CN215054454U - Internal corner T-shaped component of assembled lighting system - Google Patents

Internal corner T-shaped component of assembled lighting system Download PDF

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Publication number
CN215054454U
CN215054454U CN202120446374.1U CN202120446374U CN215054454U CN 215054454 U CN215054454 U CN 215054454U CN 202120446374 U CN202120446374 U CN 202120446374U CN 215054454 U CN215054454 U CN 215054454U
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China
Prior art keywords
plane
lampshade
corner
lamp holder
lamp
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CN202120446374.1U
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Chinese (zh)
Inventor
倪立莹
连珍
韩煜
陈征
黄佳丽
冯慧康
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Shanghai Building Decoration Engineering Group Co Ltd
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Shanghai Building Decoration Engineering Group Co Ltd
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Abstract

The utility model discloses an assembly type lighting system's reentrant corner T word component, include: the inside corner T word combination lamp stand and inside corner T word combination lamp shade. The internal corner T-shaped combined lamp holder comprises an internal corner lamp holder II and two plane lamp holders IV, the internal corner T-shaped combined lampshade comprises an internal corner lampshade II and two plane lamp shades IV, and the internal corner lampshade II is vertically spliced with the two plane lamp shades IV; the light emitting surface of the second reentrant corner lampshade and the light emitting surface of the fourth plane lampshade are communicated; the internal corner T-shaped combined lampshade is connected with the internal corner T-shaped combined lamp holder in a buckling mode. The light emitting surface of the internal corner T-shaped component is in a super narrow line-shaped through design, so that the light source is communicated; the lamp holder and the lampshade of the lighting system at the T-shaped point of the internal corner are designed into standardized components, so that the fast assembly is facilitated, the problems of difficult splicing at the joint of the connecting nodes and poor splicing effect of the luminous surface of the lampshade are solved, and the construction speed and the construction quality are improved.

