CN111486384B - Embedded type mould grid LED studio lamp and use method thereof - Google Patents

Abstract

The invention discloses an embedded type mould grid LED studio lamp and a use method thereof, which are convenient for installing housings and are easy to splice. An embedded type mould grid LED studio lamp comprises a box-shaped rear cover with an opening at the bottom wall, wherein a first female buckle which surrounds one circle is arranged on the side wall of the rear cover; the edge of the rear cover is outwards extended and folded to form a flanging, and the flanging is used for being embedded into the triangular keel of the suspended ceiling to form fixation; the LED lamp set is arranged on the housing and used for lighting; the second male buckles are arranged on the peripheral edges of the housing, the second male buckles on the two opposite edges of the housing are arranged in a staggered manner, and two adjacent housings are mutually buckled through the corresponding second male buckles to form splicing; the second male buckle at the outermost ring is buckled into the first female buckle to form fixation.

Description

Embedded type mould grid LED studio lamp and use method thereof

Technical Field

The invention belongs to the technical field of ceiling lights, and particularly relates to an embedded type mould grid LED (light-emitting diode) studio light and a use method thereof.

Background

The grille lamp is used as a lighting lamp and is suitable for being installed in a writing room with a suspended ceiling. The light source is generally a fluorescent tube and is divided into an embedded type and a ceiling type.

With the development of grille lamps, the grille lamps can be divided into two modes of concealed installation and surface installation according to the needs of decoration clients and designers. The reflective covers are divided into I type and V type according to the patterns, different reflective covers are also greatly different in attractive appearance and reflection effect, and the common V type cover is better than the I type in attractive appearance and reflection effect and has low price. The type I and the type V are very easy to distinguish, and can be distinguished generally intuitively.

The reflection covers are in I-type or V-type, the reflection covers are inconvenient to install on the grille lamp, and the reflection covers cannot be spliced together conveniently.

Disclosure of Invention

The invention aims to provide an embedded type mould grid LED studio lamp and a using method thereof, which are convenient for installing housings and are easy to splice.

In order to solve the technical problems, the aim of the invention is realized as follows:

an embedded type mould grid LED studio lamp comprises a box-shaped rear cover with an opening at the bottom wall, wherein a first female buckle which surrounds one circle is arranged on the side wall of the rear cover; the edge of the rear cover is outwards extended and folded to form a flanging, and the flanging is used for being embedded into the triangular keel of the suspended ceiling to form fixation; the LED lamp set is arranged on the housing and used for lighting; the second male buckles are arranged on the peripheral edges of the housing, the second male buckles on the two opposite edges of the housing are arranged in a staggered manner, and two adjacent housings are mutually buckled through the corresponding second male buckles to form splicing; the second male buckle at the outermost ring is buckled into the first female buckle to form fixation.

The above-mentioned scheme is based on and is a preferable scheme of the above-mentioned scheme: the housing comprises a first plate body, and four edges of the first plate body are folded along to form folded plates; the four folded plates are respectively provided with a second male buckle with the buckle heads outwards, and the second male buckles on the two opposite folded plates are arranged in a staggered manner; two adjacent covers are spliced through corresponding second male buckle folded plates; the first plate body is sunken to form a grid, the grid comprises a horn-shaped curved surface body, the top surface and the bottom surface of the curved surface body are both provided with oval-shaped opening sections, a plurality of baffle plates with uniform intervals are arranged in the curved surface body, and the outer surface of the top of the curved surface body is protruded to form four first male buckles connected in a rectangular shape; the LED lamp group comprises a lens plate, an LED lamp plate and a lamp body; the lower surface of the lens plate is provided with a plurality of hemispherical bulges with uniform intervals, two adjacent hemispherical bulges are separated by a baffle plate, the upper surface of the lens plate is recessed to form a first pit, the first pit is embedded into the LED lamp plate for fixing, and the upper surface of the hemispherical bulge is recessed to form a second pit for placing lamp beads on the LED lamp plate; the screw penetrates through the lens plate and is fixedly connected with the lamp body, and the lamp body and the lens plate clamp the LED lamp plate; the first male buckle penetrates through the lens plate and the lamp body to form a buckling connection.

The above-mentioned scheme is based on and is a preferable scheme of the above-mentioned scheme: the included angle between the two side walls of the curved surface body is 90 degrees, the distance between two adjacent baffles is 18.6 millimeters, the bottom surface of each baffle is a cambered surface, the radius of each cambered surface is 42 millimeters, and the glare value UGR is less than or equal to 16.

