CN107664285B - Concatenation formula architectural lighting lamp - Google Patents

Abstract

The invention discloses a spliced building illuminating lamp which comprises a lamp shell, a light-emitting component, a connecting piece and a lamp post, wherein the lamp shell is provided with a light-emitting surface; the light-emitting component is arranged in the lamp shell; the connecting pieces are respectively sleeved at two ends of the lamp shell correspondingly; the two ends of the connecting piece form a first sleeving end respectively, and the first sleeving end is used for being sleeved with the lamp shell or the lamp pole in a detachable mode; a first clamping part protruding out of the first sleeving end is formed between the first sleeving ends at the two ends, and the first clamping part abuts against one end of the lamp shell and is used for limiting the connecting piece; the lamp body is sleeved with the lamp pole through the connecting piece, the lamp body or the lamp body and the lamp pole are sleeved with each other through the connecting piece, the follow-up rod bodies with different shapes and structures are designed, the requirements of different lamp shapes and installation sites are met, the combined lamp capable of being combined randomly to change the shape and the structure is formed, the freedom degree is higher compared with the traditional LED lamp, and the user experience is improved.

Description

Concatenation formula architectural lighting lamp

Technical Field

The invention relates to a lamp, in particular to a spliced type architectural illuminating lamp.

Background

At present, the illumination tools, whether indoor or outdoor, fixed or hand-held, generally adopt the LED lamp, and the characteristics of sufficient brightness, low energy consumption and the like of the LED lamp become the first choice of the light source used by the current illumination equipment. Especially, in the global environment advocating energy conservation and environmental protection, in order to cater to the call of low-carbon life, the lighting equipment in large public places such as urban roads, outdoor passageways, markets and the like is basically covered and popularized by the LED lamps.

However, the existing fixed LED lamp has the following drawbacks:

(1) at present, regardless of outdoor highway, road and roadside lighting, or large-scale indoor/outdoor markets and outdoor places, the specifications of the LED lamps adopted for lighting are uniform, most LED lamps are limited in shape, structure and lighting range when leaving a factory, and if lamps with different shape structures are needed or lighting range needs to be enlarged/reduced, the LED lamps need to be redesigned or manufactured, so that limitation is large and manufacturing cost is wasted.

(2) Because the temperature of the LED lamp is high in the using process, in order to facilitate heat dissipation, the LED lamp panel is generally fixedly connected and tightly attached to a supporting seat with a heat dissipation function in the lamp housing, meanwhile, in order to ensure the sealing performance of the lamp and the compactness of the lamp, the mounting mode of the lamp housing and an end cover covering the end part of the lamp housing is generally fixed, the mounting mode of the lamp and the orientation of a light source relative to a lamp post after the lamp is mounted are already limited at the moment of manufacturing the lamp, the angle of the lamp cannot be adjusted again after the lamp is mounted, the limitation is large, the user experience is seriously influenced, and under the condition that the orientation of the light source needs to be changed, the required effect can be achieved only by purchasing the lamp with different lighting modes and angles again or changing the mounting plane of the lamp.

Disclosure of Invention

In order to overcome the defects of the prior art, the invention aims to provide the spliced type architectural illuminating lamp, the lamp shell and the lamp shell or the lamp shell and the lamp post are sleeved in a detachable mode through the connecting piece, and the lamp posts with different shapes and styles are designed to be matched and sleeved with the lamp shell, so that the modeling structure of the lamp is changed at will, and the assembling freedom of the lamp is improved.

The purpose of the invention is realized by adopting the following technical scheme:

a spliced building illuminating lamp comprises a lamp shell, a light-emitting component, a connecting piece and a lamp post; the light-emitting component is arranged in the lamp shell; the connecting pieces are respectively sleeved at two ends of the lamp shell correspondingly; the two ends of the connecting piece form first sleeving ends respectively, and the first sleeving ends are used for being sleeved with the lamp shell or the lamp post in a detachable mode; a first clamping part protruding out of the first sleeving end is formed between the first sleeving ends at the two ends, and the first clamping part abuts against one end of the lamp shell and is used for limiting the connecting piece; the two ends of the lamp post are respectively provided with a connecting end which is used for being in sleeve joint matching with the first sleeve connecting end; the connecting piece is connected between the two lamp shells or between one lamp shell and one lamp post.

