CN219411463U - UHPC ceiling integrated lamp structure - Google Patents

Abstract

The utility model discloses an integrated lamp structure of a UHPC ceiling plate, which comprises a UHPC ceiling unit plate (1), an adjusting and connecting assembly, a UHPC keel (2) and a wire box (3); the UHPC ceiling unit plate is provided with a lamp hole site (101) for embedding a lamp (4), the wire box is arranged on the UHPC ceiling unit plate, a lamp pipeline (102) is embedded in the UHPC ceiling unit plate, the lamp pipeline is connected with the lamp hole site and the wire box, and a connecting wire of the lamp is arranged in the lamp pipeline in a penetrating way and is externally connected with a power supply circuit through the wire box; the UHPC suspended ceiling unit plates are adjustably connected with the UHPC keels through the adjusting and connecting assembly, the UHPC keels are arranged on the building structure main body (5), and a plurality of UHPC suspended ceiling unit plates are spliced into the UHPC suspended ceiling structure with the floodlight system. The utility model can solve the problem of difficult integrated construction of UHPC suspended ceilings and lamps caused by difficult on-site tapping of UHPC boards in the prior art.

Description

UHPC ceiling integrated lamp structure

Technical Field

The utility model relates to a lamp suspended ceiling integrated structure, in particular to a UHPC (Ultra-High Performance Concrete ) suspended ceiling integrated lamp structure.

Background

Along with the continuous innovation of the building design concept, various building suspended ceilings form layers are endless, wherein the UHPC board has been widely applied to various building outer vertical surfaces and cornice suspended ceilings due to good integrity. Taking a venue as an example, the cornice suspended ceiling adopts a UHPC board in the design scheme, and a large number of floodlight lamps are designed at the cornice suspended ceiling part, so that the requirements of floodlight illumination are met, the lamp construction convenience of the UHPC board suspended ceiling is improved, the lamp is required to be installed by opening holes in the UHPC board, but the structural strength and the integrity of the UHPC board are higher, the holes are difficult in site, and the integrated construction of the UHPC suspended ceiling and the lamp is difficult. Meanwhile, after the lamp is installed through the on-site opening, the connecting line of the lamp is externally arranged on the UHPC ceiling, and the attractiveness of the UHPC ceiling structure is affected. Therefore, there is a need to provide an integrated lamp structure for a UHPC ceiling panel, which can solve the problem of difficult integrated construction of the UHPC ceiling and the lamp caused by difficult field perforation of the UHPC panel in the prior art.

Disclosure of Invention

The utility model aims to provide an integrated lamp structure of a UHPC ceiling board, which can solve the problem of difficult integrated construction of the UHPC ceiling and the lamp caused by difficult on-site hole opening of the UHPC board in the prior art.

The utility model is realized in the following way:

an integrated lamp structure of an UHPC ceiling board comprises an UHPC ceiling unit board, an adjusting and connecting assembly, an UHPC keel and a wire box; a plurality of lamp hole sites are formed on the lower surface of the UHPC ceiling unit plate at intervals, so that a plurality of lamps are correspondingly embedded in the lamp hole sites respectively; the wire box is arranged on the upper surface of the UHPC ceiling unit board, a plurality of lamp pipelines are embedded in the UHPC ceiling unit board, one ends of the lamp pipelines are correspondingly communicated with the lamp hole sites respectively, and the other ends of the lamp pipelines are connected into the wire box, so that connecting wires of the lamps are respectively arranged in the lamp pipelines in a penetrating way and are externally connected with a power supply circuit through the wire box; the upper surface of UHPC furred ceiling unit board is connected with UHPC fossil fragments adjustable through a plurality of groups regulation coupling assembling, and UHPC fossil fragments fixed mounting is in building structure main part, and the UHPC furred ceiling structure of UHPC furred ceiling unit board concatenation formation with floodlight system.

The plurality of groups of adjusting and connecting components are arranged along the circumference of the UHPC ceiling unit plate, and the plurality of groups of adjusting and connecting components are symmetrically arranged about the center of the UHPC ceiling unit plate.

Each group of the adjusting and connecting components comprises a first adjusting plate, a second adjusting plate, a connecting plate, a first fixing piece and a second fixing piece; the first regulating plate is fixedly arranged on the upper surface of the UHPC suspended ceiling unit plate through a first fixing piece, one end of the second regulating plate is connected with the first regulating plate in an adjustable mode, the other end of the second regulating plate is fixedly connected with one end of the connecting plate through a second fixing piece, and the other end of the connecting plate is fixedly connected with the lower surface of the UHPC keel.