The above-mentioned scheme is based on and is a preferable scheme of the above-mentioned scheme: the included angle between the two side walls of the curved surface body is 135 degrees, the distance between two adjacent baffles is 18.6 millimeters, the bottom surface of each baffle is an arc surface, the radius of each arc surface is 125 millimeters, and the glare value UGR is less than or equal to 19.

The above-mentioned scheme is based on and is a preferable scheme of the above-mentioned scheme: a first countersink is formed in the inner side of the edge of the lower surface of the lens plate, and a first through hole is formed in one side of the first countersink; the lamp body is provided with a first threaded hole corresponding to the first countersunk hole, one side of the first threaded hole is provided with a second through hole corresponding to the first through hole, the screw is a countersunk screw, and the countersunk screw is screwed into the first countersunk hole to be fixed with the first threaded hole; the first male buckle penetrates through the first through hole and the second through hole to form buckle connection.

The above-mentioned scheme is based on and is a preferable scheme of the above-mentioned scheme: the upper surface edge of the lens plate is concave to form two first clamping grooves, the lower surface of the lamp body is convex to form first clamping strips for filling the first clamping grooves, and the countersunk head screws and the first male buckles penetrate through the first clamping grooves.

The above-mentioned scheme is based on and is a preferable scheme of the above-mentioned scheme: the device also comprises an annular sealing ring; the periphery of the first pit on the upper surface of the lens plate is recessed to form an annular third pit, and the sealing ring is embedded into the third pit and is extruded by the lamp body to form a first pit seal.

The above-mentioned scheme is based on and is a preferable scheme of the above-mentioned scheme: the waterproof connector is also included; the upper surface of the lamp body is connected with a waterproof joint through threads.

The above-mentioned scheme is based on and is a preferable scheme of the above-mentioned scheme: the four corners of the first plate body are provided with connecting columns with hollow interiors; still include the support frame, the support frame is the U-shaped, and the support frame includes the second plate body, and the both sides of second plate body are followed the bending type and are formed relative third plate body, and the both ends of second plate body pass the bolt respectively and are connected with the spliced pole on two looks pieces of first plate body and form fixedly, third plate body centre gripping folded plate.

The application method of the embedded type mode grid LED studio lamp comprises the following steps:

(1) Manufacturing a rear cover, namely manufacturing the rear cover by adopting an aluminum plate through a sheet metal process to obtain the required specification and size of the rear cover;

(2) Assembling and combining, namely assembling and installing the LED lamp groups on the housing, splicing the housing according to the number and the size of the rear covers, and then buckling the spliced housing into the rear covers;

(3) And installing, namely erecting a triangular keel suspended ceiling on the top of a classroom room, and buckling the flanging on the rear cover into the triangular keel for internal fixation.

Compared with the prior art, the invention has the following outstanding and beneficial technical effects:

according to the embedded type mould grid LED studio lamp, the first female buckle is arranged on the rear cover, the second male buckle is arranged on the housing, and the housing and the rear cover are quickly and conveniently assembled and disassembled through the second male buckle into the first female buckle; the cover shell comprises a first plate body, the four edges of the first plate are provided with folded plates, the folded plates are provided with second male buckles with staggered positions, the adjacent cover shells can be connected through the second male buckles into the folded plates to form buckle connection, and the staggered second male buckles cannot cause position jacking; the splicing of different numbers and shapes can be realized; the lens plate, the LED lamp plate and the lamp body are assembled together for illumination, the lower surface of the lens plate is provided with a grating, the grating comprises a curved surface body, the curved surface body shields light, and meanwhile, a baffle plate on the grating cuts off LED lamp beads to achieve the effect of reducing glare values; the degrees of the included angles between the two side walls of the curved surface body are different, and corresponding glare values are also different, so that the requirements of different places are met; when the glare value is reduced to 16 or below, the light can be used for classroom illumination; the sealing ring provides a waterproof effect of the LED lamp panel; the grille is connected with the lens plate in a buckling way, so that the assembly and the disassembly are convenient;

drawings

Fig. 1 is a schematic view of the overall structure of the present invention.

Fig. 2 is a schematic view of the rear cover structure of the present invention.

Fig. 3 is a schematic view of the splicing structure of the housing of the present invention.

Fig. 4 is a schematic view of the splicing structure of the housing of the present invention.

Fig. 5 is a schematic view of a partially exploded construction of the present invention.