Description

Internal corner T-shaped component of assembled lighting system
Technical Field
The utility model relates to an assembly type lighting system's reentrant corner T word component belongs to architectural decoration engineering technical field.
Background
In the construction of architectural decoration engineering, a lighting system is often used to decorate the wall and the top. Sometimes, an ultra-narrow light emitting surface needs to be arranged on the ultra-narrow lampshade, however, the construction of the narrow strip type lampshade and the lamp holder at the node is complex, the construction efficiency is low, and the light emitting surface is easy to leak light or break points appear.
SUMMERY OF THE UTILITY MODEL
To construction complicacy, the efficiency of construction of narrow strip type lamp shade and lamp stand in the node among the prior art low, and the easy light leak of light emitting area or the problem that the breakpoint appears, the utility model provides an assembled lighting system's reentrant corner T word component.
For solving the technical problem, the utility model discloses a following technical scheme:
a reentrant T-shaped component of a modular lighting system, comprising:
the internal corner T-shaped combined lamp holder comprises an internal corner lamp holder II and two plane lamp holders IV, wherein the two plane lamp holders IV are spliced at 90 degrees, and the internal corner lamp holder II is vertically spliced with the two plane lamp holders IV;
the inside corner T-shaped combined lampshade comprises an inside corner lampshade II and two plane lampshades IV, the two plane lampshades IV are spliced at 90 degrees, and the inside corner lampshade II is vertically spliced with the two plane lampshades IV; the light emitting surface of the second reentrant corner lampshade and the light emitting surface of the fourth plane lampshade are communicated; the internal corner T-shaped combined lampshade is connected with the internal corner T-shaped combined lamp holder in a buckling mode.
Furthermore, the two plane lamp holders IV are used for being butted with the plane lamp holders of the plane section standard type component, and the two internal corner lamp holders II are used for being butted with the internal corner lamp holders of the internal corner section standard type component;
the two plane lampshades four are used for being butted with the plane lampshades of the plane section standard type components, and the internal corner lampshades one are used for being butted with the internal corner lampshades of the internal corner section standard type components.
Furthermore, the cross sections of the plane lamp holder IV and the plane lamp holder are the same, a cavity is arranged on the back surface, and clamping grooves are formed in the two side parts;
the cross sections of the plane lampshade IV and the plane lampshade are the same, the side part of the plane lampshade IV is provided with a clamping strip matched with the clamping groove, and the front side of the plane lampshade IV is provided with a narrow strip-shaped luminous surface;
the cross sections of the inside corner lampshade II and the inside corner lampshade are the same and comprise a second unfilled corner square frame, one side edge of the unfilled corner is provided with a third clamping strip, the end part of the other side edge is provided with an L-shaped fourth clamping strip, the L-shaped fourth clamping strip and the end part of the unfilled corner square frame II form a Z shape, and a narrow strip-shaped inside corner light-emitting surface is arranged at the opposite angle of the unfilled corner square frame II;
the cross sections of the second internal corner lamp holder and the second internal corner lamp holder are the same, and the second internal corner lamp holder comprises two support plates which are arranged in an angle of 90 degrees and a connecting end; the connecting end comprises two side edges which are respectively arranged at 90 degrees with the support plate, wherein one side edge is provided with 1 clamping groove I corresponding to the clamping strip III, and the other side edge is provided with a clamping groove II corresponding to the clamping strip IV.
Further, the four planar lamp shades, the two internal corner lamp shades and the two internal corner lamp shades are made of transparent resin materials, and black matte paint is sprayed on areas except the strip-shaped luminous surface and the internal corner luminous surface.
The utility model discloses owing to adopt above technical scheme, make it compare with prior art, have following advantage and positive effect: the utility model provides a reentrant corner T word component of assembled lighting system, the light emitting area becomes the design of transfixion of ultra-narrow line shape, realizes that the light source follows up; the lamp holder and the lampshade of the lighting system at the T-shaped point of the internal corner are designed into standardized components, so that the fast assembly is facilitated, the problems of difficult splicing at the joint of the connecting nodes and poor splicing effect of the luminous surface of the lampshade are solved, and the construction speed and the construction quality are improved.
Drawings
Fig. 1 is a schematic view of the installation of the ultra-narrow line type luminous surface lighting system of the present invention;
fig. 2 is a schematic structural view of a straight section of the lighting system of the present invention;
fig. 3 is a cross-sectional view of a straight section of the lamp housing of the lighting system of the present invention;
fig. 4 is a cross-sectional view of a flat section of a lamp socket of the lighting system of the present invention;
fig. 5 is a schematic view of the installation of the straight section of the lamp cover and the lamp holder of the lighting system of the present invention;
fig. 6 is a schematic structural diagram of a cross node of a straight section of the lighting system of the present invention;
fig. 7 is a schematic structural diagram of a T-shaped node of a straight section of the lighting system of the present invention;
fig. 8 is a schematic structural view of an external corner section of the lighting system of the present invention;
fig. 9 is a cross-sectional view of the external corner section lampshade of the lighting system of the present invention;
fig. 10 is a cross-sectional view of an external corner segment lamp holder of the lighting system of the present invention;
fig. 11 is an installation diagram of the external corner section lampshade and the external corner section lamp holder of the lighting system of the present invention;
fig. 12 is a schematic structural diagram of a cross node of an external corner section of the lighting system of the present invention;
fig. 13 is a schematic structural view of a T-shaped node of an external corner section of the lighting system of the present invention;
fig. 14 is a schematic structural view of a female corner section of the lighting system of the present invention;
fig. 15 is a cross-sectional view of a shade at a reentrant section of a lighting system of the present invention;
fig. 16 is a cross-sectional view of a reentrant segment of a lighting system of the present invention;
fig. 17 is a schematic view of the installation of the inside corner section lampshade and the inside corner section lamp holder of the lighting system of the present invention;
fig. 18 is a schematic structural diagram of a cross node of a reentrant section of the lighting system of the present invention;
fig. 19 is a schematic structural diagram of a T-shaped node of a female corner section of the lighting system of the present invention;
fig. 20 is a schematic structural view of a planar cross member according to the present invention;
fig. 21 is a schematic structural view of a planar T-shaped member in the present invention;
