiment, the assembly connection relationship of adjacent single lamps 10 is the same as that of the first embodiment.

Example five

As shown in fig. 27-33, a single lamp 10 has a similar main structure as the embodiment, except that: in the present embodiment, the structural connector 11 has a circuit connection function in addition to the physical structural function in the first embodiment. For this purpose, the first docking portion 111 and the second docking portion 112 of the structural connector 11 are respectively provided with a circuit connection structure, so that the first docking portion 111 of one single lamp 10 and the second docking portion 112 of the adjacent other single lamp 10 can simultaneously realize the functions of physical connection and circuit connection.

As shown in fig. 28 and 33, the electrical connector 12 is still located at the end of the single-body lamp 10 and has the structural connector base 13 integrated thereon, and a first electrical connection 151 is further provided on the top surface of the electrical connector 12.

As shown in fig. 32, a second electrical connection portion 153 is provided on the bottom surface of the structural connector 11, and the second electrical connection portion 153 is configured to be provided in correspondence with the first electrical connection portion 151 so as to conduct electricity between the electrical connector 12 and the structural connector 11 through electrical contact between the first electrical connection portion 151 and the second electrical connection portion 153.

As shown in fig. 29, a plurality of electrical posts 124 are disposed within the second docking portion 112; as shown in fig. 31, the second docking portion 112 is correspondingly provided with an electric jack 141, so that the second docking portion 112 is formed to function similarly to the electric connection socket 14 in the first embodiment.

In this embodiment, since the electrical connection is integrated on the structural connector 11, the electrical connector 12 does not need to be provided with the electrical connection male head 125 with the electrical plug 124 therein and the second blocking piece 121 for initially blocking the electrical connection male head 125, so that the single-body lamp 10 of this embodiment is more convenient in use, and the number of operation steps can be reduced.

As shown in fig. 28-31, the structural connector 11 may be assembled along four different directions with respect to the structural connector base 13, and considering the effect of physical connection and electrical connection in all the four states, the first electrical connection portion 151 is configured by using a plurality of first contacts 152 arranged in an array, and the second electrical connection portion 153 is configured by using a plurality of second contacts 154 having a corresponding array layout, so that in any of the above-mentioned assembling modes, each first contact 152 can be contacted with a corresponding second contact 154 to be electrically connected.

As an example, in the present embodiment, there are three electric sockets 124, the first contacts 152 have three corresponding ones and are disposed along 45 ° oblique lines, and the second contacts 154 have five corresponding ones and are disposed at four vertices and center points of a square, respectively, so that each first contact 152 can be electrically connected to the corresponding second contact 154 in any state. Of course, if the number of electric studs 124 is reduced to two, or increased to four, five or more, it may be correspondingly matched in the same manner.

In this embodiment, the first contact 152 is an electrical contact pin movably disposed in a telescopic manner, and the second contact 154 is an electrical contact recess concavely formed on the bottom surface of the structural connector 11. The first contacts 152 are compressed and retracted during assembly of the structural connector 11, and the first contacts 152 snap into corresponding second contacts 154 and are electrically connected after assembly in place.

Example six

As shown in fig. 34-37, a single lamp 10 has a main structure similar to that of the fourth embodiment, except that: the structure of the first electrical connection portion 151 and the second electrical connection portion 153 in this embodiment is different from that of the fourth embodiment.

First, as shown in fig. 37, the first electrical connection portion 151 in the present embodiment includes a plurality of first contacts 152 arranged in an array, but unlike the first contacts 152 in the fourth embodiment, which are provided as electrical contact pins movably arranged in a telescopic manner, in the present embodiment, they are provided as electrical contact pins fixedly arranged, which are arranged protruding from the bottom surface of the structural connector 11.

Next, as shown in fig. 35 to 36, in the present embodiment, the second power receiving portion 153 is formed by a slot 155 and a third contact 156 disposed in an array in the slot 155, and the third contact 156 is a conductive member; the third contact 156 has five and is also disposed at the four vertices and the center point of the square. The three slots 155 are respectively provided with 2, 1 and 2 third contacts 156, and their positional relationship satisfies the relationship between the apex and the center point of the square.