Fig. 6 is a schematic view of the splice structure of the housing of the present invention.

Fig. 7 is a schematic diagram of the housing structure of the present invention.

Fig. 8 is an exploded view of the LED lamp set of the present invention.

Fig. 9 is an exploded view of the LED lamp set of the present invention.

Fig. 10 is an exploded view of the LED lamp set of the present invention.

Fig. 11 is an exploded view of the LED lamp set of the present invention.

Fig. 12 is a schematic view of a lens plate structure of the present invention.

Fig. 13 is a schematic view of a lens plate structure of the present invention.

Fig. 14 is a schematic view of the structure of the plate body of the present invention.

Fig. 15 is a schematic view of a partial cross-sectional structure of the present invention.

Fig. 16 is a schematic view of the structure of the LED lamp set of the present invention.

Fig. 17 is a schematic diagram of the housing structure of the present invention.

Fig. 18 is a schematic view of the overall structure of the present invention.

Reference numerals: a rear cover 00; a first box 000; a flanging 001; a housing 01; a first plate 010; a folded plate 011; a second pin 012; a grille 013; a curved body 014; a baffle 015; the first male buckle 016; a connecting post 017; an LED lamp group 02; a lens plate 020; hemispherical protrusion 0200; a first pit 0201; a second pit 0202; first counter bore 0203; a first through hole 0204; a first card slot 0205; third pit 0206; an LED lamp panel 021; a lamp body 022; a first threaded hole 0220; a second through hole 0221; a first clip strip 0222; a screw 03; a sealing ring 04; a waterproof joint 05; a supporting frame 06; a second plate 060; a third plate 061;

Detailed Description

The invention will be further described with reference to the following specific examples in conjunction with the accompanying drawings;

the embodiment provides an embedded type mould grid LED studio lamp, which comprises a box-shaped rear cover 00 with an opening bottom wall, wherein the rear cover 00 is manufactured by adopting a cold-rolled plate or an aluminum plate through sheet metal process treatment, a first female buckle 000 which surrounds a circle is arranged on the side wall of the rear cover 00, the first female buckle 000 is a common through hole, and the guiding and positioning functions are realized in buckle connection; the edge of the rear cover 00 is outwards extended and folded to form a flanging 001, the flanging 001 is used for being embedded into a triangular keel of the suspended ceiling to form fixation, and a similar aluminous gusset plate structure mode is adopted to realize that the suspended ceiling lamp is embedded into the ceiling to form buckle connection, so that the suspended ceiling lamp is convenient to disassemble, assemble and maintain in the later period;

the LED lamp set comprises a shell 01 and an LED lamp set 02 which is arranged on the shell 01 and used for illumination; the second male buckles 012 are arranged on the peripheral edges of the housing 01, the second male buckles 012 on two opposite edges of the housing 01 are arranged in a staggered manner, and two adjacent housings 01 are mutually buckled through the corresponding second male buckles 012 to form a splice; the adjacent housings 01 are mutually connected in a buckling way through the second male buckles 012, and the dislocated second male buckles 012 cannot cause position jacking; can realize the splicing of different numbers and shapes, and is suitable for the specification selection of the rear cover 00;

the second pin 012 of the outermost round is buckled into the first box 000 to form fixation; the housing 01 is buckled into the first female buckle 000 through the second male buckle 012 to form a buckle connection, so that the quick assembly disassembly is convenient;

the installation process comprises the following steps: the shells 01 are spliced together through the second male buckles 012, and then buckled into the rear cover 00 to finish the installation.

Further, the cover case 01 includes a first plate 010, four edges of the first plate 010 are folded along to form a folded plate 011; the four folded plates 011 are respectively provided with a second male buckle 012 with outward buckle heads, and the second male buckles 012 on the two folded plates 011 are arranged in a staggered way; two adjacent covers 01 are buckled into a folded plate 011 through corresponding second male buckles 012 to form splicing; as described above, the second male buckle 012 is effectively arranged on the folded plate 011, and the second male buckle 012 on the two folded plates 011 is arranged in a staggered manner, that is, when the adjacent covers 01 are spliced, the first male buckle 016 of the previous cover 01 is buckled on the folded plate 011 of the next cover 01, and the first male buckle 016 of the next cover 01 is buckled on the folded plate 011 of the previous cover 01, so as to form a mutually buckled connection mode;

the first plate 010 is rectangular, and the four edges of the housing 01 can be spliced to obtain the required size; the first plate 010 is regular polygon, and the edges of the cover case 01 can be spliced;