Further, the spliced type architectural lighting lamp also comprises an end cover; the end cover is detachably covered at one end of the lamp housing and used for replacing the connecting piece to form the tail end of the spliced type architectural illuminating lamp; a second sleeving end is formed at one end of the end cover, and a second clamping part protruding out of the second sleeving end is formed at the other end of the end cover; the second sleeving end is used for sleeving the lamp shell; the second clamping portion is used for abutting against the lamp shell and limiting the position of the end cover on the lamp shell.

Further, the inner cavity of the lamp housing, the first sleeve end and the second sleeve end are all cylindrical; the lamp shell is in clearance fit with the first sleeve end and the second sleeve end; and sealing rings are arranged on the peripheral surfaces of the first sleeving end and the second sleeving end.

Furthermore, the spliced type architectural illuminating lamp also comprises a guide rotating rod; the connecting piece and the lamp shell can rotate relatively; the rotating guide rod is arranged in the lamp shell, and two ends of the rotating guide rod are movably connected to the connecting pieces at two ends in a penetrating mode respectively; the light-emitting component and the lamp shell are relatively fixed, and the rotation guide rod is connected with the light-emitting component, so that the lamp shell and the light-emitting component synchronously rotate relative to the connecting piece by taking the rotation guide rod as a rotation axis;

the inner cavity of the lamp shell is cylindrical; and the axis of the rotating guide rod is superposed with the axis of the inner cavity of the lamp housing.

Further, the rotation guide rod is a bolt; the screw rod of the bolt penetrates into one of the connecting pieces and extends out to form a splicing part, and the head of the bolt is positioned on the outer side of the other connecting piece and abuts against the outer side of the other connecting piece to form an abutting part; the splicing part is connected with a nut which is positioned on the outer side of the connecting piece where the splicing part is positioned; the tightness degree of the nut relative to the connecting piece is adjusted, so that the pressing portion and the nut limit the radial direction of the bolt.

Furthermore, a first connecting piece is arranged on a connecting piece between the lamp shell and the lamp post; the first connecting piece is propped against the outer side of the connecting piece in a detachable mode; and a first through hole for movably connecting the bolt is formed in the middle of the first connecting sheet.

Furthermore, the rotating guide rod is a polished rod; two ends of the polish rod are respectively connected with a limiting component in a penetrating way; the two ends of the limiting component are respectively positioned at the outer sides of the connecting pieces at the two ends and used for limiting the radial displacement of the polished rod positioned on the lamp shell.

Furthermore, a second connecting piece for supporting the polish rod is arranged between the inside of the connecting piece and the polish rod; the second connecting piece is propped against the inner side of the connecting piece in a detachable mode; and a second through hole for the movable penetration of the polish rod is formed in the middle of the second connecting piece.

Furthermore, a lamp assembly is arranged between the light-emitting assembly and the rotating guide rod; a bearing part is formed at the upper part of the lamp assembly; the light-emitting component is arranged on the bearing part and used for bearing the light-emitting component and dissipating heat of the light-emitting component; the lower part of the lamp assembly is sleeved on the rotating guide rod;

the lamp shell is provided with an opening for linking the outside and the inside of the lamp shell; the opening is arranged opposite to the light-emitting component so that light emitted by the light-emitting component extends out of the lamp shell from the opening; a lampshade is fixedly covered on the bearing part; the outer edge of the lampshade abuts against the inner edge of the opening, so that the lamp housing and the lamp assembly are relatively fixed.

Further, the light emitting assembly comprises a lamp panel and a power line; the rotation guide rod is of a through structure, and one side of the rotation guide rod, which faces the lamp assembly, is provided with a wire hole communicated with the inside of the rotation guide rod; the lower part of the lamp assembly is provided with a wiring channel for communicating the wire hole with the bearing part; one end of the power line is connected with an external power supply, and the other end of the power line penetrates into the rotation guide rod from one end of the rotation guide rod, passes through the line hole and the wiring channel, extends out of the supporting part and is connected with the lamp panel circuit;

a female socket for realizing the circuit connection of the spliced building illuminating lamp is arranged in the connecting piece; the inner chamber of lamp body install with female the male plug that corresponds the grafting, the male plug passes through the power cord with lamp plate circuit connection.

Compared with the prior art, the invention has the beneficial effects that:

between concatenation formula architectural lighting lamp's the lamp body, or cup joint through the connecting piece realization between lamp body and the lamp pole each other, follow-up body of rod through designing different shape structures, satisfy the demand of different lamps and lanterns molding and installation place, form the combination formula lamps and lanterns that can make up the change configuration structure wantonly, and concatenation formula architectural lighting lamp cup joints quantity then can carry out the increment of quantity or steadilys decrease according to the required size of illumination zone, can cup joint in succession or the interval cup joints through the connecting piece between the body of rod and the lamp body before the lamps and lanterns installation is fixed, realize the product modularization, it is higher for traditional LED lamps and lanterns degree of freedom, promote user experience.