fig. 22 and 23 are schematic structural views of two viewing angles of the male cross member of the present invention;
fig. 24 and 25 are schematic structural views of two viewing angles of the male T-shaped member of the present invention;
fig. 26 is a schematic structural view of a reentrant cross member according to the present invention;
fig. 27 is a schematic structural view of a reentrant T-shaped member according to the present invention.
The numbers in the figures are as follows:
1-keel of the partition system; 2-the ground; 3-decorating the seam;
10-a suspension frame; 101-plane section suspension; 102-external corner section suspension; 103-internal corner section suspension; 11-a connecting rod;
20-a lamp holder; 21-a cavity; 22-a card slot; 23-a screw;
30-a lampshade; 31-a card strip; 32-narrow strip shaped light emitting face;
41-iron sheet; 42-a magnet; 50-an LED light strip;
201-plane segment lamp holder; 202-external corner segment lamp holder; 2021-U shaped plate, 2022-connecting plate, 2023-L shaped support plate, 2024-notch; 2025-chamber one; 203-internal corner section lamp holder; 2031-support plate; 2032-a connection end; 2033-card slot one; 2034, a second slot; 2035-Cavity two;
301-plane segment lamp shade; 302-external corner segment lamp shade; 3021-unfilled corner square frame I; 3022-card bar one, 3023-card bar two; 3024-external corner light emitting surface; 3025-branch; 303-reentrant section lamp shade; 3031-unfilled corner square frame two; 3032-card bar III; 3033-card bar four; 3034-reentrant lighting surfaces;
61-a planar cross member; 611-plane cross-shaped lamp holder; 612-a planar cross-shaped lamp shade;
62-a planar T-shaped member; 621-plane T-shaped lamp holder; 622-flat T-shaped lamp shade;
63-external corner cross member; 6311-external corner lamp holder one; 6312-a planar lamp holder one; 6321-external corner lampshade I; 6322-planar lamp shade one;
64-male angle tee member; 6311-external corner lamp holder two; 6312-planar lamp holder two; 6321-external corner lampshade II; 6322-plane lampshade II;
65-reentrant corner cross members; 6511-first concave-angle lamp holder; 6512 planar lamp holder three; 6521-reentrant corner lampshade I; 6522 planar lampshade III;
66-reentrant T-shaped members; 6611-concave lamp holder two; 6612-plane lamp socket four; 6621-reentrant corner lampshade II; 6622 planar lampshade four.
Detailed Description
The following describes the female T-shaped component of the assembled lighting system in further detail with reference to the accompanying drawings and specific embodiments. The advantages and features of the present invention will become more apparent in conjunction with the following description. It should be noted that the drawings are in simplified form and are not to precise scale, and are provided for convenience and clarity in order to facilitate the description of the embodiments of the present invention.
To architectural decoration engineering's lighting system, need satisfy whole pleasing to the eye, safety, requirements such as construction precision, as shown in fig. 1, the utility model discloses mainly make the wall, the lighting system of top surface and 2 decoration seam 3 formation body structures on ground, because the decoration seam 3 on ground is usually at 2-5mm, in order to decorate seam 3 with ground and be consistent, lighting system need provide super narrow linear light emitting area, for example the light emitting area is 3mm, and all will guarantee that the light emitting area is continuous at unsettled frame junction, in addition, super narrow lamp stand and the lamp shade that still needs to match with it, super narrow linear lamp stand, the lamp shade, the light emitting area, there is great difference with current lighting system, need provide system architecture and the construction process who suits with it.
Example one
The present embodiment provides an ultra-narrow line type light emitting surface lighting system, as shown in fig. 1 and fig. 2, the lighting system includes a suspension frame 10, a lamp holder 20, a lampshade 30, an iron sheet 41, a magnet 42, and an LED strip 50, which are disposed along a wall surface and a top portion.
The suspension frame 10 is a rectangular steel pipe, for example, a rectangular steel pipe with a cross-sectional dimension of 40mm × 10mm and a thickness of 1.5mm is adopted, and the height of the suspension frame 10 is only 10 mm. When the lamp holder 20 is located on the plane section of the suspension frame 10, the lamp holder 20 is arranged on the side part of the rectangular steel pipe with the thickness of 10 mm; when the lamp socket 20 is located at the male corner section or the female corner section, the lamp socket 20 is disposed on both sides of the same corner of the rectangular steel pipe. The hanging frame 10 of the wall surface is fixedly connected with the keel 1 of the partition wall system through a connecting rod 11, and the connecting rod 11 also adopts a rectangular steel pipe with the cross section size of 40mm multiplied by 10mm and the thickness of 1.5 mm. The overhead suspension 10 is secured to the overhead building structure by means of hanger rods. As an example, the width of ground decoration seam is 3mm, and the interval is 800mm, and unsettled frame 10 comprises the rectangle steel pipe that moves about freely and quickly the setting, and the interval of the rectangle steel pipe of vertical setting sets up to 800mm, and the volume rectangle steel pipe interval that transversely sets up also sets up to 800mm, and the width in super narrow light emitting area is 3mm, and the width of lamp shade is 10 mm. Since the lamp cover 30 itself is narrow and the light-emitting surface 32 is narrow, the lamp cover 30 is made of a transparent resin material for convenience of manufacture, and the area outside the light-emitting surface 32 is sprayed with black matte paint. In order to better highlight the linear light effect, the suspension frame 10, the connecting rod and the hanging rod are all coated with black matte paint.
The lamp holder 20 is arranged along the length direction of the suspension frame 10 and fixed on the suspension frame 10 through screws 23, one screw 23 can be arranged at an interval of 200mm, and the lamp holder 20 and the suspension frame 10 are sealed by silica gel, so that the lamp holder 20 is ensured to be tightly attached to the suspension frame 10. Referring to fig. 2 to 5, the lamp socket 20 is provided with a cavity 21 at one side of the connecting suspension frame 10, for example, the lamp socket 20 is in a chevron shape and is provided with two cavities 21, and the outer sides of two side edges of the lamp socket 20 are provided with circular arc-shaped slots 22. The lampshade 30 is provided with an arc clamping strip 31 matched with the arc clamping groove 22, the lampshade 30 is provided with a narrow strip-shaped luminous surface 32, and the width c of the narrow strip-shaped luminous surface 32 is 3 mm. The LED strip 50 is disposed along the length of the socket 20, for example, the width a of the globe 30110mm, lamp shade 3Depth b of 01=10mm。
The lamp holder 20 with the length of 800mm generates deflection when being installed because the lamp holder 20 is narrower and less than 10mm, which is not beneficial to leveling by operators. Therefore, preferably, the magnet 42 is arranged in the cavity 21 of the lamp holder 20, the magnet 42 is fixed in the cavity 21 of the lamp holder 20 by 502 glue, the length of the magnet 42 is 20mm, the length of the rectangular steel tube of the suspension frame 10 is 800mm, and 3 pairs of magnets 42 can be arranged. The magnet 42 plays a leveling and straightening role during installation, for example, specifically, an iron sheet 41 may be disposed on the suspension frame 10, the size of the iron sheet 41 is 20mm (length) × 10mm (width) × 1.3mm (thickness), the iron sheet 41 is fixed on the suspension frame 10 through silica gel, the lamp holder 20 is adsorbed on the iron sheet 41 on the suspension frame 10 through the magnet 42 disposed in the cavity 21, and then the lamp holder 20 is fixed through the screw 23 after being precisely leveled and adjusted. The problem of temporary fixation between the narrow strip-shaped lamp holder 20 and the narrow strip-shaped suspension frame 10 is well solved through a magnetic attraction method, and the lamp holder 20 is conveniently and accurately aligned. The problem that the narrow strip-shaped lamp holder 20 and the narrow strip-shaped suspension bracket 10 are not convenient to weld is solved by fixing through the screws 23.