the first plate body 010 is sunken to form a grille 013, the grille 013 comprises a horn-shaped curved surface body 014, the horn-shaped curved surface body 014 is used for shielding light rays emitted by the LED lamp beads, the glare value of the light rays is reduced, the opening sections of the top surface and the bottom surface of the curved surface body 014 are elliptical, a plurality of baffle plates 015 with uniform intervals are arranged in the curved surface body 014, the baffle plates 015 are used for shielding the light rays emitted by the adjacent LED lamp beads, so that too many strong light spots are prevented from being overlapped in a crossing mode, and the top outer surface of the curved surface body 014 protrudes out of four first male buckles 016 which are connected into a rectangle;

the LED lamp group 02 comprises a lens plate 020, an LED lamp plate 021 and a lamp body 022; the lower surface of the lens plate 020 is protruded with a plurality of hemispherical bulges 0200 with uniform intervals, two adjacent hemispherical bulges 0200 are separated by a baffle 015, the upper surface of the lens plate 020 is recessed to form a first pit 0201, the LED lamp plate 021 is embedded into the first pit 0201 for fixation, and the upper surface of the hemispherical bulges 0200 is recessed to form a second pit 0202 for placing lamp beads on the LED lamp plate 021; using original import, high-display-index low-blue LED, blue hazard rating RG1

The screw 03 penetrates through the lens plate 020 and is fixedly connected with the lamp body 022, the screw 03 is used for connecting and fixing, the connection firmness is improved, the conduction and heat dissipation effects can be improved, the lamp body 022 and the lens plate 020 clamp the LED lamp plate 021, the LED lamp plate 021 is further guaranteed not to move, and light rays irradiated by lamp beads on the LED lamp plate 021 are more stable; the first male buckle 016 penetrates through the lens plate 020 and the lamp body 022 to form buckle connection, and the buckle connection is convenient to disassemble and assemble; the LED lamp panel 021 is tightly attached to the lamp body 022, so that the heat conduction and heat dissipation effects are improved;

working principle: the LED lamp plate 021 is placed on the upper surface of the lens plate 020 and then is connected with the lamp body 022 through screws 03 to form a whole, the first male buckle 016 on the grille 013 penetrates through the lens plate 020 and the lamp plate to be connected in a buckling manner, and redundant light rays emitted by lamp beads on the LED lamp plate 021 are shielded by the grille 013 and can only achieve the effect of reducing the glare value within the range limited by the grille 013; waterproof joint 05, lamp body 022, LED lamp plate 021, sealing washer 04, lens board 020 make up into IP66LED waterproof module, pass through wire connection between the waterproof module, have strengthened waterproof grade through sealing washer 04.

Further, the included angle a between two side walls of the curved surface body 014 is 90 degrees, namely the included angle between two shading inclined planes on the drawing, the distance D between two adjacent baffle plates 015 is 18.6 mm, the bottom surface of each baffle plate 015 is an arc surface, the radius R of the arc surface is 42 mm, and the glare value UGR is less than or equal to 16; the glare value is reduced to 16 or below, the standard of classroom illumination is achieved, and the low flicker and low glare effect are achieved;

in another embodiment, the included angle a between two side walls of the curved surface body 014 is 135 degrees, namely, the included angle between two shading inclined planes on the drawing, the distance D between two adjacent baffle plates 015 is 18.6 mm, the bottom surface of the baffle plates 015 is an arc surface, the radius R of the arc surface is 125 mm, and the glare value UGR is less than or equal to 19; the glare value is reduced to 19 or below, so that the device can be used for demands of offices, laboratories and the like, the demands of different places can be realized by only changing the shape and the structure of the curved surface body 014, and the device has the advantages of unchanged part structures of other parts, more universality and strong practicability;

further, a first counter bore 0203 is formed in the inner side of the edge of the lower surface of the lens plate 020, and a first through hole 0204 is formed in one side of the first counter bore 0203; a first threaded hole 0220 corresponding to the first countersunk hole 0203 is formed in the lamp body 022, a second through hole 0221 corresponding to the first through hole 0204 is formed in one side of the first threaded hole 0220, the screw 03 is a countersunk screw 03, and the countersunk screw 03 is screwed into the first countersunk hole 0203 and the first threaded hole 0220 to form fixation; the first male buckle 016 passes through the first through hole 0204 and the second through hole 0221 to form a buckle connection; the countersunk screws 03 are used for connection, so that the lower surface of the lens plate 020 is smooth, the grille 013 is not extruded, and damage is avoided;