The middle part of the first adjusting plate is of a planar structure, so that the middle part of the first adjusting plate can be attached to the upper surface of the UHPC ceiling unit plate and fixed through a first fixing piece; one side of the first adjusting plate is provided with a first adjusting groove, and the other side of the first adjusting plate is provided with a first adjusting part, so that one end of the second adjusting plate is adjustably connected with the first adjusting plate through the first adjusting groove and the first adjusting groove.

One side of one end of the second adjusting plate is provided with a second adjusting part, the second adjusting part is slidably inserted into the first adjusting groove, the other side of one end of the second adjusting plate is provided with a second adjusting groove, and the first adjusting part is slidably inserted into the second adjusting groove, so that the second adjusting plate is adjustably connected with the first adjusting plate.

The first regulating groove is of a C-shaped structure, the second regulating part is of an inverted L-shaped structure, and the height of the outer wall of the second regulating part is consistent with that of the inner wall of the first regulating groove, so that the second regulating part can be transversely and slidably matched and inserted in the first regulating groove.

The bottom of the second adjusting part is provided with a flange which is in sliding fit with the inner wall of the first adjusting groove, and an adjusting gap is reserved between the flange and the first fixing piece; the second adjusting plate, the second adjusting part, the second adjusting groove and the flange are of an integrated structure.

The second regulating groove is of an inverted J-shaped structure, the first regulating part is of an L-shaped structure, the height of the first regulating part does not exceed the height of the inner wall of the second regulating groove, and the length of the horizontal section of the first regulating part is greater than that of the bottom horizontal section of the second regulating groove, so that the first regulating part can be transversely and slidably matched and inserted in the second regulating groove.

A convex strip is connected between the first adjusting part and the middle part of the first adjusting plate, so that an installation gap is reserved between the horizontal section of the first adjusting part and the upper surface of the UHPC suspended ceiling unit plate, and the bottom horizontal section of the second adjusting groove is inserted into the installation gap and is attached to the lower surface of the horizontal section of the first adjusting part; the first adjusting plate, the first adjusting groove, the first adjusting part and the convex strips are of an integrated structure.

Compared with the prior art, the utility model has the following beneficial effects:

1. the UHPC ceiling unit plate and the wire box are arranged, so that the lamp hole site is reserved on the lower surface of the UHPC ceiling unit plate during processing, the lamp is accurately and conveniently positioned and installed, the connecting wire of the lamp is led out into the wire box through the lamp pipeline embedded in the lamp, the external power supply circuit is convenient, the problem of difficult on-site tapping of the UHPC plate is solved, the problem that the appearance of the UHPC ceiling is influenced due to the fact that the connecting wire of the lamp is arranged outside after the lamp is installed in the on-site tapping is avoided, the normal use of a floodlight system is ensured, the construction sequence is optimized, and the construction efficiency and the construction quality are improved.

2. The utility model can realize the transverse position adjustment of the second adjusting plate relative to the first adjusting plate through the insertion and the relative transverse sliding of the first adjusting groove and the second adjusting part and the insertion and the relative transverse sliding of the second adjusting groove and the first adjusting part, thereby solving the problem of installation errors caused by insufficient construction and processing precision of the UHPC suspended ceiling unit plate and the UHPC keel, further ensuring the trim of the whole UHPC suspended ceiling structure and having beautiful appearance.

3. The UHPC suspended ceiling unit plate is simple in integral structure, convenient and quick to assemble and disassemble, high in construction efficiency, low in cost and low in technical level requirement on constructors, and can be widely applied to UHPC suspended ceiling structure construction integrated with a floodlight system.

Drawings

FIG. 1 is an elevational cross-sectional view of a UHPC ceiling tile integrated lamp configuration of the present utility model;

FIG. 2 is a bottom view of a UHPC ceiling tile in the UHPC ceiling tile integrated lamp construction of the present utility model;

fig. 3 is an enlarged schematic view at a in fig. 1.

In the figure, a ceiling unit board of 1UHPC, a hole site of 101 lamps, a pipeline of 102 lamps, a keel of 2UHPC, a box of 3 lines, 4 lamps, a main body of 5 building structures, a first adjusting plate of 601, a first adjusting groove of 6011, a first adjusting part of 6012, a raised line of 6013, a second adjusting plate of 602, a second adjusting part of 6021, a second adjusting groove of 6022, a flange of 6023, a connecting plate of 603, a first fixing piece of 604 and a second fixing piece of 605.