When the structural connector 11 is slidably assembled with respect to the structural connector base 13 in different assembly directions, the electrical contact pins constituting the fixed structure of the first contact 152 slide within the slots 155. When assembled in place, each first contact 152 can be brought into contact with a corresponding second contact 154 for conductive connection.

Example seven

As shown in fig. 38, a single lamp 10 has a main structure similar to that of the fifth embodiment, except that: the structure of the second power receiving portion 153 in this embodiment is different from that in the fifth embodiment.

In the present embodiment, the second power receiving portion 153 is also formed by the slot 155 and the third contacts 156 disposed in the slot 155, but unlike the fifth embodiment in which the five third contacts 156 are disposed at the top and center points of the square, respectively, the third contacts 156 in the present embodiment have a dot-like structure in the middle slot 155, the third contacts 156 in the slots 155 on both sides thereof have a bar-like structure and are disposed along the slot 155, such that the bar-like third contacts 156 on both sides are formed as two opposite sides of the square, and the third contacts 156 in the middle slot 155 are disposed at least at the center of the square, and may have a dot-like shape and be disposed at the center, or may be bar-like and cover the center point area of the square (the length is not limited).

Of course, in other embodiments, the slot 155 may be omitted and only the third contact 156 may constitute the second power receiving portion 153 in addition to the present embodiment; meanwhile, the first contact 152 of the first electrical connection portion 151 is formed by using an electrical contact pin which is provided in a retractable and movable manner, which can achieve the purpose of electrical connection as well.

Claims

1. The lamp connecting structure comprises an electric connecting piece (12) connected to the single lamp (10) and a structural connecting piece (11) detachably connected to the single lamp (10); it is characterized in that the method comprises the steps of,

the structure connecting seat (13) is connected to the single lamp (10), a first sliding mechanism (110) and a second sliding mechanism (130) are respectively arranged on the structure connecting piece (11) and the structure connecting seat (13), the first sliding mechanism (110) and the second sliding mechanism (130) are respectively a sliding rail and a sliding groove, and the sliding rail and the sliding groove are tightly matched with each other so as to fasten the structure connecting piece (11) and the structure connecting seat (13) or fasten the structure connecting piece (11) and the structure connecting seat (13);

at least one side wall of the electric connector (12) is provided with a first electric connector which is electrically connected to the single lamp (10);

The two opposite ends of the structural connecting piece (11) are respectively provided with a first butt joint part (111) and a second butt joint part (112), the first butt joint part (111) and the second butt joint part (112) are male plug connectors and female plug connectors which can be assembled in a mutually plugging manner, and the male plug connectors are arranged in the female plug connectors of the other structural connecting piece (11) in a tightly plugging manner so as to fasten two adjacent structural connecting pieces (11) or fasten two adjacent structural connecting pieces (11).

2. The luminaire connecting structure according to claim 1, characterized in that the second slip-fit mechanism (130) comprises four connecting posts (131), the four connecting posts (131) being arranged in a square; the connecting columns (131) comprise first columns (132) and second columns (133), the second columns (133) are connected with the structure connecting base (13) through the first columns (132), the two adjacent side edges of each second column (133) are respectively provided with a convex block (134) which is convexly arranged relative to the first columns (132), and the convex blocks (134) on the two adjacent connecting columns (131) are on the same straight line to form a sliding rail;

the first sliding mechanism (110) comprises a sliding groove (114) and a limiting block (115) positioned on the bottom surface of the sliding groove (114).

3. The lamp attachment structure according to claim 2, wherein the bump (134) is provided at an outer side of the second post (133),

the structure connecting seat (13) is arranged on the top surface of the electric connecting piece (12), at least two limiting blocks (115) are arranged corresponding to the connecting columns (131), and the first sliding mechanism (110) is arranged on two sides of the bottom surface of the structure connecting piece (11) and arranged along the connecting line direction of the first butt joint part (111) and the second butt joint part (112).