The lighting system of super narrow line type light emitting area that this embodiment provided can realize that the lighting system of wall, top surface and the decoration seam on ground present the integration effect, and hangs empty frame, lamp stand, lamp shade and all adopt super narrow design, and the light emitting area becomes super narrow line shape and link up the design, realizes that the light source follows the expert. Through set up magnet in the cavity of lamp stand, set up the iron sheet on the overhead frame to be convenient for interim fixed and the rapid alignment of lamp stand, solve the installation difficult problem of narrow strip lamp stand on the narrow strip overhead frame.
Example two
The embodiment provides a construction method of an ultra-narrow line type light emitting surface lighting system, which is shown in combination with the first embodiment and fig. 1 to 19, and the construction method comprises the following steps:
the hanging frame 10 is arranged along the wall surface and the top, and the hanging frame 10 of the wall surface is fixedly connected with the keel 1 of the partition wall system through a connecting rod 11; the overhead suspension 10 at the top is fixed on the building structure at the top through a suspension rod; the positions and the intervals of the suspension frames are matched with the decorative seams of the ground;
a plurality of iron sheets 41 are arranged on the suspension frame 10 at intervals; a plurality of magnets 42 are arranged in the cavity 21 of the lamp holder 20; adsorbing the lamp holder 20 on the iron sheet 41 through the magnet 42, accurately aligning the lamp holder 20, and then fixing the lamp holder on the suspension frame through the screw 23;
fixing the LED strip 50 on the lamp holder 20;
the lampshade 30 is clipped in the clipping slot 22 on the lamp holder 20 through the clipping strip 31.
In a preferred embodiment, the globe 30 is made of a transparent resin material, and a region other than the light emitting surface 32 is sprayed with a black matte varnish. In order to better highlight the linear light effect, the suspension frame 10, the connecting rod and the hanging rod are all coated with black matte paint.
EXAMPLE III
As shown in fig. 6 to 19, the suspension 10 of the ultra-narrow line type luminous surface lighting system includes a plane section suspension 101, an external corner section suspension 102 and an internal corner section suspension 103, so that the lamp socket 20 and the lamp shade 30 have different sectional forms. The lamp holder 20 comprises a plane segment lamp holder 201, an external corner segment lamp holder 202 and an internal corner segment lamp holder 203, and the lampshade 20 comprises a plane segment lampshade 301, an external corner segment lampshade 202 and an internal corner segment lampshade 303.
The suspension frame shown in fig. 2 is a plane section suspension frame, the lamp holder shown in fig. 3 to 5 is a plane section lamp holder, and the lamp shade is a plane section lamp shade, which are already described in fig. 2 to 5 in the first embodiment and are not described again here.
Fig. 6 shows a schematic structural diagram of a light system at a cross node of a plane section suspension frame 101. When the lamp is installed, the plane section lamp holder 201 is erected in a cross shape, and the light emitting surface of the plane section lamp shade 301 needs to be penetrated in a cross shape, so that two plane section lamp shades in the horizontal direction are arranged at intervals in fig. 6 to form a splicing seam with the width of 3 mm; a 10mm notch is cut in the middle of a lampshade 30 in the vertical direction, and only the remaining light emitting surfaces are communicated; during installation, the light emitting surface of the plane section lamp shade 301 in the vertical direction is directly placed in the splicing seam of the plane section lamp shade 301 in the horizontal direction, the groove opening of the plane section lamp shade 301 in the vertical direction clamps the plane section lamp shade 301 in the horizontal direction, the seam is fixed by glue, and the glue is polished to be smooth, so that the vertical light emitting surface and the horizontal light emitting surface are spliced to form a breakpoint-free light emitting effect.
Fig. 7 shows a schematic diagram of the structure of the light system at T byte point of the flying rack 101. A 10mm wide notch is formed in the horizontally arranged plane section lamp cover 301 at the top along the lower edge of the light-emitting surface 32, and the vertical lamp cover 30 is inserted into the notch, so that the light-emitting surface 32 of the plane section lamp cover 301 in the vertical direction is communicated with the light-emitting surface 32 of the plane section lamp cover 301 in the horizontal direction.
Fig. 8 shows a structural schematic diagram of the lighting system of the external corner section suspension frame 102, fig. 9 and 10 show cross-sectional views of the external corner section lamp holder 202 and the external corner section lamp shade 302 matched with the external corner section suspension frame 102, and fig. 11 shows an installation schematic diagram of the external corner section lamp holder 202 and the external corner section lamp shade 302. Referring to fig. 8 to 11, the external corner segment lamp holder 202 includes a U-shaped plate 2021 and two connecting plates 2022 disposed at 90 degrees, two sides of the U-shaped plate 2021 are respectively provided with an L-shaped support plate 2023, and the end of the L-shaped support plate 2023 and the end of the U-shaped plate 2021 form a notch 2024; one end of each of the two connecting plates 2022 is connected to the bottom of the U-shaped plate 2021 and symmetrically arranged in a splayed manner, the other end of the connecting plate 2022 is provided with a notch 2026, and the connecting plate 2022 is provided with a first cavity 2025 for accommodating the magnet 42. The external corner section lampshade 302 comprises a first unfilled corner square frame 3021, two clamping strips 3022 are arranged on one side edge of a unfilled corner of the first unfilled corner square frame 3021 at intervals, a clamping strip II 3023 is arranged on the other side edge, and the opposite angle of the unfilled corner is a narrow strip-shaped external corner luminous surface 3024; two sides connected to the external light emitting surface 3024 are each provided with 1 branch 3025. When the external corner section lampshade 302 is assembled with the external corner section lamp holder 202, the two support strips 3025 are inserted into the notch 2024 of the external corner section lamp holder 202, the first two clamping strips 3022 are clamped at the end of one of the connecting plates, the first one clamping strip is inserted into the notch 2026, and the second one clamping strip 3023 is inserted into the notch 2026 at the end of the other connecting plate 2022.