Detailed Description

The utility model will be further described with reference to the drawings and the specific examples.

Referring to fig. 1 and 2, a UHPC ceiling tile integrated lamp construction comprises a UHPC ceiling unit tile 1, an adjustment connection assembly, a UHPC keel 2 and a wire box 3; a plurality of lamp hole sites 101 are formed on the lower surface of the UHPC ceiling unit plate 1 at intervals, so that a plurality of lamps 4 are correspondingly embedded in the lamp hole sites 101 respectively; the wire box 3 is arranged on the upper surface of the UHPC ceiling unit board 1, a plurality of lamp pipelines 102 are embedded in the UHPC ceiling unit board 1, one ends of the lamp pipelines 102 are respectively correspondingly communicated with the lamp hole sites 101, and the other ends of the lamp pipelines 102 are connected into the wire box 3, so that connecting wires of the lamps 4 are respectively arranged in the lamp pipelines 102 in a penetrating way and are externally connected with a power supply circuit through the wire box 3; the upper surface of UHPC furred ceiling unit board 1 is connected with UHPC fossil fragments 2 adjustable through a plurality of sets of regulation coupling assembling, and UHPC fossil fragments 2 fixed mounting is on building structure main part 5, and the UHPC furred ceiling structure of UHPC furred ceiling unit board 1 concatenation formation with floodlight system.

The UHPC ceiling unit plate 1 is deeply designed with the lamp hole sites 101 for positioning and mounting the lamp 4 during factory processing, the shape, mounting positions and number of the lamp hole sites 101 can be determined according to the shape, mounting positions and number of the lamp 4, and the mounting accuracy of the lamp 4 can be ensured to meet the design requirement. Lamp pipelines 102 corresponding to the lamp hole sites 101 are embedded in the UHPC ceiling unit plate 1 for the built-in arrangement of connecting wires of the lamps 4, and the wire box 3 is used as the edge-closing and closing of all joint parts on the UHPC ceiling unit plate 1, so that the whole UHPC ceiling structure is neat and attractive and safe to use. The UHPC suspended ceiling unit plate 1 adopts a unit plate hoisting and splicing mode to form a UHPC suspended ceiling structure, is convenient and quick to construct, and achieves the integral floodlight effect of the UHPC suspended ceiling structure.

Referring to fig. 1, the plurality of groups of adjusting and connecting assemblies are arranged along the circumferential direction of the UHPC ceiling unit plate 1, and the plurality of groups of adjusting and connecting assemblies are symmetrically arranged about the center of the UHPC ceiling unit plate 1, so that the stress is uniform, and the stable and reliable hoisting of the UHPC ceiling unit plate 1 is ensured.

Referring to fig. 1, each of the adjusting and connecting assemblies includes a first adjusting plate 601, a second adjusting plate 602, a connecting plate 603, a first fixing member 604 and a second fixing member 605; the first regulating plate 601 is fixedly mounted on the upper surface of the UHPC suspended ceiling unit plate 1 through a first fixing piece 604, one end of the second regulating plate 602 is adjustably connected with the first regulating plate 601, the other end of the second regulating plate 602 is fixedly connected with one end of a connecting plate 603 through a second fixing piece 605, and the other end of the connecting plate 603 is fixedly connected with the lower surface of the UHPC keel 2.

The adjusting function is provided between the first adjusting plate 601 and the second adjusting plate 602, so that construction and processing errors of the UHPC suspended ceiling unit plate 1 and the UHPC keel 2 can be made up, the UHPC suspended ceiling unit plate 1 is fixedly connected with the UHPC keel 2 through the first adjusting plate 601, the second adjusting plate 602 and the connecting plate 603, and the integral hoisting of the UHPC suspended ceiling structure is stable and reliable and attractive in appearance. The first fixing piece 604 and the second fixing piece 605 can be bolts and nuts, and the assembly and the disassembly are convenient and quick.

Referring to fig. 3, the middle part of the first adjusting plate 601 has a planar structure, so that the middle part of the first adjusting plate 601 can be attached to the upper surface of the UHPC ceiling unit plate 1 and fixed by the first fixing member 604; a first adjustment groove 6011 is formed at one side of the first adjustment plate 601, and a first adjustment part 6012 is formed at the other side of the first adjustment plate 601, so that one end of the second adjustment plate 602 is adjustably connected to the first adjustment plate 601 through the first adjustment groove 6011 and the first adjustment groove 6011.

