CN114353027A

CN114353027A - Mounting method of reversible LED lamp

Info

Publication number: CN114353027A
Application number: CN202111600093.8A
Authority: CN
Inventors: 黄灿明; 朱从文; 兰靖; 黄用国; 宋远能; 刘玉生
Original assignee: Guangzhou Ledia Lighting Co Ltd
Current assignee: Guangzhou Ledia Lighting Co Ltd
Priority date: 2021-12-24
Filing date: 2021-12-24
Publication date: 2022-04-15

Abstract

The invention provides a mounting method of a reversible LED lamp, wherein a rotating bracket is rotatably arranged in a fixed bracket; the fixed bracket is provided with an avoidance groove; the rotating bracket has large rotating amplitude; the fixed bracket comprises a first plate body and a second plate body; one side of the first plate body is connected with the second plate body, and the other side of the first plate body is connected with the first limiting part; the rotating bracket comprises a third plate body and a rotating support piece; one side of the third plate body is connected with the first rotating part, and the other side of the third plate body is connected with the rotating support piece; the rotating support piece is positioned below the second plate body and the third plate body; one side of the rotating support piece, which is close to the second plate body, is arranged in parallel with the second plate body; the first plate body, the second plate body, the third plate body and the rotating support piece form a power supply installation space; the rotating support piece forms a light source installation space, and a light emitting assembly is arranged in the light source installation space; when the power supply in the power supply installation space is maintained or replaced, the power supply installation space is opened by unfolding the rotating support, and the operation is convenient.

Description

Mounting method of reversible LED lamp

Technical Field

The invention relates to the technical field of illumination, in particular to a turnover method of a turnover LED lamp.

Background

Linear lamps are used for local illumination; the existing linear lamp is arranged in an integrated manner; the size of the linear lamp is fixed; it is not possible to lengthen or shorten the length of the linear lamp according to the lighting requirements; is inconvenient to use. The bracket and the cover plate of the existing lamp body are fixed through screws; when replacement or maintenance is carried out; the screw is required to be removed to open the interior of the lamp body; the operation is inconvenient, and current lamp body need be earlier installed the support on the installation face when the installation in addition, then install apron and support after the support to if the support centre form group need be changed, need dismantle the lamp body earlier then change after dismantling the apron, the operation is complicated.

In chinese application No. 201520023895.0; patent document No. 2015.5.13 discloses a side sill assembly for an LED lighting device and an LED lighting device; the side beam cover plate can be buckled on the side beam or one end of the side beam cover plate is far away from the side beam by rotating the side beam cover plate; the module can be installed or replaced by turning over the side beam cover plate.

The connecting shaft of the side beam assembly is longitudinally limited in the limiting groove; the upper end of the limiting groove is provided with a limiting structure with the width smaller than that of the connecting shaft; the size of the limiting structure is smaller than that of the connecting shaft, so that the connecting shaft cannot be separated from the limiting groove in the longitudinal direction, and the longitudinal limiting of the connecting shaft is realized; in order to realize the rotation of the connecting shaft; a plate body is arranged between the side beam cover plate and the connecting shaft; when the connecting shaft is arranged in the limiting groove, the plate body is arranged in the limiting structure; when the side beam cover plates are opened and closed, the side beam cover plates and the bracket swing; however, the limiting structure is not provided with an avoiding structure for the plate body to move; the rotation of the lower end of the side beam cover plate needs to be supported by a bracket, and the swing amplitude of the plate body is small; the spread range of the side beam cover plate is small; thus, the construction area formed by the side beam cover plate and the bracket is small; when changing the subassembly and maintaining, be not convenient for construction, this curb girder apron only maintains the LED module of placing in the curb girder apron simultaneously, if in the LED module luminous component and power supply unit divide the regional maintenance that needs additionally to increase a plurality of curb girder apron realization different regions again when setting up, the structure is complicated.

Disclosure of Invention

The invention provides a mounting method of a reversible LED lamp, wherein an avoiding groove is arranged on a fixed support, the rotating amplitude of a rotating support relative to a fixed frame is large, and the expanding amplitude of the rotating frame is large; meanwhile, after the rotating bracket is installed, the rotating bracket is unfolded firstly; this facilitates connection of the power source and the light emitting assembly.

In order to achieve the purpose, the technical scheme of the invention is as follows: a method for turning over a reversible LED lamp comprises a lamp body, wherein the lamp body comprises a fixed support and a rotating support, the fixed support is arranged on one side of the lamp body, and the rotating support is arranged on the other side of the lamp body; the fixed bracket is connected with a fixed piece; the rotating bracket is connected with a rotating piece; the rotating part is rotatably arranged on the fixed part; a power supply is arranged on the fixed support, and first cover plates are arranged at the left end and the right end of the fixed support; the rotating bracket is provided with a light-emitting component, and the left end and the right end of the rotating bracket are provided with second cover plates; the fixing piece comprises a first limiting part and a second limiting part, and the second limiting part is positioned on one side of the first limiting part; the first limiting part is recessed towards the direction far away from the second limiting part to form an avoiding groove, and the avoiding groove is used for containing the rotating piece; the second limiting part is sunken with a rotating groove; the rotating piece is provided with a rotating shaft; the rotating part is wrapped in the second limiting part, and the rotating shaft is rotatably arranged in the rotating groove.