Fig. 12 shows a schematic structural diagram of the lighting system at the cross node of the external corner section suspension frame 102. The vertical square steel pipe of the cross node of the external corner section suspension frame 102 is an external corner section, the other two horizontal square steel pipes which are arranged at a right angle are plane sections, the cross section structures of the plane section lamp holder 201 and the plane section lamp shade 301 are shown in the figures 3 to 5, and the cross section structures of the external corner section lamp holder 202 and the external corner section lamp shade 302 are shown in the figures 9 to 11. The splicing parts of the two plane segment lamp holders 201 and the plane segment lamp cover 301 form a 45-degree cutting angle. The middle of the external corner section lamp holder 202 of the vertical section is cut off, so that the plane section lamp holder 201 is inserted; the vertical section external corner section lampshade 302 is cut into a 10mm wide notch, only the light emitting surface 32 is communicated at the notch, and the plane section lampshade 301 is inserted into the notch of the external corner section lampshade 302, so that the light emitting surfaces of the plane section lampshade 301 and the external corner section lampshade 302 are communicated at a cross node.
Fig. 13 shows a schematic structural diagram of the light system at T byte point of the external corner section suspension frame 102. The vertical square steel pipe of the T-shaped node of the external corner section suspension frame 102 is an external corner section, the other two horizontal square steel pipes arranged at a right angle are plane sections, the cross-sectional structures of the plane section lamp holder 201 and the plane section lampshade 301 are shown in fig. 3 to 5, and the cross-sectional structures of the external corner section lamp holder 202 and the external corner section lampshade 302 are shown in fig. 9 to 11. Wherein two plane section lamp stands 201 are 45 degrees chamfers and splice fixedly, and the external corner section lamp stand 202 top of vertical direction and two plane section lamp stands 201 splice fixedly. The light emitting surface and the upper part of the plane section lampshade 301 in the horizontal direction form a 45-degree chamfer angle, and the part below the light emitting surface forms a rectangular chamfer angle; the plane section lamp covers 301 are spliced and fixed, the light emitting surfaces are communicated, and the external corner section lamp covers 302 are inserted into the rectangular cut angles of the two plane section horizontal lamp covers 301, so that the vertical light emitting surfaces are communicated with the horizontal light emitting surfaces.
Fig. 14 shows a structural schematic diagram of the lighting system of the inside corner section suspension frame 103, fig. 15 and 16 show schematic diagrams of the inside corner section lamp holder 203 and the inside corner section lampshade 303 matched with the inside corner section suspension frame 103, and fig. 17 shows an installation schematic diagram of the inside corner section lamp holder 203 and the inside corner section lampshade 303. As shown in fig. 14 to 17, the inside corner section lampshade 303 includes a corner-cut square frame two 3031, one side of the corner-cut is provided with a clip strip three 3032, the end of the other side is provided with an L-shaped clip strip four 3033, the L-shaped clip strip four 3033 and the end of the corner-cut square frame two 3031 form a zigzag shape, and a narrow-strip inside corner light emitting surface 3034 is arranged at the diagonal position of the corner-cut square frame two 3031. The internal corner section lamp holder 203 comprises two support plates 2031 which are fixed with the square steel pipe of the internal corner section suspension frame 103 and are arranged at 90 degrees, and a connecting end 2032 connected with the internal corner section lamp shade 303; the connecting end 2032 comprises two side edges which are respectively arranged at 90 degrees with the support plates 2031, wherein one side edge is provided with 1 first clamping groove 2033 corresponding to the clamping strip three 3032 of the internal corner section lampshade 303, the other side edge is provided with a second clamping groove 2034 corresponding to the clamping strip four 3033 of the internal corner section lampshade 303, and the splicing part of the two support plates 2031 and the square steel pipe of the internal corner section suspension frame 103 is provided with a second cavity 2035 for accommodating the magnet 42.
Fig. 18 shows a schematic structural diagram of the light system at the cross node of the suspension frame 103 at the internal corner section. The vertical square steel pipe of the cross node of the internal corner section suspension frame 103 is an internal corner section, the other two horizontal square steel pipes which are arranged at a right angle are plane sections, the plane section lamp holder 201 and the plane section lampshade 301 are shown with reference to fig. 3 to 5, and the internal corner section lamp holder 203 and the internal corner section lampshade 303 are shown with reference to fig. 15 to 17. The splicing parts of the two plane segment lamp holders 201 are at 45-degree cutting angles, and the splicing parts of the two plane segment lamp covers 301 are at 45-degree cutting angles. The middle of the internal corner section lamp holder 203 of the vertical section is cut off, so that the plane section lamp holder 201 is inserted; the female angle section lampshade 303 is cut into a notch with the width of 10mm, only the remaining luminous surface at the notch is communicated, and the plane section lampshade 301 is inserted into the notch of the female angle section lampshade 303, so that the luminous surfaces of the female angle section lampshade 303 and the plane section lampshade 301 are communicated at a connecting node.
Fig. 19 shows a schematic structural diagram of the light system at T byte point of the inside corner section suspension tower 103. The vertical square steel pipe of the T-shaped node of the reentrant section suspension frame 103 is a reentrant section, the other two horizontal square steel pipes arranged at a right angle are plane sections, the plane section lamp holder 201 and the plane section lampshade 301 are shown with reference to fig. 3 to 5, and the reentrant section lamp holder 203 and the reentrant section lampshade 303 are shown with reference to fig. 15 to 17. Wherein two plane section lamp stands 201 are 45 degrees chamfers and splice fixedly, reentrant corner section lamp stand 20 top and two plane section lamp stands 201 splice fixedly. The light-emitting surface and the upper part of the plane section lampshade 301 form a 45-degree chamfer angle, and the part below the light-emitting surface forms a rectangular chamfer angle; the plane section lamp covers 301 are spliced and fixed, the light emitting surfaces are communicated, the internal corner section lamp covers 30 are inserted into the rectangular cut corners of the two plane section lamp covers 301, and the light emitting surfaces of the internal corner section lamp covers and the plane section lamp covers are communicated.
Example four
Because the suspension frame 10 includes plane section suspension frame 101, external corner section suspension frame 102, reentrant corner section suspension frame 103, suspension frame 10 still includes T shape node, cross node, the construction difficulty lies in, the concatenation node needs the lamp stand cutting, realize different forms of lamp stand concatenation, especially during the light emitting area concatenation of lamp shade, realize the cutting of the non-light emitting area of lamp shade, the buckle, realize lining up of light emitting area, this needs more manual work, the efficiency of construction is lower, and the concatenation precision of node is difficult to guarantee. Therefore, the extremely complicated structural form brings difficulty to the construction of the lamp shade and the lamp holder of the lighting system.
In order to improve the efficiency of construction, guarantee construction quality, the utility model provides a standardized component of lamp shade and lamp stand, including plane standard type component, plane cross component, plane T word component, external corner standard type component, external corner cross component, external corner T word component, reentrant corner standard type component, reentrant corner cross component, reentrant corner T word component.