4. A light fixture attachment structure according to claim 3, wherein the first electrical connector is an electrical connection male (125) recessed in a side wall of the electrical connector (12);

the lamp connecting structure further comprises an electric connection female seat (14), wherein the electric connection female seat (14) is used for being connected between electric connection male heads (125) of two adjacent single lamps (10) so as to electrically connect the two single lamps (10);

the electric connection male head (125) comprises at least two electric plug posts (124), and the electric connection female seat (14) is provided with a corresponding number of electric plug holes (141).

5. The lamp connecting structure according to claim 4, wherein a first removable blocking piece (113) is provided at least one end of the chute (114), a second removably provided blocking piece (121) is provided at the electrical connection male (125), and a plug (126) is removably provided;

The structure connecting piece (11) is detachably connected to the single lamp (10) by a first butt joint part (111) which faces inwards, outwards or one of two sides of the single lamp (10),

the electric connection male head (125) is provided with three electric connection male heads and is respectively arranged on the front end face and the two side faces of the electric connection piece (12).

6. The lamp connecting structure comprises an electric connecting piece (12) connected to the single lamp (10) and a structural connecting piece (11) detachably connected to the single lamp (10); it is characterized in that the method comprises the steps of,

the electric connector further comprises a structure connecting seat (13) arranged on the top surface of the electric connector (12), wherein the structure connecting piece (11) and the structure connecting seat (13) are respectively provided with a first sliding mechanism (110) and a second sliding mechanism (130), the first sliding mechanism (110) and the second sliding mechanism (130) are respectively a sliding rail and a sliding groove, and the sliding rail and the sliding groove are mutually tightly matched to fasten the structure connecting piece (11) and the structure connecting seat (13) or fasten the structure connecting piece (11) and the structure connecting seat (13);

a first butt joint part (111) and a second butt joint part (112) are respectively arranged at two opposite ends of the structural connecting piece (11), the first butt joint part (111) and the second butt joint part (112) are a male plug connector and a female plug connector which can be assembled in a mutually plugging manner, and the male plug connector is arranged in the female plug connector of the other structural connecting piece (11) in a tightly plugging manner so as to fasten two adjacent structural connecting pieces (11) or fasten two adjacent structural connecting pieces (11);

The first butt joint part (111) and the second butt joint part (112) are respectively provided with a first electric connecting piece and a second electric connecting piece, the bottom surfaces of the structural connecting seat (13) and the structural connecting piece (11) are respectively provided with a first electric connecting part (151) and a second electric connecting part (153), and the first electric connecting part (151) is electrically connected to the single lamp (10).

7. The luminaire connecting structure according to claim 6, wherein the second slip-fit mechanism (130) comprises four connecting posts (131), the four connecting posts (131) being arranged in a square; the connecting columns (131) comprise first columns (132) and second columns (133), the second columns (133) are connected with the structure connecting base (13) through the first columns (132), the two adjacent side edges of each second column (133) are respectively provided with a convex block (134) which is convexly arranged relative to the first columns (132), and the convex blocks (134) on the two adjacent connecting columns (131) are on the same straight line to form a sliding rail;

8. The lamp connecting structure according to claim 7, wherein the protruding block (134) is disposed at an outer side edge of the second post (133), the structure connecting seat (13) is disposed on a top surface of the electrical connecting member (12), the limiting blocks (115) are at least two and are disposed corresponding to the connecting posts (131), and the first sliding mechanism (110) is disposed at two sides of a bottom surface of the structure connecting member (11).

9. The luminaire connecting structure according to any one of claims 6-8, characterized in that the first electrical connection (151) comprises at least two first contacts (152) arranged along a 45 ° line, the second electrical connection (153) comprises at least four second contacts (154) arranged along an array at a vertex or center point of a square, such that the structural connector (11) is in contact with the second electrical connection (153) by the first electrical connection (151) for electrical connection when assembled in four mutually perpendicular directions with respect to the structural connector (13);

the first contact (152) is fixedly arranged or can be telescopically arranged on the top surface of the structure connecting seat (13), and the second contact (154) is an electric contact concave point, a conductive piece arranged on the bottom surface of the structure connecting piece (11) or a conductive piece arranged in the slot hole (155).