Drawings

FIG. 1 is a schematic view of a bolt structure of the splicing type architectural lighting lamp of the present invention;

FIG. 2 is a schematic view of the structure of the polished rod of the splicing type architectural lighting lamp of the present invention;

FIG. 3 is one example of the bolt structure assembly of the splicing type architectural lighting lamp of the present invention;

FIG. 4 is a second embodiment of the bolt assembly of the present invention;

FIG. 5 is a third example of assembling the bolt structure of the building illumination lamp of the present invention;

FIG. 6 is one example of the polished rod structure assembly of the spliced architectural lighting lamp of the present invention;

fig. 7 shows a second example of the assembly of the polished rod structure of the spliced architectural lighting lamp according to the present invention.

In the figure: 10. a lamp housing; 11. an opening; 20. a light emitting assembly; 21. a lamp panel; 30. a connecting member; 31. a first nesting end; 32. a first clamping part; 40. an end cap; 41. a second sleeve end; 42. a second clamping part; 50. a rotation guide rod; 51. a bolt; 511. a splice; 5111. a nut; 512. a pressing part; 513. a first connecting piece; 5131. a first through hole; 52. a polish rod; 521. a limiting component; 522. a second connecting sheet; 5221. a second through hole; 60. a lamp assembly; 61. a bearing part; 611. a lamp shade; 70. a lamp post; 71. a vertical rod; 72. a straight rod; 73. t-shaped rods.

Detailed Description

The present invention will be further described with reference to the accompanying drawings and the detailed description, and it should be noted that any combination of the embodiments or technical features described below can be used to form a new embodiment without conflict.

As shown in fig. 1-2, the present invention provides a splicing type architectural lighting lamp, which is freely sleeved with a lamp or a lamp post 70 in a detachable manner, so as to improve the degree of freedom of the lamp before and after installation, and comprises a lamp housing 10, a light emitting assembly 20, a connecting member 30 and a lamp post 70; the light emitting assembly 20 is arranged inside the lamp housing 10; the connecting pieces 30 are respectively sleeved at two ends of the lamp housing 10; the two ends of the connecting member 30 form a first socket end 31, and the first socket end 31 is used for being detachably socket-connected with the lamp housing 10 or the lamp post 70; a first clamping portion 32 protruding out of the first sleeve end 31 is formed between the two first sleeve ends 31, and the first clamping portion 32 abuts against one end of the lamp shell 10 and is used for limiting the connecting piece 30; the two ends of the lamp post 70 are respectively provided with a connecting end for being in sleeve joint with the first sleeve-joint end 31; the connector 30 is connected between two lamp housings 10 or between one lamp housing 10 and one lamp post 70. The lamp posts 70 with different styles and shapes are designed according to requirements, and are spliced and combined with the lamp posts 70 with different shapes and the lamp shells 10 to meet the shape structure requirements of different lamps, so that a modular combined lamp is formed, the shape of the lamp can be changed before and after installation, and the assembling freedom of the lamp is improved.

Before the lamp housings 10 and the lamp poles 70 are sleeved and combined, the lamp poles 70 with different modeling structures can be designed according to most lamp modeling requirements on the market at present, and mass production is carried out so as to meet the requirements of subsequent lamp mass installation, for example, the lamp poles 70 can be designed into rod body structures such as guardrails between a pedestrian path and a motor vehicle lane, lamp poles 70 on one side of a sidewalk and a motor vehicle lane, lawn lamps, wall washing lamps on the outer wall of a building, and the lamp housings 10 are sleeved in the subsequent installation process, so that the lamp meets the corresponding site modeling requirements, of course, the sleeved end structures between the lamp poles 70 and the lamp housings 10 also need to be matched with the first sleeved end 31, a plurality of lamp housings 10 can be sequentially sleeved between the lamp poles 70 and the lamp housings 10 through the connecting members 30, and the lamp poles 70 can also be sleeved in the connecting members 30, so that intervals are formed between the light-emitting assemblies 20; in this example, the lamp post 70 forms a connection end with the sleeved end of the first sleeved end 31, the connection end and the first sleeved end 31 are both in a cylindrical structure and in clearance fit, and the first sleeved end 31 and the connection end can rotate relatively, so that the degree of freedom of the spliced building illuminating lamp is improved.