The flat standard type component comprises a flat lamp holder and a flat lampshade with standard length, and the cross section forms of the flat lamp holder and the flat lampshade are shown in figures 3 and 4. The external corner standard member comprises a standard length external corner socket and external corner lampshade, the cross section form of the external corner socket and external corner lampshade is shown in fig. 9 and 10. The reentrant modular members include a standard length reentrant base and canopy in cross-sectional form as shown in figures 15 and 16.
Fig. 20 shows a schematic structural view of the planar cross member 61, and the planar cross member 61 includes a planar cross lamp holder 611 and a planar cross lamp cover 612. Fig. 21 shows a schematic structure of the planar T-shaped member 62, and the planar T-shaped member 62 includes a planar T-shaped lamp holder 621 and a planar T-shaped lamp cover 622. The cross-sectional structures of the cross-shaped lamp holder 611 and the T-shaped lamp holder 621 are shown in fig. 3, and the cross-sectional structures of the cross-shaped lamp cover 612 and the T-shaped lamp cover 622 are shown in fig. 4. The plane cross member integrates the lamp holder at the cross node into a whole, integrates the lampshade into a whole, and when the plane cross member is used, the four end parts are directly butted with the plane standard type member. The planar T-shaped component integrates the lamp holders at the T-shaped nodes into a whole, and integrates the lampshade into a whole, and when the planar T-shaped component is used, the three end parts are directly butted with the planar standard component. The lamp holders and the lamp covers at the cross-shaped nodes and the T-shaped nodes of the plane section are standardized, and the processes of slotting, cutting and the like in a construction site can be omitted.
Fig. 22 and 23 show a structural schematic diagram of the external corner cross member 63, and the external corner cross member 63 includes an external corner cross combination lamp holder and an external corner cross combination lamp cover. The external corner cross-shaped combined lamp holder comprises an external corner lamp holder 6311 and two plane lamp holders 6312, the two plane lamp holders 6312 are arranged at 90 degrees, and the external corner lamp holders 6311 are vertically arranged and vertically spliced with the two plane lamp holders 6312. The external corner cross combination lampshade comprises an external corner lampshade one 6321 and two plane lampshades one 6322. Two first 6322 of planar lamp covers are 90 settings, and the vertical setting of an external corner lamp cover 6321 just splices perpendicularly with two first 6322 of planar lamp covers, and the light emitting area of an external corner lamp cover and the light emitting area of a planar lamp cover realize lining up. When the lamp is used, the two first plane lamp holders are respectively butted with the plane lamp holder of one plane standard component, and two ends of the two first external corner lamp holders are respectively butted with the external corner lamp holders of the two external corner standard components; the two first plane lampshades are respectively butted with the plane lampshades of the plane standard type component, and two ends of the first external corner lampshades are respectively butted with the external corner lampshades of the external corner standard type component. The cross-sectional structures of the first plane lamp holder and the first plane lampshade are shown in figures 3 and 4, and the cross-sectional structures of the first external corner lamp holder and the first external corner lampshade are shown in figures 9 and 10.
Fig. 24 and 25 show a structural schematic diagram of the external corner T-shaped member 64, and the external corner T-shaped member 64 includes an external corner T-shaped combined lamp holder and an external corner T-shaped combined lamp cover. The external corner T-shaped combined lamp holder comprises two external corner lamp holders 6311 and two plane lamp holders 6312, the two plane lamp holders are arranged at 90 degrees, and the tops of the two external corner lamp holders are vertically spliced with the two plane lamp holders. The external corner T-shaped combined lampshade comprises two external corner lampshades 6321 and two plane lampshades 6322, the two plane lampshades are arranged at 90 degrees, the tops of the two external corner lampshades are vertically spliced with the two plane lampshades, and the light emitting surfaces of the two external corner lampshades and the light emitting surfaces of the two plane lampshades are communicated.
When the lamp is used, the two plane lamp holders II are respectively butted with the plane lamp holder of the plane section standard component, and the external corner lamp holder II is butted with the external corner lamp holder of the external corner section standard component; the two plane lamp shades are respectively butted with the plane lamp shades of the two plane section standard type components, and the external corner lamp shade is butted with the external corner lamp shade of the external corner section standard type component. The cross section structures of the second plane lamp holder and the second plane lampshade are shown in figures 3 and 4, and the cross section structures of the second external corner lamp holder and the second external corner section lampshade are shown in figures 9 and 10.
Fig. 26 shows a schematic view of the female cross member 65, and the female cross member 65 includes a female cross combination lamp holder and a female cross combination lamp cover. The internal corner cross-shaped combined lamp holder comprises an internal corner lamp holder I6511 and two plane lamp holders III 6512, wherein the two plane lamp holders III are vertically spliced with the internal corner lamp holder I, and the two plane lamp holders III are arranged at 90 degrees. The internal corner cross combined lampshade comprises a first internal corner lampshade 6521 and a third plane lampshade 6522, the two third plane lampshades and the first internal corner lampshade are vertically spliced, and the two third plane lampshades are arranged at 90 degrees. When the lamp is used, the two planar lamp holders III are respectively butted with the planar lamp holder of the planar section standard type component, and the two ends of the internal corner lamp holder I are respectively butted with the internal corner lamp holders of the internal corner section standard type component; and two ends of the first internal corner lampshade are respectively butted with the internal corner lampshade of the standard component of the internal corner section. The cross-sectional structures of the third plane lamp holder and the third plane lampshade are shown in fig. 3 and 4, and the cross-sectional structures of the first reentrant lamp holder and the first reentrant lampshade are shown in fig. 15 and 16.
Fig. 27 shows a schematic view of the female T-shaped member 66, the female T-shaped member 66 comprising a female combination socket and a female combination shade. The internal corner T-shaped combined lamp holder comprises a second internal corner lamp holder 6611 and two fourth plane lamp holders 6612, wherein the two fourth plane lamp holders 6612 are spliced at 90 degrees, and the second internal corner lamp holder 6611 is vertically spliced with the two fourth plane lamp holders 6612. The internal corner T-shaped combined lampshade comprises a second internal corner lampshade 6621 and two fourth plane lampshades 6622, the two fourth plane lampshades are spliced at 90 degrees, and the second internal corner lampshade is vertically spliced with the two fourth plane lampshades. When the lamp is used, the two plane lamp holders IV are respectively butted with the plane lamp holder of the plane section standard type component, and the two internal corner lamp holders II are butted with the internal corner lamp holders of the internal corner section standard type component; the two plane lampshades four are respectively butted with the plane lampshades of the plane section standard type component, and the internal corner lampshades I are butted with the internal corner lampshades of the internal corner section standard type component. The cross-sectional structures of the planar lamp holder four and the planar lamp shade four are shown in fig. 3 and 4, and the cross-sectional structures of the reentrant lamp holder two and the reentrant lamp shade two are shown in fig. 15 and 16.