The installation method of the lamp comprises the following steps:

and (1) installing a light-emitting component and a second cover plate on the rotating support.

And (2) fixing the fixed support and installing a power supply.

Step (3), the rotating part is arranged in the fixing part in a sliding mode, the rotating support is unfolded, and then the first cover plate is installed; the unfolding rotating bracket specifically comprises: the driving rotating piece is close to the avoiding groove to the rotating piece and is contained in the avoiding groove.

And (4) electrically connecting the power supply with the light-emitting assembly.

Step (5), closing the rotating bracket, which specifically comprises the following steps: the driving rotating piece is separated from the avoiding groove, and the bottom end of the rotating piece is far away from the fixed support to be attached to the fixed support.

In the method, the light-emitting component and the second cover plate are installed firstly; thus, the rotating bracket is convenient to be matched with the fixed bracket; then the rotating bracket is arranged on the fixed bracket; simultaneously unfolding the rotating bracket; thus, the space between the fixed bracket and the rotating bracket is large; the power supply is conveniently and electrically connected with the light-emitting component; the operation is convenient; then a first cover plate is arranged to limit the rotating support; the rotating bracket can not be separated from the fixed bracket; when the power supply is connected with the light-emitting component; the rotating bracket is closed again. When the rotating bracket is unfolded at the same time; the rotating piece approaches to the avoiding groove; the rotating piece gradually approaches to the avoiding groove until the rotating piece is accommodated in the avoiding groove; so that the rotation of the rotating member is not interfered; the moving amplitude of the rotating piece in the accommodating groove is large; the expansion range of the rotating bracket is large; meanwhile, the avoidance groove is formed by sinking on the first limiting part; when the rotating piece is accommodated in the avoiding groove, the first limiting part vertically limits the rotating piece; the second limiting part limits the rotating part horizontally; the rotating piece can not be separated from the fixed piece; so that a reliable rotation of the rotating part on the stationary part is achieved.

Furthermore, the first limiting part comprises a first limiting structure and a second limiting structure; the first limiting structure is connected with one side of the second limiting structure, and the other side of the second limiting structure is connected with the second limiting part; the avoidance groove is arranged on the first limiting structure; the rotating part comprises a first rotating part arranged in an arc shape; a second rotating part extends from one end of the first rotating part to the other end of the first rotating part; the first rotating part and the second rotating part form an arc-shaped movable groove; the first rotating part and the second rotating part coat the first limiting part; the rotating shaft is arranged on one side of the second rotating part close to the movable groove.

The unfolding rotating bracket specifically comprises: the rotating shaft rotates in the rotating groove, the second rotating part is gradually close to the second limiting structure, one end of the rotating part is gradually close to the avoiding groove, and the first rotating part coated on the second limiting part is close to the fifth limiting structure; the rotating bracket is transited from a vertical state to a horizontal state.

Further, the closed rotating support specifically comprises: the rotating shaft rotates in the rotating groove, and the second rotating part is separated from the second limiting structure and gradually approaches the second limiting part; the rotating piece accommodated in the avoiding groove gradually gets away from the avoiding groove; the first rotating part coated on the second limiting part approaches the second limiting structure; the rotating bracket is transited from a horizontal state to a vertical state.

Furthermore, the first limiting part also comprises a fourth limiting structure, and the fourth limiting structure is formed by extending from the top of the first limiting structure to the direction close to the rotating groove; the second limiting part comprises a third limiting structure; one end of the third limiting structure is connected with the second limiting structure, and the other end of the third limiting structure extends to a direction close to the fourth limiting structure to form a fifth limiting structure.

The expansion turns the support, still includes: when the second rotating part is contacted with the second limiting structure; the limiting structure limits the second rotating part; the rotating support is unfolded, and the limiting structure IV, the limiting structure II and the limiting structure V limit the rotating piece along the longitudinal direction; the first limiting structure and the fifth limiting structure limit the rotating piece along the transverse direction.

In the method, when the second rotating part is contacted with the second limiting structure, the second limiting structure limits the rotating angle of the rotating part; the maximum rotation angle of the rotating part is 90 degrees; the rotating part is prevented from being separated from the fixed part; meanwhile, the limiting structure IV, the limiting structure II and the limiting structure V limit the rotating piece along the longitudinal direction; the first limiting structure and the fifth limiting structure limit the rotating piece along the transverse direction; the reliable rotation of the rotating part on the fixed part is realized.

Further, closed rotating support still includes: when the second rotating part is contacted with the limiting structure V; the limiting structure V limits the second rotating part; the rotating bracket is closed, and the limiting structure V and the limiting structure III limit the rotating part along the longitudinal direction; and the second limiting structure and the fifth limiting structure limit the rotating piece along the transverse direction.

Furthermore, the second plate body extends to the rotating bracket to form an elastic clamping piece; the rotary supporting piece extends towards the second plate body to form a clamping part and a lapping part; the clamping part is clamped on the elastic clamping piece; the lapping part is abutted against the second plate body.