The spliced building illuminating lamp also comprises an end cover 40; the end cover 40 is detachably covered at one end of the lamp housing 10, and is used for replacing the connecting piece 30 to form the tail end of the spliced architectural illuminating lamp when one end of the lamp housing 10 of the spliced architectural illuminating lamp is not required to be sleeved with another lamp housing 10 or the lamp post 70; a second sleeving end 41 is formed at one end of the end cover 40, and a second clamping part 42 protruding out of the second sleeving end 41 is formed at the other end; the second sleeve end 41 is used for being sleeved with the lamp shell 10; the second clamping portion 42 is used for abutting against the lamp housing 10, and limits the position of the end cover 40 on the lamp housing 10.

In order to improve the sealing performance between the lamp housing 10 and the connecting member 30 and the end cover 40, the inner cavity of the lamp housing 10, the first sleeve end 31 and the second sleeve end 41 are all cylindrical; the lamp shell 10 is in clearance fit with the first sleeve-connection end 31 and the second sleeve-connection end 41; the outer peripheral surfaces of the first sleeving end 31 and the second sleeving end 41 are both provided with a sealing ring; in this example, the first clamping portion 32 and the second clamping portion 42 are both cylindrical, and the diameters of the first clamping portion 32 and the second clamping portion 42 are respectively larger than the diameters of the first sleeve end 31 and the second sleeve end 41 and are consistent with the outer circumference diameter of the lamp housing 10; the outer peripheral surface of the first clamping portion 32 is also provided with anti-skid lines in sequence at equal intervals.

In order to adjust the orientation of the light-emitting assembly 20 before and after the installation process of the invention, so as to meet the orientation of the light sources of different lamps relative to the lamp post 70 or the installation surface, the splicing type architectural lighting lamp further comprises a rotating guide rod 50; the connecting piece 30 and the lamp shell 10 can rotate relatively; the rotation guide rod 50 is arranged in the lamp housing 10, and two ends of the rotation guide rod are movably connected to the two-end connecting pieces 30 respectively; the light emitting component 20 is fixed relative to the lamp housing 10, the guiding rod 50 is connected to the light emitting component 20, so that the lamp housing 10 and the light emitting component 20 rotate synchronously relative to the connecting member 30 with the guiding rod 50 as a rotation axis, in the process of turning the lamp housing 10, the lamp housing 10 and the light emitting component 20 are in a relatively fixed state, and the light emitting component 20 is connected to the guiding rod 50, in this example, the guiding rod 50 and the light emitting component 20 are movably or fixedly connected relatively, when the lamp housing 10 rotates relative to the connecting member 30, the light emitting component 20 rotates together with the lamp housing 10, and is guided by the guiding rod 50, so that the lamp housing 10 rotates around the axial lead of the guiding rod 50, and the orientation of the light emitting component 20 is adjusted.

Preferably, in order to improve the steering precision of the lamp housing 10, the inner cavity of the lamp housing 10 is cylindrical; the axis of the rotation guide rod 50 coincides with the axis of the inner cavity of the lamp housing 10, so that the lamp housing 10 rotates along the axis of the inner cavity of the lamp housing 10 during the rotation process, and more preferably, the axis of the connecting member 30 coincides with the axis of the inner cavity of the lamp housing 10, and therefore, the lamp housing 10 does not generate axial displacement with the connecting member 30 during the rotation process, and the compactness of the spliced architectural illuminating lamp is improved.

There are two connection modes between the rotation guide rod 50 and the connecting piece 30:

(1) the rotation guide rod 50 is a bolt 51; the screw of the bolt 51 penetrates one of the connecting pieces 30 and extends out to form a splicing part 511, and the head of the bolt 51 is positioned at the outer side of the other connecting piece 30 and abuts against the outer side of the connecting piece 30 to form a pressing part 512; the splicing part 511 is connected with a nut 5111, and the nut 5111 is positioned at the outer side of the connecting piece 30 where the splicing part 511 is positioned; the degree of tightness of the nut 5111 relative to the connecting member 30 is adjusted, so that the pressing portion 512 and the nut 5111 limit the radial direction of the bolt 51. The connecting piece 30 between the lamp shell 10 and the lamp post 70 is provided with a first connecting piece 513; the first connecting piece 513 is detachably abutted against the outer side of the connecting piece 30; the middle part of the first connecting piece 513 is provided with a first through hole 5131 for movably connecting the bolt 51;

(2) the rotating guide rod 50 is a polished rod 52; the two ends of the polish rod 52 are respectively penetrated with a limiting component 521, the limiting component 521 is preferably a steel wire, a shaft sleeve and other components which can be used for blocking the radial displacement of the polish rod 52; the two-end limiting assemblies 521 are respectively located at the outer sides of the two-end connectors 30 and are used for limiting the radial displacement of the polish rod 52 located in the lamp housing 10.