EXAMPLE five
The embodiment provides a construction method of a three-dimensional traceless breakpoint lighting system with an ultra-narrow linear light emitting surface, and referring to fig. 1 to 19, the construction method comprises the following steps:
the hanging rack 10 is arranged along the wall surface and the top, and the hanging rack 10 comprises an external corner section hanging rack arranged at an external corner of the building structure, an internal corner section hanging rack arranged at an internal corner of the building structure and a plane section hanging rack arranged on the wall surface and the top; the suspension frame 10 is fixedly connected with a keel 1 of a partition wall system through a connecting rod 11 or is fixed on a building structure at the top through a suspension rod; the positions and the intervals of the suspension frames are matched with the decorative seams of the ground;
fixing a plane section lamp holder on the plane section suspension frame, fixing an external corner section lamp holder on the external corner section suspension frame, and fixing an internal corner section lamp holder on the internal corner section suspension frame;
the LED lamp strip is arranged along the plane section lamp holder, the external corner section lamp holder and the internal corner section lamp holder;
the planar section lamp shade is installed on the planar section lamp holder, the external corner section lamp shade is installed on the external corner section lamp holder, the internal corner section lamp shade is installed on the internal corner section lamp holder, a narrow strip-shaped light emitting surface is arranged on the planar section lamp shade, the external corner section lamp shade and the internal corner section lamp shade, and the narrow strip-shaped light emitting surface is communicated at a connecting node.
In a preferred embodiment, a plurality of iron sheets 41 are arranged on the suspension frame 10 at intervals; plane section lamp stand, external corner section lamp stand, reentrant corner section lamp stand are provided with the cavity with unsettled frame junction, set up magnet in the cavity, when mounting plane section lamp stand, external corner section lamp stand or reentrant corner section lamp stand, adsorb on the iron sheet of unsettled frame through magnet earlier, then carry out accurate alignment.
The structural form at the intersection point of the plane section suspension frame, the structural form at the intersection point of the external corner section suspension frame, the structural form at the intersection point of the internal corner section suspension frame, and the structural form at the intersection point of the internal corner section suspension frame are referred to in the third embodiment, which is not described herein again.
The structural forms of the plane section lamp holder, the external corner section lamp holder and the internal corner section lamp holder and the structural forms of the plane section lampshade, the external corner section lampshade and the internal corner section lampshade are shown in the first embodiment, the second embodiment and the third embodiment, and the description is omitted here.
EXAMPLE six
The embodiment provides a construction method of a standardized lighting system with an ultra-narrow line-shaped light emitting surface, and as shown in fig. 1 to 27, the construction method includes the following steps:
the hanging rack 10 is arranged along the wall surface and the top, and the hanging rack 10 comprises an external corner section hanging rack 102 arranged at an external corner of the building structure, an internal corner section hanging rack 103 arranged at an internal corner of the building structure, and a plane section hanging rack 101 arranged on the wall surface and the top; the suspension frame 10 is fixedly connected with a keel 1 of a partition wall system through a connecting rod 11 or is fixed on a building structure at the top through a suspension rod; the positions and the intervals of the suspension frames are matched with the decorative seams 3 of the ground 2;
a plane cross lamp holder 611 is arranged at a cross node of the plane section suspension frame 101, and a plane T-shaped lamp holder 621 is arranged at a T-byte point of the plane section suspension frame; an external corner cross combined lamp holder 631 is arranged at the cross node of the external corner section suspension frame 102, and an external corner T-shaped combined lamp holder 641 is arranged at the T byte point of the external corner section suspension frame; a reentrant cross combined lamp holder 651 is arranged at the cross node of the reentrant section suspension frame 103, and a reentrant T-shaped combined lamp holder 661 is arranged at the T-byte point of the reentrant section suspension frame; then respectively arranging a plane lamp holder, an external corner lamp holder and an internal corner lamp holder on the plane section suspension frame, the external corner section suspension frame and the internal corner section suspension frame to finish the installation of the lamp holder system on the suspension frames;
the LED lamp strips 50 are arranged along the plane section lamp holder, the external corner section lamp holder and the internal corner section lamp holder, and the LED lamp strips 50 are communicated at the plane cross lamp holder, the plane T-shaped lamp holder, the external corner cross combined lamp holder, the external corner T-shaped combined lamp holder, the internal corner cross combined lamp holder and the internal corner T-shaped combined lamp holder;
a plane cross lampshade 612, a plane T-shaped lampshade 622, an external corner cross combined lamp holder 632, an external corner T-shaped combined lamp holder 642, an internal corner cross combined lamp holder 652 and an internal corner T-shaped combined lamp shade 662 are respectively arranged on the plane cross lamp holder, the plane T-shaped lamp holder, the external corner cross combined lamp holder, the external corner T-shaped combined lamp holder, the internal corner T-shaped combined lamp holder and the internal corner T-shaped combined lamp holder, and a plane lampshade, an external corner lampshade and an internal corner lampshade are respectively arranged on the plane lamp holder, the external corner lamp holder and the internal corner lamp holder to realize the communication of the luminous surface of the lampshade.
The technical features of the embodiments described above may be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the embodiments described above are not described, but should be considered as being within the scope of the present specification as long as there is no contradiction between the combinations of the technical features.
The above-mentioned embodiments only represent some embodiments of the present invention, and the description thereof is specific and detailed, but not to be construed as limiting the scope of the present invention. It should be noted that, for those skilled in the art, without departing from the spirit of the present invention, several variations and modifications can be made, which are within the scope of the present invention. Therefore, the protection scope of the present invention should be subject to the appended claims.