10. The lamp connection structure according to claim 9, wherein the first electrical connector comprises three electrical sockets (124), the second electrical connector comprises three electrical sockets (141), the first electrical connection portion (151) comprises three first contacts (152), the second electrical connection portion (153) comprises five second contacts (154) and is respectively arranged at the top and center points of the square, the five second contacts (154) are divided into three groups, and the electrical sockets (124) and the electrical sockets (141) are also divided into three groups and are respectively electrically connected with the three groups of second contacts (154).

11. A luminaire connecting structure according to claim 7, characterized in that at least one end of the chute (114) is provided with a first removable flap (113);

the structural connecting piece (11) is detachably connected to the single lamp (10) by a first butt joint part (111) facing inwards, outwards or one of two sides on the single lamp (10).

12. Lamps and lanterns connection structure, its characterized in that includes:

the structure connecting seat (13), the said structure connecting seat (13) is set up on the monomer lamps and lanterns (10);

the electric connector (12), the said electric connector (12) is set up on the single lamps and lanterns (10), connect with at least one electric connection male (125) on the said electric connector (12) electrically;

-a structural connection (11), said structural connection (11) being removably connected to said structural connection seat (13); and, a step of, in the first embodiment,

the electric connection female base (14), the electric connection female base (14) is used for being connected between electric connection male heads (125) of two adjacent single lamps (10) so as to electrically connect the two adjacent single lamps (10);

wherein the structural connecting piece (11) has at least two sliding assembly modes relative to the structural connecting seat (13) so as to allow the adjacent two single lamps (10) to be assembled in a straight line or vertically, and the structural connecting piece (11) is assembled on the structural connecting seat (13) in a sliding and movable mode or removed from the structural connecting seat (13).

13. The lamp connecting structure according to claim 12, wherein the structure connecting piece (11) and the structure connecting seat (13) are respectively provided with a first sliding mechanism (110) and a second sliding mechanism (130), the first sliding mechanism (110) and the second sliding mechanism (130) are respectively a sliding rail and a sliding groove, and the sliding rail and the sliding groove are mutually tightly matched to fasten the structure connecting piece (11) and the structure connecting seat (13) or fasten the structure connecting piece (11) and the structure connecting seat (13);

14. The luminaire connecting structure according to claim 13, characterized in that the second slip-fit mechanism (130) is constituted by at least four connecting posts (131), the four connecting posts (131) being arranged in a square; the connecting columns (131) comprise first columns (132) and second columns (133), the second columns (133) are connected with the structure connecting base (13) through the first columns (132), the two adjacent side edges of each second column (133) are respectively provided with a convex block (134) which is convexly arranged relative to the first columns (132), and the convex blocks (134) on the two adjacent connecting columns (131) are on the same straight line to form a sliding rail;

15. The lamp connecting structure according to claim 14, wherein the protruding block (134) is disposed at an outer side edge of the second post (133), the structure connecting seat (13) is disposed on a top surface of the electrical connecting member (12), the limiting blocks (115) are at least two and are disposed corresponding to the connecting posts (131), and the first sliding mechanism (110) is disposed at two sides of a bottom surface of the structure connecting member (11).

16. A luminaire connecting structure as claimed in any one of claims 13-15, characterized in that the electrical connection piece (12) is integrated on a single luminaire (10), the structural connection socket (13) is integrated on the top surface of the electrical connection piece (12), the electrical connection male (125) has three and is arranged on the front end surface and two side surfaces of the electrical connection piece (12), respectively, the electrical connection female (14) is connected between the electrical connection male (125) of two adjacent single luminaires (10) for electrical connection between two adjacent single luminaires (10); or alternatively, the first and second heat exchangers may be,

the electric connection male head (125) is integrated in the second butt joint part (112), the electric connection female seat (14) is integrated in the first butt joint part (111), a first electric connection part (151) and a second electric connection part (153) are respectively arranged on the structural connection seat (13) and the bottom surface of the structural connection piece (11), and the first electric connection part (151) is electrically connected to the single lamp (10); the electric connection male head (125) comprises three electric plug posts (124), the electric connection female seat (14) comprises three electric jacks (141), the first electric connection part (151) comprises three first contacts (152), the second electric connection part (153) comprises five second contacts (154) and is respectively arranged at the top point and the center point of the square, the five second contacts (154) are divided into three groups, and the electric plug posts (124) and the electric jacks (141) are also divided into three groups and are respectively and correspondingly electrically connected with the three groups of second contacts (154).