A second connecting piece 522 for supporting the polished rod 52 is arranged between the inside of the connecting piece 30 and the polished rod 52; the second connecting piece 522 is detachably abutted against the inner side of the connecting piece 30; the second connecting piece 522 has a second through hole 5221 formed in the middle thereof for movably passing the polish rod 52 therethrough.

Alternatively, when one end of the lamp housing 10 does not need to be sleeved with another lamp housing 10 or the lamp post 70, the end cover 40 replaces the connecting member 30 to cover one end of the lamp housing 10, and the middle portion of the end cover 40 is provided with a groove step for the pressing portion 512 and the limiting component 521 to press and store.

In fact, only by adding limiting parts for avoiding radial displacement of the rotation guide rod 50 at two ends of the rotation guide rod 50, the above method (1) and method (2) are preferred embodiments, wherein the method (1) can effectively improve the structural compactness of the internal components of the lamp housing 10; the method (2) has simpler component connection, convenient assembly and higher adaptability.

A lamp assembly 60 is arranged between the light-emitting component 20 and the rotating guide rod 50; a bearing part 61 is formed at the upper part of the lamp assembly 60; the light emitting component 20 is disposed on the supporting portion 61, in this embodiment, the light emitting component 20 and the supporting portion 61 may be tightly attached or mounted on the supporting portion 61 through screws; the supporting part 61 is used for supporting the light emitting component 20 and dissipating heat of the light emitting component 20; preferably, the cross-sectional shape of the support portion 61 is "u", naturally, the cross-sectional shape of the support portion 61 can also be designed into other shapes such as rectangle, triangle, etc. according to the design requirements of the lamp shell 10 and the structure of the light emitting element 20, the bottom surface of the "u" shape is connected with the light emitting element 20, the two sides of the "u" shape limit the light emitting element 20 and support the lampshade 611, the lampshade 611 is erected by arranging upward concave platforms at the two sides of the support portion 61, arranging downward convex platforms at the lower part of the lampshade 611 to be clamped, or by matching and sliding the concave platforms into the concave platforms; in order to make the light emitting assembly 20 and the lamp housing 10 rotate around the axis of the rotation guide rod 50, the lower portion of the lamp assembly 60 is sleeved on the rotation guide rod 50.

The lamp shell 10 is provided with an opening 11 for linking the exterior and the interior of the lamp shell 10; the opening 11 and the light emitting component 20 are arranged opposite to each other, so that light emitted by the light emitting component 20 extends out of the lamp housing 10 from the opening 11, preferably, the shape of the opening 11 is matched with the shape of the light emitting component 20, preferably, the opening is rectangular, and can also be designed into a circular shape or other irregular shapes according to the shape of the lamp housing 10, and the arrangement shape of the light emitting components 20 is consistent with the shape of the opening 11, so that the light emitted by the light emitting component 20 can be all emitted from the opening 11, and energy waste is avoided; the supporting part 61 is fixedly covered with a lampshade 611; the outer edge of the lamp cover 611 abuts against the inner edge of the opening 11, so that the lamp housing 10 and the lamp assembly 60 are relatively fixed, and in order to make the lamp more beautiful, the surface of the lamp cover 611 is flush with the outer peripheral surface of the lamp housing 10 in a tangential manner, although not limited thereto, and can also protrude from the lamp housing 10.