The middle plane structure of the first adjusting plate 601 can be attached to the upper surface of the UHPC ceiling unit plate 1, and the contact area between the first adjusting plate 601 and the UHPC ceiling unit plate 1 is large, so that the mounting stability of the UHPC ceiling unit plate 1 is high. The sizes of the first adjustment groove 6011 and the first adjustment portion 6012 may be designed according to actual adjustment range requirements.

Referring to fig. 3, a second adjusting portion 6021 is formed at one side of one end of the second adjusting plate 602, the second adjusting portion 6021 is slidably inserted into the first adjusting groove 6011, a second adjusting groove 6022 is formed at the other side of one end of the second adjusting plate 602, and the first adjusting portion 6012 is slidably inserted into the second adjusting groove 6022, so that the second adjusting plate 602 is adjustably connected with the first adjusting plate 601.

Through the slip grafting and spacing of first adjustment tank 6011 to second adjustment portion 6021 to and through the slip grafting and spacing of second adjustment tank 6022 to second adjustment portion 6021, realize the horizontal slip of second regulating plate 602 relative first regulating plate 601, can adapt to the position error between second regulating plate 602 and the connecting plate 603 that leads to because of installation and machining error, thereby guarantee the accurate, stable hoist and mount of UHPC furred ceiling unit board 1 in the below of UHPC fossil fragments 2.

Referring to fig. 3, the first adjusting groove 6011 has a C-shaped structure, the second adjusting portion 6021 has an inverted L-shaped structure, and the height of the outer wall of the second adjusting portion 6021 is identical to the height of the inner wall of the first adjusting groove 6011, so that the second adjusting portion 6021 can be laterally slidably inserted into the first adjusting groove 6011.

The second adjusting portion 6021 is vertically limited in the first adjusting groove 6011, so that the second adjusting portion 6021 can stably and transversely slide in the first adjusting groove 6011, the transverse adjusting stability of the UHPC ceiling unit plate 1 is ensured, and the installation levelness of the UHPC ceiling unit plate 1 is kept.

Referring to fig. 3, a flange 6023 is formed at the bottom of the second adjusting portion 6021, the flange 6023 is slidably attached to the inner wall of the first adjusting groove 6011, and an adjusting gap is left between the flange 6023 and the first fixing member 604.

The flange 6023 can be attached to the inner wall of the first adjusting groove 6011, and further limits the rotation of the second adjusting portion 6021 in the first adjusting groove 6011, so that the lateral adjustment of the UHPC ceiling unit plate 1 is further ensured to be stable and controllable. The clearance is reserved to avoid the collision between the flange 6023 and the first fixing member 604 during sliding adjustment.

Referring to fig. 3, the second adjusting groove 6022 has an inverted J-shaped structure, the first adjusting portion 6012 has an L-shaped structure, the height of the first adjusting portion 6012 does not exceed the height of the inner wall of the second adjusting groove 6022, and the horizontal length of the first adjusting portion 6012 is greater than the bottom horizontal length of the second adjusting groove 6022, so that the first adjusting portion 6012 can be slidably inserted into the second adjusting groove 6022.

The first regulating portion 6012 is laterally slidable in the second regulating groove 6022. The lateral adjustment effect is achieved by the sliding and limiting functions of both sides, and the first adjustment portion 6012 is not pulled out of the second adjustment groove 6022, and the second adjustment portion 6021 is not pulled out of the first adjustment groove 6011.

Referring to fig. 3, a protruding strip 6013 is connected between the first adjusting portion 6012 and the middle portion of the first adjusting plate 601, so that an installation gap is left between the horizontal section of the first adjusting portion 6012 and the upper surface of the UHPC ceiling unit board 1, and the bottom horizontal section of the second adjusting groove 6022 is inserted into the installation gap and is attached to the lower surface of the horizontal section of the first adjusting portion 6012.

By the arrangement of the protruding strips 6013, an installation gap for the bottom horizontal section of the second regulating groove 6022 is left between the horizontal section of the first regulating portion 6012 and the upper surface of the UHPC ceiling unit plate 1, thereby ensuring the connection and lateral sliding regulating function between the first regulating plate 601 and the second regulating plate 602.

Referring to fig. 3, the first adjusting plate 601, the first adjusting groove 6011, the first adjusting portion 6012 and the protruding strip 6013 are integrally formed, and have high structural strength and can be made of steel.