Closed rotating bracket still includes: the clamping part approaches to the elastic clamping piece; the lapping part is close to the second plate body; when the second rotating part is contacted with the limiting structure V, the clamping part is clamped on the elastic clamping piece; the lapping part is abutted against the second plate body.

Furthermore, a first limiting piece and a second limiting piece extend from the first cover plate to the fixed support; the first limiting piece is arranged on the other side of the first cover plate; the second limiting piece is positioned at one end of the first cover plate; the first limiting piece and the third plate body act; the second limiting piece acts with the rotating support piece; the rotating support is limited through the first limiting part and the second limiting part.

Closed rotating bracket still includes: when the second rotating part is contacted with the limiting structure V; the first limiting part limits the third plate body, and the second limiting part limits the rotating support part.

Furthermore, a contact structure is arranged at the bottom end of the rotating supporting piece far away from the rotating piece; in the step (3) and the step (4), the rotating bracket is driven to rotate through the action of the contact structure.

In the method, the acting point is provided through the contact structure, and the contact structure acts on the rotating bracket to be convenient to unfold and close; meanwhile, the contact structure is far away from the rotating part, and the force arm between the contact structure and the rotating part is long; thereby the rotating bracket can be easily unfolded and closed.

Drawings

Fig. 1 is a perspective view of a lamp body embodying the present invention.

Fig. 2 is a perspective view of another viewing angle of the lamp body for implementing the present invention.

Fig. 3 is an exploded view of the lamp body of the present invention.

Fig. 4 is a schematic view showing the connection of the fixed bracket and the rotating bracket of the lamp body for implementing the present invention.

Fig. 5 is an enlarged view of a in fig. 4.

Fig. 6 is a schematic view of the lamp body of the present invention after the rotating bracket is rotated and unfolded.

Fig. 7 is an enlarged view of b in fig. 6.

Fig. 8 is a schematic view of the first cover plate and the second cover plate with one end removed from the lamp body of the lamp body according to the present invention.

Fig. 9 is a perspective view of a first cover plate of a lamp body implementing the present invention.

Fig. 10 is a perspective view of the second cover of the lamp body according to the present invention.

Fig. 11 is a schematic view of two lamp bodies connected by a rigid connector.

Fig. 12 is a schematic diagram illustrating the connection between the first interface and the second interface and the connector according to the present invention.

Fig. 13 is an exploded view of the first and second interfaces and the connector according to the present invention.

Figure 14 is a perspective view of a rigid connector.

Fig. 15 is a schematic view of two lamp bodies connected by a flexible connector.

Fig. 16 is a perspective view of a flexible connector.

FIG. 17 is a flow chart of the present invention.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings and specific embodiments.

As shown in fig. 1-17; a reversible LED lamp comprises a lamp body 1, wherein the lamp body 1 comprises a fixed support 11 and a rotating support 12, the fixed support 11 is positioned at one side of the lamp body 1, and the rotating support 12 is positioned at the other side of the lamp body 1; the fixed bracket 11 is connected with a fixed part 13, the rotating bracket 12 is connected with a rotating part 14, and the rotating part 14 is rotatably arranged on the fixed part 13.

The fixing member 13 includes a first position-limiting portion 131 and a second position-limiting portion 132, the first position-limiting portion 131 is located on one side of the fixing member 13, and the second position-limiting portion 132 is located on the other side of the fixing member 13; the first position-limiting part 131 comprises a first position-limiting structure 1311, a second position-limiting structure 1312 and a fourth position-limiting structure 1313; the second position-limiting portion 132 includes a third position-limiting structure 1321 and a fifth position-limiting structure 1322. The first limiting structure 1311 is connected with one side of the second limiting structure 1312, and the other side of the second limiting structure 1312 is connected with one end of the third limiting structure 1321;

an avoidance groove 133 is recessed on the first limiting structure 1311 in the direction away from the second limiting part 132; the avoiding groove 133 is for receiving the rotation member 14. A rotating groove 134 is formed in the second limiting structure 1312 in a recessed manner, and the rotating groove 134 is formed in a recessed manner along the vertical direction of the recessed direction of the avoiding groove 133; the fourth limiting structure 1313 is formed by extending from the top of the first limiting structure 1311 in a direction close to the rotating groove 134, and the avoiding groove 133 is connected with the second limiting structure 1312 and the fourth limiting structure 1313; the five limiting structures 1322 are formed by extending from the other ends of the three limiting structures 1321 to the direction close to the four limiting structures 1313; the rotation slot 134 is connected with a fourth limit structure 1313 and a fifth limit structure 1322. The avoiding groove 133 and the rotating groove 134 form a receiving groove. An avoidance groove 133 is provided to avoid the rotating member 14; when the rotating member 14 rotates in the accommodating groove, the rotating member 14 gradually approaches the avoiding groove 133 until the rotating member 14 is accommodated in the avoiding groove 133; so that the rotation of the rotation member 14 is not interfered with.

In this embodiment, the length direction of the second limit structure 1312 is perpendicular to the length direction of the fifth limit structure 1322; the size of the opening of the containing groove is reduced by arranging the second limit structure 1312 and the fifth limit structure 1322 which are close to each other. Meanwhile, the fourth limiting structure 1313 extends towards the rotation groove 134, and when one side of the rotation member 14 is accommodated in the avoiding groove 133; the third limiting structure 1321 and the fourth limiting structure 1313 vertically limit the rotating part 14 after rotating; the five 1322 limit structures horizontally limit the rotating member 14.