Specifically, the light emitting assembly 20 includes a lamp panel 21 and a power line (not shown); in order to make the wiring of the internal components of the lamp housing 10 more regular and tidy, the rotation guide rod 50 has a through structure, and a wire hole (not shown) communicated with the inside of the rotation guide rod 50 is formed in one side of the rotation guide rod 50 facing the lamp assembly 60; the lower part of the lamp assembly 60 is provided with a wiring channel (not marked in the figure) for communicating the wire hole with the support part 61; one end of a power line is connected with an external power supply, and the other end of the power line penetrates into the rotation guide rod 50 from one end of the rotation guide rod 50, passes through the line hole and the wiring channel, and extends out of the supporting part 61 to be connected with the lamp panel 21 circuit; preferably, the rotation guiding rod 50 is fixedly connected to the lamp assembly 60, so that, since the light emitting assembly 20, the lamp housing 10, the lamp assembly 60 and the rotation guiding rod 50 are all in a relatively fixed state, when the lamp housing 10 rotates relative to the connecting member 30, the power line rotates along with the lamp housing 10, the lamp assembly 60 and the rotation guiding rod 50, and the situation that the lamp assembly 60 rotates relative to the rotation guiding rod 50, the line hole is tangent to the routing channel, and the power line is cut off is avoided. The lamp panel 21 is provided with a plurality of LED lamp beads arranged at intervals along the length direction of the supporting portion 61 and a light projecting lens correspondingly arranged on the upper portions of the plurality of LED lamp beads.

In order to improve the installation and wiring efficiency of the present invention, a female socket (not labeled in the figures) for implementing circuit connection of the splicing type architectural lighting lamp is installed in the connecting piece 30, in this example, the female socket has two sockets, and the two sockets face to two ends of the connecting piece 30 respectively; a male plug (not shown) correspondingly inserted into the female plug is installed in the inner cavity of the lamp housing 10, and the male plug is in circuit connection with the lamp panel 21 through a power line.

In the installation process of the invention, one end of the connecting piece 30 is sleeved and matched with the lamp shells 10, the male plug in the lamp shells 10 is connected with the corresponding plug circuit of the female socket in the connecting piece 30, at the moment, if the other end of the connecting piece 30 is sleeved and matched with the other lamp shell 10, the other end of the female socket is plugged and matched with the male plug of the other lamp shell 10, so that the lamp panels 21 in the two lamp shells 10 are connected with the circuit; preferably, the connection ends at the two ends of the lamp post 70 are also provided with a male plug, the two male plugs are in circuit connection, and if the connection member 30 is sleeved with the lamp post 70, the male plugs at the two ends of the lamp post 70 are matched with the female socket to form circuit connection, so that the time required for installation and wiring is reduced.

The following are examples of different structures of the spliced architectural lighting lamp of the present invention:

example 1: as shown in fig. 3, which is one of the lamp structures connected by the bolt 51 in the method (1), in this example, there is one spliced architectural lighting lamp, so that one end of the lamp housing 10 is sleeved with the connecting member 30 for being sleeved with the lamp post 70, and the other end is sleeved with the end cover 40; the splicing part 511 of the bolt 51 is screwed with the nut 5111, the nut 5111 is screwed after the lamp housing 10 is adjusted to face backwards, and the connecting piece 30 and the end cover 40 are tightly pressed through the nut 5111 and the pressing part 512; the lamp posts 70 are respectively two sections, wherein one section of the lamp post 70 is a vertical rod 71 with central axes at two ends intersecting at 90 degrees, the other section of the lamp post 70 is a straight rod 72, one end of the vertical rod 71 is sleeved with the connecting piece 30, the other end of the vertical rod is sleeved with the straight rod 72, so that the whole lamp is in an inverted L-shaped structure, and the non-sleeved end of the straight rod 72 is fixed on the ground perpendicular to the horizontal plane to complete the assembly of the lamp.

Example 2: as shown in fig. 4, the second lamp structure connected by the bolt 51 according to the method (1) is shown, in this example, two spliced architectural lighting lamps are provided, two lamp housings 10 are sleeved by a connecting member 30, wherein one non-sleeved end of one lamp housing 10 is sleeved with an end cover 40, and one non-sleeved end of the other lamp housing 10 is sleeved with a connecting member 30 for being sleeved with a lamp post 70; the pressing part 512 of the bolt 51 presses against the outer side of the end cover 40 and extends to one end of the connector 30 to penetrate out of the outer connector 30 of the other lamp housing 10, and is in threaded connection with the splicing part 511 through the nut 5111, and the nut 5111 is screwed to press against the connector 30 and the pressing part 512 relatively to fix the lamp housing 10 by adjusting the orientation of the lamp housing 10 backwards; the non-sleeved end of the connecting member 30 is sleeved with the lamp post 70, and the lamp post 70 is respectively a vertical rod 71 and a straight rod 72, and is finally formed into an inverted L-shaped structure lamp by connecting in sequence, and is fixed on the ground to complete the assembly, as in embodiment 1.