further, the upper surface edge of the lens plate 020 is concaved to form two first clamping grooves 0205, the lower surface of the lamp body 022 is convexly formed to form a first clamping strip 0222 filling the first clamping grooves 0205, and the countersunk head screw 03 and the first male buckle 016 penetrate through the first clamping grooves 0205; the lens plate 020 and the lamp body 022 are spliced together in a mode of the first clamping groove 0205 and the first clamping strip 0222, so that the preassembly fixing function can be achieved, the lens plate 020 and the lamp body 022 are prevented from being easily separated after the assembling is finished, the connection between the lens plate 020 and the lamp body 022 is firmer, and the first clamping groove 0205 and the first clamping strip 0222 play a role in blocking movement in the direction perpendicular to the extending direction;

further, the device also comprises an annular sealing ring 04; the periphery of the first concave pit 0201 on the upper surface of the lens plate 020 is recessed to form a ring-shaped third concave pit 0206, and the sealing ring 04 is embedded in the third concave pit 0206 and is extruded by the lamp body 022 to form a first concave pit 0201 to be sealed; the lens plate 020 and the lamp body 022 clamp the sealing ring 04 to play a role in sealing, and the LED lamp plate 021 has a waterproof effect;

further, the waterproof connector 05 is also included; the upper surface of the lamp body 022 is connected with the waterproof joint 05 in a threaded manner, and a lead on the LED lamp panel 021 passes through the waterproof joint 05 to achieve a waterproof effect, so that the LED lamp has practicability; a reinforcing plate is connected between the first male buckle 016 and the grille 013, and the lens plate 020 is propped against the outer reinforcing plate, and the reinforcing plate provides the strength of the first male buckle 016 and is not easy to break;

further, the four corners of the first plate 010 are provided with connecting columns 017 with hollow inside; the support frame 06 is U-shaped, the support frame 06 comprises a second plate body 060, two edges of the second plate body 060 are bent to form a third opposite plate body 061, two ends of the second plate body 060 respectively penetrate through bolts to be connected with connecting posts 017 on the two mutually spliced first plate bodies 010 to form fixation, and the third plate body 061 clamps folded plates 011; the supporting frame 06 is connected to the connecting posts 017 of the two housings 01, so that the connection firmness between the housings 01 is improved;

the application method of the embedded type mode grid LED studio lamp comprises the following steps:

(1) Manufacturing a rear cover 00, namely adopting an aluminum plate, and manufacturing the rear cover 00 into the required specification and size through a sheet metal process;

(2) Assembling and combining, namely assembling and mounting the LED lamp group 02 on the housing 01, splicing the housing 01 according to the number and the size of the rear cover 00, and then fastening the spliced housing 01 on the rear cover 00; according to the requirements of different places, a grating 013 with different angles is installed;

(3) And installing, namely erecting a triangular keel suspended ceiling on the top of a classroom, and buckling a flanging 001 on the rear cover 00 into the triangular keel for internal fixation.

In the description of the present invention, it should be understood that the directions or positional relationships indicated by the terms "upper", "lower", "top", "bottom", "inner", "outer", etc. are based on the directions or positional relationships shown in the drawings, or the directions or positional relationships conventionally put in place when the inventive product is used, or the directions or positional relationships conventionally understood by those skilled in the art are merely for convenience of describing the present invention and simplifying the description, and do not indicate or imply that the apparatus or elements referred to must have a specific direction, be configured and operated in a specific direction, and therefore should not be construed as limiting the present invention.

Furthermore, the terms "first," "second," and the like, are used for descriptive purposes only and are not to be construed as indicating or implying a relative importance or implicitly indicating the number of technical features indicated. The above embodiments are only preferred embodiments of the present invention, and are not intended to limit the scope of the present invention in this way, therefore: all equivalent changes in structure, shape and principle of the invention should be covered in the scope of protection of the invention.