The rotating member 14 includes a first rotating portion 141 arranged in an arc shape; a second rotating part 142 extending from one end of the first rotating part 141 to the other end of the first rotating part 141; the first and second

rotating parts

141 and 142 form a movable groove 143; the third limiting structure 1321 and the fifth limiting structure 1322 are both arranged in the movable groove 143, and the movable groove 143 rotates relative to the third limiting structure 1321 and the fifth limiting structure 1322; a rotating shaft 144 is arranged on one side of the second rotating part 142 close to the movable groove 143; the rotating shaft 144 extends into the rotating groove 134; the rotation shaft 144 is movably disposed in the rotation groove 134. The rotating part 14 is movably arranged in the rotating groove 134 through the rotating shaft 144, and when the rotating part 14 rotates, the movable groove 143 rotates relative to the third limiting structure 1321 and the fifth limiting structure 1322; so that the fixing member 13 and the rotating member 14 are well engaged.

In this embodiment, the second limit structure 1312 is higher than the bottom of the rotation slot 134; therefore, the rotating groove 134 can better accommodate the rotating shaft 144, and the second rotating portion 142 and the second limiting structure 1312 have a good matching effect.

The second limiting structure 1312 is used for limiting the rotation angle of the rotating part 14; when the rotating member 14 rotates, the second rotating portion 142 rotates relative to the rotating groove 134, and the second rotating portion 142 is far away from the fifth limit structure 1322 and approaches to the second limit structure 1312; one end of the first rotating portion 141 close to the second rotating portion 142 is close to the escape groove 133; the avoidance groove 133 is arranged to avoid the rotating part 14, so that the moving amplitude of the rotating part 14 in the accommodating groove is increased. When the second rotating portion 142 contacts the second limit structure 1312, one end of the first rotating portion 141 close to the second rotating portion 142 is accommodated in the avoiding groove 133; the second limiting structure 1312 limits the second rotating part 142; the rotor 14 cannot then continue to turn upwards; the deployment amplitude of the rotating bracket 12 is maximized.

The third limiting structure 1321 and the fifth limiting structure 1322 are used for vertically limiting the first rotating part 141 before rotation, and the fifth limiting structure 1322 is used for horizontally limiting the second rotating part 142 before rotation; the third limiting structure 1321 and the fourth limiting structure 1313 are used for vertically limiting the rotated first rotating part 141, and the fifth limiting structure 1322 is used for horizontally limiting the rotated second rotating part 142.

In this embodiment, the escape groove 133, the rotation groove 134, the movable groove 143, the second stopper 132, and the rotation member 14 are provided in an arc shape. Thus, the rotation effect is good.

The recess direction of the rotation groove 134 is perpendicular to the recess direction of the rotation groove 134; the rotating groove 134 and the avoiding groove 133 are respectively arranged on one side of the fixed part 13; the space of the accommodating groove is large, and the rotating groove 134 and the avoiding groove 133 do not interfere with each other; the movable range of the rotating piece in the accommodating groove is large; and the opening and closing range of the rotating bracket 12 relative to the fixed bracket 11 is large. The rotation member 14 rotates on the rotation groove 134; the escape slot 133 is for accommodating the rotation member 14; when the rotating member 14 rotates in the accommodating groove, the rotating member 14 gradually approaches the avoiding groove 133 until the rotating member 14 is accommodated in the avoiding groove 133; so that the rotation 14 of the rotary member is not interfered with. Meanwhile, the avoiding groove 133 is formed on the first limiting part 131 in a concave manner; when one side of the rotating part 14 is accommodated in the avoiding groove 133, the third limiting structure and the fourth limiting structure vertically limit the rotating part after rotating; the first limiting structure and the fifth limiting structure horizontally limit the rotating piece; the first rotating part and the second rotating part are coated on the third limiting structure and the fifth limiting structure; the fixed piece is matched with the rotating piece; so that the rotating member 14 cannot be separated from the fixed member 13; the rotating part 14 is further stably arranged on the fixed part 13; the rotation member 14 can be reliably rotated on the fixed member 13.

The fixing bracket 11 includes a first plate 111 and a second plate 112; one side of the first board 111 is connected to the second board 112, and the other side of the first board 111 is connected to the first limiting structure 1311; the rotating bracket 12 includes a third plate 121 and a rotating support 122; one side of the third plate 121 is connected to the first rotating part 141, and the other side of the third plate 121 is connected to the rotating support 122; the rotation support 122 is located below the second plate 112 and the third plate 121; one side of the rotating support 122 close to the second plate 112 is flush with the second plate 112; the first plate 111, the second plate 112, the third plate 121 and the rotation support 123 form a power installation space 5; the power supply installation 5 is space for the power supply 3.