Example 3: as shown in fig. 5, a third lamp structure connected by the bolts 51 according to the method (1), in this example, four spliced architectural lamps are provided, the lamp post 70 has two sections, which are respectively a T-shaped rod 73 and a straight rod 72 of a "T" shaped structure, the four lamp housings 10 are connected in series two by two and respectively disposed at the left and right ends of the T-shaped rod 73, and two groups of spliced units are respectively formed and are parallel to the rod body at the top of the T-shaped rod 73; the lamp shells 10 on the two sides of the T-shaped rod 73 are respectively sleeved with each other through the connecting piece 30, the other end of one lamp shell 10 is sleeved with the T-shaped rod 73 through the connecting piece 30, and the lamp shell 10 at the end which is not sleeved is respectively sleeved with the end cover 40; the group of splicing units are connected and supported through a bolt 51, a pressing part 512 of the bolt 51 is pressed against the outer side of the end cover 40 and extends towards the direction of the connecting piece 30, and the splicing units are pressed against and fixed through a nut 5111 which extends out of the connecting piece 30 close to one end of the T-shaped rod 73 and is sleeved with the T-shaped rod; the lower end of the T-shaped rod 73 is connected with the straight rod 72 to complete the assembly of the lamp.

Example 4: as shown in fig. 6, which is one of the lamp structures connected by the polish rod 52 in the method (2), in this example, the spliced architectural lighting lamp is one, the two ends of the lamp housing 10 are respectively sleeved with the connecting pieces 30, the polish rod 52 movably penetrates through the second connecting pieces 522 of the connecting pieces 30 at the two ends and respectively penetrates through the limiting assemblies 521, and the limiting assemblies 521 are respectively located at the outer sides of the two second connecting pieces 522; the lamp post 70 is 4 sections, namely a vertical rod 71 and a four-section straight rod 72 which are of the same structure; one end of each of the two straight rods 72 is sleeved with the two ends of the lamp housing 10 through the connecting member 30, one end of the vertical rod 71 is sleeved with the two straight rods 72, the other ends of the two vertical rods 71 face the same direction, and the other ends of the two vertical rods 71 are sleeved with the other two straight rods 72 to form an inverted U-shaped lamp, so that the lamp assembly is completed.

Example 5: as shown in fig. 7, a second lamp structure connected by the polish rod 52 in the method (2), in this example, there are two spliced architectural lighting lamps, the two ends of the lamp housing 10 are respectively sleeved with the connecting pieces 30, the polish rod 52 movably penetrates through the second connecting pieces 522 of the connecting pieces 30 at the two ends and respectively penetrates through the limiting assemblies 521, and the limiting assemblies 521 are respectively located at the outer sides of the two second connecting pieces 522; the lamp post 70 is provided with 3 sections, namely a vertical rod 71 and a straight rod 72 which are provided with the same two sections; the connecting members 30 between the two lamp housings 10 are connected by the straight rods 72 so that the two lamp housings 10 are connected with the straight rods 72 to form a straight line, one ends of the two lamp housings 10 far away from each other are respectively sleeved with one ends of the two vertical rods 71 by the connecting members 30, and the other ends of the two vertical rods 71 face the same direction, thereby completing the assembly of the lamp.

The above embodiments are only preferred embodiments of the present invention, and the protection scope of the present invention is not limited thereby, and any insubstantial changes and substitutions made by those skilled in the art based on the present invention are within the protection scope of the present invention.

Claims (8)

1. The utility model provides a concatenation formula architectural lighting lamp which characterized in that:

the lamp comprises a lamp shell, a light-emitting component, a connecting piece and a lamp post; the light-emitting component is arranged in the lamp shell; the connecting pieces are respectively sleeved at two ends of the lamp shell correspondingly; the two ends of the connecting piece form first sleeving ends respectively, and the first sleeving ends are used for being sleeved with the lamp shell or the lamp post in a detachable mode; a first clamping part protruding out of the first sleeving end is formed between the first sleeving ends at the two ends of the connecting piece, and the first clamping part abuts against one end of the lamp shell and is used for limiting the connecting piece; the two ends of the lamp post are respectively provided with a connecting end which is used for being in sleeve joint matching with the first sleeve connecting end; the connecting piece is connected between the two lamp shells or between one lamp shell and one lamp post;