17. The assembled lamp is characterized by comprising at least two single lamps (10), wherein the two adjacent single lamps (10) are mutually assembled and connected in physical structure through a structural connecting piece (11) of the lamp connecting structure according to any one of claims 1-2 and 4-5 and are electrically connected with an electric connection male head (125) through an electric connection female seat (14); after assembly, two adjacent single lamps (10) are mutually perpendicular or are arranged along a straight line.

18. The assembled lamp is characterized by comprising at least two single lamps (10), wherein the first butt joint part (111) and the second butt joint part (112) of the lamp connecting structure of any one of claims 6-7 and 10-11 are tightly connected between two adjacent single lamps (10) in a matched manner so as to be mutually assembled and connected and electrically connected in structure at the same time.

19. The assembled lighting fixture according to claim 17 or 18, further comprising a fixture (20) and a driving power supply (30), at least one of said individual lighting fixtures (10) being fixed to said fixture (20), at least one of said individual lighting fixtures (10) being electrically connected to said driving power supply (30) to be powered thereby;

The fixing frame (20) is rectangular, fixing pieces (31) are arranged at two ends of the driving power supply (30), and the fixing pieces (31) are clamped on T-shaped pieces (211) of the fixing frame (20); the fixing piece (31) comprises a first bending piece (311), a second bending piece (312) and a third bending piece (313), wherein the first bending piece (311), the second bending piece (312) and the third bending piece (313) are integrally formed and formed through bending, the first bending piece (311) is perpendicular to the second bending piece (312), and the second bending piece (312) is perpendicular to the third bending piece (313); the third bending piece (313) is positioned at the side edge of the second bending piece (312) to be clamped below the T-shaped piece (211) so as to fix the driving power supply (30) on the fixing frame (20);

the first bending piece (311) is also provided with a second through hole (314), and the fastener (32) passes through the second through hole (314) and then abuts against the inner wall of the T-shaped piece (211) so as to fix the fixing piece (31) on the T-shaped piece (211); wherein the fastener (32) comprises a first fastening part (321) and a second fastening part (322), and the second fastening part (322) passes through the second through hole (314) and then acts on the inner wall of the T-shaped piece (211); the first fastening portion (321) is fastened to the first bending piece (311) to be formed in an assembled locked state.

20. The assembled light fixture according to claim 17 or 18, further comprising a fixture (20), said single light fixture (10) being fixed to a lower connection end (212) of said fixture (20) via a light fixture connection (210);

the lamp connecting piece (210) comprises a buckling piece (21), a first clamping piece (22), a second clamping piece (23) and a pin (24), wherein the first clamping piece (22) and the second clamping piece (23) are connected by the pin (24) to form a clamping piece which can be clamped onto the lower connecting end (212), and the buckling piece (21) is arranged above the clamping piece and is respectively provided with a first connecting piece (201) at two ends of the buckling piece for connecting the single lamp (10);

the first clamping piece (22) comprises a first clamping main body (221) and first clamping ends (222) which are arranged along one side of the first clamping main body (221) in a bending way, and two first clamping ends (222) are formed into a first gap (223) between the two first clamping ends; the second clamping piece (23) comprises a second clamping main body (231) and second clamping ends (232) which are arranged on the other side of the second clamping main body (231) in a bending way, two second clamping ends (232) are arranged, and a second notch (233) is formed between the two second clamping ends; the second clamping end (232) is assembled with the first clamping end (222) in the opposite direction, the first clamping piece (22) is fixedly connected with the second clamping piece (23) through the pin (24), the buckling piece (21) is arranged along the first notch (223) and the second notch (233), and the first clamping end (222) and the second clamping end (232) are respectively buckled and connected with two sides of the lower connecting end (212).