The second plate 112 extends an elastic latch 113 towards the rotating bracket 12; the rotating support 121 extends a clamping portion 124 and a bridging portion 123 toward the second plate 112; the clamping part 124 is clamped on the elastic clamping piece 113; the overlapping portion 123 abuts on the second panel 12. The second plate body is abutted and connected with the first plate body through the lap joint part; the connection of the rotating support piece and the second plate body is realized. When the rotating bracket 12 is not unfolded, the elastic clamping piece 113 clamps the clamping part 124; the rotating bracket 12 is stably connected with the fixed bracket 11; in a natural state, the clamping part is limited through the elastic clamping piece, so that the rotating bracket and the fixed bracket cannot be separated; meanwhile, the elastic clamping piece has elasticity; when the rotating bracket 12 is driven to be unfolded, the clamping part 124 is conveniently separated from the elastic clamping piece 113.

A contact structure 7 is arranged at the bottom end of the rotating support part 122 far away from the rotating part 14; the point of application is provided by the provision of the contact structure 7; the contact structure 7 may be a concave groove or a convex protrusion; in the present embodiment, the contact structure 7 is a groove. The user can use the tool and

the contact structure 7 is contacted, and can be directly held on the rotating bracket 12 through the contact structure 7; the rotary bracket 12 is convenient to unfold and close by acting on the contact structure 7; meanwhile, the contact structure 7 is arranged far away from the rotating part 14, and the force arm between the contact structure 7 and the rotating part 14 is long; thereby the rotating bracket 12 can be easily unfolded and closed.

The light emitting assembly 2 is disposed in the rotary support 122; the rotary support 122 includes a fourth plate 1221, a fifth plate 1222, and a sixth plate 1223; the fifth board 1222 is disposed close to the second board 112 and flush with the second board 112, and the overlapping portion 123 is formed by extending the fifth board 1222 toward the second board 112; the fourth plate 1221 is obliquely disposed between the fifth plate 1222 and the sixth plate 1223; the fourth plate 1221 connects the fifth plate 1222 and the sixth plate 1223; the engaging portion is formed on the fourth plate 1221 to extend toward the elastic clamper 113. The sixth plate 1223 is disposed on a side of the fifth plate 1222 adjacent to the third plate 121; the sixth plate 1223 is located below the third plate 121; the contact structure 7 is arranged on the sixth plate 1223.

The rotating support 122 further includes a seventh plate 1224, and the seventh plate 1224 is located below the fourth plate 1221 and connected to the third plate 121. The fourth plate body 1221, the fifth plate body 1222, the sixth plate body 1223, and the seventh plate body 1224 form a light source installation space 6; the light emitting assembly 2 is installed in the light source installation space 6; a first receiving area 125 is formed on the fifth plate 1222; the seventh plate body 1224 is provided with a first mounting groove 1225, and the sixth plate body 1223 is provided with a second mounting groove 1226; the first installation groove 1225 is disposed opposite to the second installation groove 1226 and forms a fourth accommodation area (not shown). The first receiving area 125 is located at one side of the rotating support 122, and the fourth receiving area is located at the other side of the rotating support 122.

Third installation grooves 1227 are respectively formed on both sides of the first accommodation area 125; two third installation grooves 1227 are symmetrically arranged with respect to the first accommodation area 125; a fourth mounting groove 1228 is formed in one side of the seventh plate body 1224, which is close to the fifth plate body 1222; the fourth mounting groove 1228 is positioned above the third mounting groove 1227; a third mounting groove 1227 and four mounting grooves form a second receiving area (not shown) disposed obliquely; a fifth mounting groove 1229 is formed in one side of the sixth plate 1223, which is far away from the fifth plate 1222; the fifth mounting groove is located below the third mounting groove 1227; another third installation groove 1227 and the fifth installation groove 1229 form a third accommodation area (not shown in the drawings) which is obliquely arranged; the second accommodation region and the third accommodation region are both located between the first accommodation region 125 and the fourth accommodation region.

The light emitting assembly 2 includes an LED light source 21, a first light guide plate 22, a second light guide plate 23, and a diffusion plate 24; the LED light source 21 is disposed in the first accommodation region 125; the first light guide plate 22 is disposed in the second receiving region; the second light guide plate 23 is disposed in the third receiving region; a diffusion plate 24 is provided in the fourth accommodation area. The second accommodating area and the third accommodating area are obliquely arranged; the first light guide plate 22 in the second receiving region and the second light guide plate 23 in the third receiving region are also obliquely disposed; meanwhile, the second accommodating area and the third accommodating area are both inclined outwards; the light emitted from the LED light source 21 is dispersed by the first light guide plate 22 and the second light guide plate 23 and then emitted from the diffusion plate 24; the illumination brightness of the lamp body 1 is enhanced.

The left end and the right end of the fixed bracket 11 are respectively provided with a first cover plate 15; the first cover 15 extends to the fixing bracket 11 to form a first inserting part 151; the first inserting part 151 is arranged at one side of the first cover plate 15, and the first inserting part 151 extends into the power supply installation space 5; the first insertion part 151 is used to fix the first cover plate 15. The first inserting portion 151 extends into the fixing bracket 11 to fix the first cover plate 15; therefore, on one hand, the first cover plate 15 is stably connected with the fixed bracket 11, so that the supporting strength of the bracket of the lamp body 1 can be increased; on the other hand, the first plug-in part 151 protrudes into the fastening bracket 11 to provide a pre-positioning for the mounting of the first cover 15.