Claims (4)

1. An internal corner tee member for a modular lighting system, comprising:
the internal corner T-shaped combined lamp holder comprises an internal corner lamp holder II and two plane lamp holders IV, wherein the two plane lamp holders IV are spliced at 90 degrees, and the internal corner lamp holder II is vertically spliced with the two plane lamp holders IV;
the inside corner T-shaped combined lampshade comprises an inside corner lampshade II and two plane lampshades IV, the two plane lampshades IV are spliced at 90 degrees, and the inside corner lampshade II is vertically spliced with the two plane lampshades IV; the light emitting surface of the second reentrant corner lampshade and the light emitting surface of the fourth plane lampshade are communicated; the internal corner T-shaped combined lampshade is connected with the internal corner T-shaped combined lamp holder in a buckling mode.
2. A recessed T-shaped component for a modular lighting system as claimed in claim 1,
the two planar lamp holders IV are used for being butted with the planar lamp holders of the planar section standard type component, and the two internal corner lamp holders II are used for being butted with the internal corner lamp holders of the internal corner section standard type component;
the two plane lampshades four are used for being butted with the plane lampshades of the plane section standard type components, and the internal corner lampshades one are used for being butted with the internal corner lampshades of the internal corner section standard type components.
3. A recessed T-shaped component for a modular lighting system as claimed in claim 2,
the cross sections of the plane lamp holder IV and the plane lamp holder are the same, a cavity is arranged on the back surface of the plane lamp holder IV, and clamping grooves are formed in the two side parts of the plane lamp holder IV;
the cross sections of the plane lampshade IV and the plane lampshade are the same, the side part of the plane lampshade IV is provided with a clamping strip matched with the clamping groove, and the front side of the plane lampshade IV is provided with a narrow strip-shaped luminous surface;
the cross sections of the inside corner lampshade II and the inside corner lampshade are the same and comprise a second unfilled corner square frame, one side edge of the unfilled corner is provided with a third clamping strip, the end part of the other side edge is provided with an L-shaped fourth clamping strip, the L-shaped fourth clamping strip and the end part of the unfilled corner square frame II form a Z shape, and a narrow strip-shaped inside corner light-emitting surface is arranged at the opposite angle of the unfilled corner square frame II;
the cross sections of the second internal corner lamp holder and the second internal corner lamp holder are the same, and the second internal corner lamp holder comprises two support plates which are arranged in an angle of 90 degrees and a connecting end; the connecting end comprises two side edges which are respectively arranged at 90 degrees with the support plate, wherein one side edge is provided with 1 clamping groove I corresponding to the clamping strip III, and the other side edge is provided with a clamping groove II corresponding to the clamping strip IV.
4. A recessed T-shaped component for a modular lighting system as claimed in claim 3,
the flat lampshade IV, the flat lampshade, the internal corner lampshade II and the internal corner lampshade are made of transparent resin materials, and the area outside the strip-shaped luminous surface and the internal corner luminous surface is sprayed with black matte paint.
CN202120446374.1U 2021-03-02 2021-03-02 Internal corner T-shaped component of assembled lighting system Active CN215054454U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN202120446374.1U CN215054454U (en) 2021-03-02 2021-03-02 Internal corner T-shaped component of assembled lighting system

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN202120446374.1U CN215054454U (en) 2021-03-02 2021-03-02 Internal corner T-shaped component of assembled lighting system

Publications (1)

Publication Number Publication Date
CN215054454U true CN215054454U (en) 2021-12-07

Family

ID=79254304

Family Applications (1)

Application Number Title Priority Date Filing Date
CN202120446374.1U Active CN215054454U (en) 2021-03-02 2021-03-02 Internal corner T-shaped component of assembled lighting system

Country Status (1)

Country Link
CN (1) CN215054454U (en)

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