the spliced building illuminating lamp also comprises an end cover; the end cover is detachably covered at one end of the lamp housing and used for replacing the connecting piece to form the tail end of the spliced type architectural illuminating lamp; a second sleeving end is formed at one end of the end cover, and a second clamping part protruding out of the second sleeving end is formed at the other end of the end cover; the second sleeving end is used for sleeving the lamp shell; the second clamping part is used for abutting against the lamp shell and limiting the position of the end cover on the lamp shell;

the spliced building illuminating lamp also comprises a guide rotating rod; the connecting piece and the lamp shell can rotate relatively; the rotating guide rod is arranged in the lamp shell, and two ends of the rotating guide rod are movably connected with the connecting pieces at two ends of the lamp shell in a penetrating manner respectively; the light-emitting component and the lamp shell are relatively fixed, and the rotation guide rod is connected with the light-emitting component, so that the lamp shell and the light-emitting component synchronously rotate relative to the connecting piece by taking the rotation guide rod as a rotation axis;

the inner cavity of the lamp shell is cylindrical; and the axis of the rotating guide rod is superposed with the axis of the inner cavity of the lamp housing.

2. The tiled architectural lighting lamp of claim 1, wherein: the inner cavity of the lamp shell, the first sleeve end and the second sleeve end are cylindrical; the lamp shell is in clearance fit with the first sleeve end and the second sleeve end; and sealing rings are arranged on the peripheral surfaces of the first sleeving end and the second sleeving end.

3. The tiled architectural lighting lamp of claim 1, wherein: the rotation guide rod is a bolt; the screw rod of the bolt penetrates into one of the connecting pieces and extends out to form a splicing part, and the head of the bolt is positioned on the outer side of the other connecting piece and abuts against the outer side of the other connecting piece to form an abutting part; the splicing part is connected with a nut which is positioned on the outer side of the connecting piece where the splicing part is positioned; the tightness degree of the nut relative to the connecting piece is adjusted, so that the pressing portion and the nut limit the radial direction of the bolt.

4. The tiled architectural lighting lamp of claim 3, wherein: a first connecting piece is arranged on a connecting piece between the lamp shell and the lamp post; the first connecting piece is propped against the outer side of the connecting piece in a detachable mode; and a first through hole for movably connecting the bolt is formed in the middle of the first connecting sheet.

5. The tiled architectural lighting lamp of claim 1, wherein: the rotating guide rod is a polished rod; two ends of the polish rod are respectively connected with a limiting component in a penetrating way; the limiting assemblies at the two ends of the polished rod are respectively positioned at the outer sides of the connecting pieces at the two ends of the lamp housing and are used for limiting the radial displacement of the polished rod in the lamp housing.

6. The tiled architectural lighting lamp of claim 5, wherein: a second connecting piece for supporting the polish rod is arranged between the connecting piece and the polish rod; the second connecting piece is propped against the inner side of the connecting piece in a detachable mode; and a second through hole for the movable penetration of the polish rod is formed in the middle of the second connecting piece.

7. The tiled architectural lighting lamp of claim 1, wherein: a lamp assembly is also arranged between the light-emitting component and the rotating guide rod; a bearing part is formed at the upper part of the lamp assembly; the light-emitting component is arranged on the bearing part and used for bearing the light-emitting component and dissipating heat of the light-emitting component; the lower part of the lamp assembly is sleeved on the rotating guide rod;

the lamp shell is provided with an opening for linking the outside and the inside of the lamp shell; the opening is arranged opposite to the light-emitting component so that light emitted by the light-emitting component extends out of the lamp shell from the opening; a lampshade is fixedly covered on the bearing part; the outer edge of the lampshade abuts against the inner edge of the opening, so that the lamp housing and the lamp assembly are relatively fixed.

8. The tiled architectural lighting lamp of claim 7, wherein: the light-emitting component comprises a lamp panel and a power line; the rotation guide rod is of a through structure, and one side of the rotation guide rod, which faces the lamp assembly, is provided with a wire hole communicated with the inside of the rotation guide rod; the lower part of the lamp assembly is provided with a wiring channel for communicating the wire hole with the bearing part; one end of the power line is connected with an external power supply, and the other end of the power line penetrates into the rotation guide rod from one end of the rotation guide rod, passes through the line hole and the wiring channel, extends out of the supporting part and is connected with the lamp panel circuit;

a female socket for realizing the circuit connection of the spliced building illuminating lamp is arranged in the connecting piece; the inner chamber of lamp body install with female socket corresponds the public plug of pegging graft, public plug passes through the power cord with lamp plate circuit connection.

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