The first inserting part 151 includes a first support plate 1511 and a second support plate 1512; the first support plate 1511 is disposed at one end of the first cover 15, and the second support plate 1512 is disposed at one side of the first cover 15. The first support plate 1511 is used to contact with the first plate 111; the second supporting plate 1512 is used for contacting with the second plate 112; the first plate body 111 is provided with a first mounting hole 1111, and the first support plate 1511 is provided with a first threaded hole 1513; a second mounting hole 1121 is formed in the second plate body 112, and a second threaded hole 1514 is formed in the second support plate 1512; the first cover plate 15 is mounted on the fixing bracket 11 by a bolt passing through the first mounting opening 1111 and being in threaded connection with the first threaded hole 1513, and a bolt passing through the second mounting opening 1121 and being in threaded connection with the second threaded hole 1514.

The first cover plate 15 further extends a first limiting member 152 and a second limiting member 153 towards the fixing bracket 11; the first limiting member 152 is disposed on the other side of the first cover plate 15; the second limiting member 153 is disposed between the first inserting portion 151 and the first limiting member 152 and disposed at an end of the first cover plate 15 away from the second support plate 1512; the first limiting piece and the second limiting piece extend into the power supply installation space 5; the first limiting member 152 acts on the third plate 121; the second limiting member 153 functions with the fourth plate 1221; the rotating bracket 12 is limited by a first limiting member 152 and a second limiting member 153; when the rotating bracket 12 contacts a stopper portion and the second stopper portion 132, the rotating bracket 12 is closed.

In the present embodiment, the cross-sectional area of the first support plate 1511 and the cross-sectional area of the second support plate 1512 are gradually reduced in the direction in which the first cover 15 approaches the fixing bracket 11.

The left end and the right end of the rotating bracket 12 are respectively provided with a second cover plate 16; the second cover 16 extends to the rotating bracket 12 to form a second inserting part 161, a third inserting part 162 and a fourth inserting part 163; the second, third, and fourth plugging portions 161, 162, 163 protrude into the light source installation space 6; the second socket part 161 is disposed at one end of the second cover plate 16, and the fourth socket part 163 is disposed at the other end of the second cover plate 16; the third mating part 162 is located between the second mating part 161 and the fourth mating part 163; the second mating portion 161 is configured to contact the fourth plate 1221; a third mounting hole 12211 is formed in the fourth plate 1221, a third threaded hole 1611 is formed in the second inserting-connecting portion 161, and a fourth mounting hole 164 is formed in one end, away from the second inserting-connecting portion 161, of the second cover plate 16; a fourth threaded hole 12231 is formed in the sixth plate body 1223, and is in threaded connection with the third threaded hole 1611 through a bolt passing through the third mounting opening 12211, and a bolt passing through the fourth mounting opening 164 is in threaded connection with the fourth threaded hole 12231; the second cover plate 16 is mounted on the rotating bracket 12.

A first inserting groove 165 is formed between the second inserting part 161 and the third inserting part 162; the first plug groove 165 is communicated with the second accommodating area; the end of the first light guide plate 22 is disposed in the first insertion groove 165; a second insertion groove 191 is formed between the fourth insertion part 163 and the third insertion part 162; the second inserting groove 191 is communicated with the third accommodating area; an end of the second light guide plate 23 is disposed in the second insertion groove 191. The stability of the first and second

light guide plates

22 and 23 is further improved.

A control opening 17 is arranged on the third plate body 121; the control end of the power supply 3 is arranged on the control opening 1211 in a penetrating way; the power supply 3 is arranged to supply power to the LED light source 21; and the control end of the power supply 3 controls the LED light source to be turned on or turned off. A mounting hole 17 is formed in the back surface of the fourth plate 1221; the lamp body can be hung on a wall or a ceiling for use through the mounting hole 17.

The adjacent lamp bodies 1 are detachably connected through a connector 4; a first interface 18 is arranged at one end of the lamp body 1; a second interface 19 is arranged at the other end of the lamp body 1; the first interface 18 is arranged on a first cover plate 15; the second port 19 is arranged on the other first cover 15. The first interface 18 and the second interface 19 of the adjacent lamp body 1 are detachably connected through the connector 4; one end of the connector 4 is provided with a first connecting part 41 matched with the first interface 18; the other end of the connector 4 is provided with a second connecting portion 42 which is matched with the second interface 19. More than two lamp bodies 1 are connected through a connector 4 for use; when the lighting area needs to be enlarged, only another lamp body 1 needs to be electrically connected with the lamp body 1 through the connector 4; so that a plurality of lamp bodies 1 can be installed for use; the number of the lamp bodies 1 can be set according to the use scene, and the use scene is wide.

The first interface 18 is formed with a first slot 181; the second port 19 is formed with a second insertion groove 191; the first connecting part 41 extends into the first slot 181, and the second connecting part 42 extends into the second insertion slot 191, so that the connector 4 is connected with the adjacent lamp bodies 1; a step portion 43 is formed on the surface of the connector 4; when the second connecting portion 42 extends into the second inserting groove 191, the step portion 43 abuts against the surface of the second socket 19. The first interface 18 and the first connection portion 41; the second interface 19 is electrically connected to the second connection portion 42.