Claims (7)

1. An embedded mode grid LED studio lamp which is characterized in that: the device comprises a box-shaped rear cover with an opening at the bottom wall, wherein a first female buckle which surrounds one circle is arranged on the side wall of the rear cover; the edge of the rear cover is outwards extended and folded to form a flanging, and the flanging is used for being embedded into the triangular keel of the suspended ceiling to form fixation;

the LED lamp set is arranged on the housing and used for lighting; the second male buckles are arranged on the peripheral edges of the housing, the second male buckles on the two opposite edges of the housing are arranged in a staggered manner, and two adjacent housings are mutually buckled through the corresponding second male buckles to form splicing;

the second male buckle at the outermost side is buckled into the first female buckle to form fixation;

the housing comprises a first plate body, and four edges of the first plate body are folded along to form folded plates; the four folded plates are respectively provided with a second male buckle with the buckle heads outwards, and the second male buckles on the two opposite folded plates are arranged in a staggered manner; two adjacent covers are spliced through corresponding second male buckle folded plates;

the first plate body is sunken to form a grid, the grid comprises a horn-shaped curved surface body, the top surface and the bottom surface of the curved surface body are both provided with oval-shaped opening sections, a plurality of baffle plates with uniform intervals are arranged in the curved surface body, and the outer surface of the top of the curved surface body is protruded to form four first male buckles connected in a rectangular shape;

the LED lamp group comprises a lens plate, an LED lamp plate and a lamp body; the lower surface of the lens plate is provided with a plurality of hemispherical bulges with uniform intervals, two adjacent hemispherical bulges are separated by a baffle plate, the upper surface of the lens plate is recessed to form a first pit, the first pit is embedded into the LED lamp plate for fixing, and the upper surface of the hemispherical bulge is recessed to form a second pit for placing lamp beads on the LED lamp plate; the screw penetrates through the lens plate and is fixedly connected with the lamp body, and the lamp body and the lens plate clamp the LED lamp plate; the first male buckle penetrates through the lens plate and the lamp body to form a buckle connection;

a first countersink is formed in the inner side of the edge of the lower surface of the lens plate, and a first through hole is formed in one side of the first countersink; the lamp body is provided with a first threaded hole corresponding to the first countersunk hole, one side of the first threaded hole is provided with a second through hole corresponding to the first through hole, the screw is a countersunk screw, and the countersunk screw is screwed into the first countersunk hole to be fixed with the first threaded hole; the first male buckle penetrates through the first through hole and the second through hole to form buckle connection;

the device also comprises an annular sealing ring; the periphery of the first pit on the upper surface of the lens plate is recessed to form an annular third pit, and the sealing ring is embedded into the third pit and is extruded by the lamp body to form a first pit seal.

2. The embedded mode LED basement lamp of claim 1, wherein: the included angle between the two side walls of the curved surface body is 90 degrees, the distance between two adjacent baffles is 18.6 millimeters, the bottom surface of each baffle is a cambered surface, the radius of each cambered surface is 42 millimeters, and the glare value UGR is less than or equal to 16.

3. The embedded mode LED basement lamp of claim 1, wherein: the included angle between the two side walls of the curved surface body is 135 degrees, the distance between two adjacent baffles is 18.6 millimeters, the bottom surface of each baffle is an arc surface, the radius of each arc surface is 125 millimeters, and the glare value UGR is less than or equal to 19.

4. The embedded mode LED basement lamp of claim 1, wherein: the upper surface edge of the lens plate is concave to form two first clamping grooves, the lower surface of the lamp body is convex to form first clamping strips for filling the first clamping grooves, and the countersunk head screws and the first male buckles penetrate through the first clamping grooves.

5. The embedded mode LED basement lamp of claim 1, wherein: the waterproof connector is also included; the upper surface of the lamp body is connected with a waterproof joint through threads.

6. The embedded mode LED basement lamp of claim 1, wherein: the four corners of the first plate body are provided with connecting columns with hollow interiors; still include the support frame, the support frame is the U-shaped, and the support frame includes the second plate body, and the both sides of second plate body are followed the bending type and are formed relative third plate body, and the both ends of second plate body pass the bolt respectively and are connected with the spliced pole on two looks pieces of first plate body and form fixedly, third plate body centre gripping folded plate.

7. The application method of the embedded type mould grid LED studio lamp is characterized by comprising the following steps of: the method comprises the following steps:

(1) Manufacturing a rear cover, namely manufacturing the rear cover by adopting an aluminum plate through a sheet metal process to obtain the required specification and size of the rear cover;

(2) Assembling and combining, namely assembling and installing the LED lamp groups on the housing, selecting grids with different specifications according to the requirements of different places, splicing the housing according to the number and the size of the rear covers, and then buckling the spliced housing into the rear covers;

(3) And installing, namely erecting a triangular keel suspended ceiling on the top of a classroom room, and buckling the flanging on the rear cover into the triangular keel for internal fixation.

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