In the present embodiment, the connector 4 is a rigid connector; the first connection portion 41 and the second connection portion 42 are integrally provided; the adjacent lamp bodies 1 are tightly attached; the first connection part 41 and the second connection part 42 are hidden between the adjacent lamp bodies 1. The adjacent lamp bodies 1 are tightly attached; when the lamp body 1 is connected with the lamp body 1; the lamp body 1 is tightly attached to the lamp body 1; shielding the rigid connector; the rigid connector is not exposed outside; the appearance is beautiful; meanwhile, when the lamp body 1 is connected with the lamp body 1; the rigid connector 4 provides supporting force for the two adjacent lamp bodies 1; the rigid connector further plays a role in supporting the joint of the lamp body 1 and the lamp body 1; thus, the use can be stabilized.

In another implementation, the connector 4 is a flexible connector; the connector further comprises a flexible connector 44; the first connecting portion 41 and the second connecting portion 42 are separated, and the flexible connecting member 44 is connected between the first connecting portion 41 and the second connecting portion 42. By providing a flexible connection, the first connection portion 41 can move relative to the second connection portion 42. Therefore, when the lamp body 1 is used, the adjacent lamp bodies 1 need to be installed separately due to the limitation of an installation scene, and when the adjacent lamp bodies 1 are not on the same straight line; the use of flexible connectors 4 facilitates the connection of adjacent lamp bodies 1.

The mounting method of the lamp body comprises the following steps:

Step (2) fixing the fixed support and installing a power supply

And (3) arranging the rotating part in the fixed part in a sliding manner, unfolding the rotating bracket, and then installing the first cover plate.

The unfolding rotating bracket specifically comprises: the rotating shaft rotates in the rotating groove, the second rotating part is gradually close to the second limiting structure, one end of the rotating part is gradually close to the avoiding groove, and the first rotating part coated on the second limiting part is close to the fifth limiting structure; the clamping part is far away from the elastic clamping piece; the lapping part is far away from the second plate body; when the second rotating part is contacted with the second limiting structure; the limiting structure limits the second rotating part; the rotating bracket is transited from a vertical state to a horizontal state; the bracket is rotated to complete the unfolding; the limiting structure IV, the limiting structure II and the limiting structure V limit the rotating piece along the longitudinal direction; the first limiting structure and the fifth limiting structure limit the rotating piece along the transverse direction.

Step (4), electrically connecting a power supply with the light-emitting component;

and (5) closing the rotating support.

The closed rotating support specifically comprises: the rotating shaft rotates in the rotating groove, and the second rotating part is separated from the second limiting structure and gradually approaches the second limiting part; the rotating piece accommodated in the avoiding groove gradually gets away from the avoiding groove; the first rotating part coated on the second limiting part approaches the second limiting structure; the clamping part approaches to the elastic clamping piece; the lapping part is close to the second plate body; when the second rotating part is contacted with the limiting structure V; the limiting structure V limits the second rotating part; the clamping part is clamped on the elastic clamping piece; the lap joint part is abutted against the second plate body; the first limiting piece limits the third plate body, and the second limiting piece limits the rotating support piece; the rotating support is transited from a horizontal state to a vertical state, the rotating support is closed, and the limiting structure V and the limiting structure III limit the rotating part along the longitudinal direction; and the second limiting structure and the fifth limiting structure limit the rotating piece along the transverse direction.

In the method, the light-emitting component and the second cover plate are installed firstly; thus, the rotating bracket is convenient to be matched with the fixed bracket; then the rotating bracket is arranged on the fixed bracket; simultaneously unfolding the rotating bracket; thus, the space between the fixed bracket and the rotating bracket is large; the power supply is conveniently and electrically connected with the light-emitting component; the operation is convenient; then a first cover plate is arranged to limit the rotating support; the rotating bracket can not be separated from the fixed bracket; when the power supply is connected with the light-emitting component; the rotating bracket is closed again. When the rotating support is unfolded and the rotating piece rotates in the accommodating groove, the rotating piece gradually approaches the avoiding groove until the rotating piece is accommodated in the avoiding groove; thus, the movement of the rotating piece can not be interfered; the avoidance of the rotating piece is realized; the moving amplitude of the rotating piece in the accommodating groove is large; the expansion range of the rotating support is large, and when the second rotating part is in contact with the second limiting structure, the second limiting structure limits the rotating angle of the rotating part; the maximum rotation angle of the rotating part is 90 degrees; the rotating part is prevented from being separated from the fixed part; meanwhile, the limiting structure IV, the limiting structure II and the limiting structure V limit the rotating piece along the longitudinal direction; the first limiting structure and the fifth limiting structure limit the rotating piece along the transverse direction; the reliable rotation of the rotating part on the fixed part is realized.

When the rotating bracket is closed and the rotating piece rotates in the accommodating groove, the rotating piece accommodated in the avoiding groove is separated from the avoiding groove and gradually separated from the avoiding groove; meanwhile, the second limiting part approaches to the limiting structure V; when the second rotating part is in contact with the limiting structure V, the limiting structure V limits the rotating angle of the rotating part; so that the rotating bracket can be attached to the fixed bracket; the fixed support and the rotary support are matched well.

The method comprises the following steps:

step (1), specifically: installing a second cover plate on one side of the rotating support, then arranging the LED light source in the first accommodating area in a sliding mode on the other side of the rotating support, arranging the first light guide plate in the second accommodating area in a sliding mode, arranging the second light guide plate in the third accommodating area in a sliding mode, arranging the diffusion plate in the fourth accommodating area in a sliding mode, and then installing the second cover plate on the other side of the rotating support.

In the step (3) and the step (4), the rotating bracket is driven to rotate through the action of the contact structure. The contact structure provides an acting point, and the contact structure acts to facilitate the unfolding and closing of the rotating bracket; meanwhile, the contact structure is far away from the rotating part, and the force arm between the contact structure and the rotating part is long; thereby the rotating bracket can be easily unfolded and closed.

Claims

1. A mounting method of a reversible LED lamp is characterized in that: the lamp comprises a lamp body, wherein the lamp body comprises a fixed support and a rotating support, the fixed support is arranged on one side of the lamp body, and the rotating support is arranged on the other side of the lamp body; the fixed bracket is connected with a fixed piece; the rotating bracket is connected with a rotating piece; the rotating part is rotatably arranged on the fixed part; a power supply is arranged on the fixed support, and first cover plates are arranged at the left end and the right end of the fixed support; the rotating bracket is provided with a light-emitting component, and the left end and the right end of the rotating bracket are provided with second cover plates; the fixing piece comprises a first limiting part and a second limiting part, and the second limiting part is positioned on one side of the first limiting part; the first limiting part is recessed towards the direction far away from the second limiting part to form an avoiding groove, and the avoiding groove is used for containing the rotating piece; the second limiting part is sunken with a rotating groove; the rotating piece is provided with a rotating shaft; the rotating part is wrapped in the second limiting part, and the rotating shaft is rotatably arranged in the rotating groove;

the installation method of the lamp comprises the following steps:

step (1), installing a light-emitting component and a second cover plate on a rotating support;

step (2), fixing the fixed support and installing a power supply;

step (3), the rotating part is arranged in the fixing part in a sliding mode, the rotating support is unfolded, and then the first cover plate is installed; the unfolding rotating bracket specifically comprises: driving the rotating part to approach the avoiding groove until the rotating part is accommodated in the avoiding groove;

2. The method of claim 1, wherein the method further comprises: the first limiting part comprises a first limiting structure and a second limiting structure; the first limiting structure is connected with one side of the second limiting structure, and the other side of the second limiting structure is connected with the second limiting part; the avoidance groove is arranged on the first limiting structure; the rotating part comprises a first rotating part arranged in an arc shape; a second rotating part extends from one end of the first rotating part to the other end of the first rotating part; the first rotating part and the second rotating part form an arc-shaped movable groove; the first rotating part and the second rotating part coat the first limiting part; the rotating shaft is arranged on one side of the second rotating part close to the movable groove;

3. The method of claim 2, wherein the method further comprises: the closed rotating support specifically comprises: the rotating shaft rotates in the rotating groove, and the second rotating part is separated from the second limiting structure and gradually approaches the second limiting part; the rotating piece accommodated in the avoiding groove gradually gets away from the avoiding groove; the first rotating part coated on the second limiting part approaches the second limiting structure; the rotating bracket is transited from a horizontal state to a vertical state.

4. The method of claim 2, wherein the method further comprises: the first limiting part also comprises a fourth limiting structure, and the fourth limiting structure is formed by extending from the top of the first limiting structure to the direction close to the rotating groove; the second limiting part comprises a third limiting structure; one end of the limiting structure III is connected with the limiting structure II, and the other end of the limiting structure III extends to a limiting structure V in the direction close to the limiting structure IV;

5. The method of claim 4, wherein the method further comprises: closed rotating bracket still includes: when the second rotating part is contacted with the limiting structure V; the limiting structure V limits the second rotating part; the rotating bracket is closed, and the limiting structure V and the limiting structure III limit the rotating part along the longitudinal direction; and the second limiting structure and the fifth limiting structure limit the rotating piece along the transverse direction.

6. The method of claim 5, wherein the method further comprises: the second plate body extends to the rotating bracket to form an elastic clamping piece; the rotary supporting piece extends towards the second plate body to form a clamping part and a lapping part; the clamping part is clamped on the elastic clamping piece; the lap joint part is abutted against the second plate body;

7. The method of claim 6, wherein the method further comprises: the first cover plate extends to the fixed support to form a first limiting piece and a second limiting piece; the first limiting piece is arranged on the other side of the first cover plate; the second limiting piece is positioned at one end of the first cover plate; the first limiting piece and the third plate body act; the second limiting piece acts with the rotating support piece; limiting the rotating bracket through a first limiting piece and a second limiting piece;

8. The method of claim 1, wherein the method further comprises: the bottom end of the rotating supporting piece, which is far away from the rotating piece, is provided with a contact structure; in the step (3) and the step (4), the rotating bracket is driven to rotate through the action of the contact structure.