Referring to fig. 3, the second adjusting plate 602, the second adjusting portion 6021, the second adjusting groove 6022 and the flange 6023 are integrally formed, and have high structural strength and can be made of steel.

Referring to fig. 1 to 3, the construction method of the present utility model comprises:

in the factory processing phase of the UHPC ceiling unit board 1, a corresponding number and size of lamp hole sites 101 are reserved on the lower surface of the UHPC ceiling unit board 1 at the mounting locations of the lamps 4 according to the design arrangement of the lamps 4, and a corresponding number of lamp lines 102 are pre-buried at the corresponding locations of the UHPC ceiling unit board 1.

After the UHPC ceiling unit board 1 is transported to a construction site, each lamp 4 is embedded in a lamp hole site 101, and connecting wires of each lamp 4 are connected to the wire box 3 through a lamp pipeline 102. The wire box 3 is fixedly installed in the middle of the upper surface of the UHPC ceiling unit plate 1 by means of bolts and the like.

The middle plane sections of the four first adjusting plates 601 are fixedly arranged at four corners of the UHPC ceiling unit plate 1 through bolts, namely first fixing pieces 604, the lower ends of the second adjusting plates 602 are inserted into the first adjusting plates 601, so that second adjusting parts 6021 of the second adjusting plates 602 are inserted into first adjusting grooves 6011 of the first adjusting plates 601, and first adjusting parts 6012 of the first adjusting plates 601 are inserted into second adjusting grooves 6022 of the second adjusting plates 602.

The two angle steels, namely the horizontal sections of the connecting plates 603, are fixed at the two ends of the UHPC keels 2 in a bolt or embedded mode, and each UHPC suspended ceiling unit plate 1 is provided with two UHPC keels 2. All UHPC keels 2 are installed on the building structure main body 5 according to the construction drawing.

Hoisting the UHPC ceiling unit plate 1 to the installation height, enabling the upper end of the second adjusting plate 602 to be attached to the angle steel, namely the vertical section of the connecting plate 603, if a position error exists between the upper end of the second adjusting plate 602 and the vertical section of the connecting plate 603 due to installation or machining errors of the UHPC keel 2 and the third connecting plate 603, realizing position adjustment by utilizing the transverse sliding of the first adjusting part 6012 in the second adjusting groove 6022 and the transverse sliding of the second adjusting part 6021 in the first adjusting groove 6011, and making up the position error, enabling the upper end of the second adjusting plate 602 to be completely attached to the angle steel, namely the vertical section of the connecting plate 603, and connecting and fixing the second adjusting plate through bolts and nuts, namely the second fixing piece 605.

Four second adjusting plates 602 on the UHPC ceiling unit plates 1 are connected with the connecting plates 603 at two ends of the two UHPC keels 2 in the above manner, so as to finish hoisting of one UHPC ceiling unit plate 1. The wire box 3 on the UHPC ceiling unit plate 1 is externally connected with a power supply circuit, so that the normal power supply and use of the lamp 4 are ensured.

And repeating the steps to sequentially finish the hoisting of all UHPC ceiling unit plates 1, so as to form the UHPC ceiling structure integrated with the floodlight system.

The above embodiments are merely preferred embodiments of the present utility model and are not intended to limit the scope of the present utility model, therefore, any modifications, equivalent substitutions, improvements, etc. made within the spirit and principle of the present utility model should be included in the scope of the present utility model.

Claims (9)

1. The UHPC ceiling board integrated lamp structure is characterized in that: the UHPC ceiling unit comprises a UHPC ceiling unit plate (1), an adjusting and connecting assembly, a UHPC keel (2) and a wire box (3); a plurality of lamp hole sites (101) are formed on the lower surface of the UHPC ceiling unit plate (1) at intervals, so that a plurality of lamps (4) are correspondingly embedded in the lamp hole sites (101) respectively; the wire box (3) is arranged on the upper surface of the UHPC ceiling unit plate (1), a plurality of lamp pipelines (102) are embedded in the UHPC ceiling unit plate (1), one ends of the lamp pipelines (102) are respectively communicated with the lamp hole sites (101) correspondingly, the other ends of the lamp pipelines (102) are connected into the wire box (3), and connecting wires of the lamps (4) are respectively arranged in the lamp pipelines (102) in a penetrating manner and are externally connected with a power supply circuit through the wire box (3); the upper surface of UHPC furred ceiling unit board (1) is connected with UHPC fossil fragments (2) adjustable through a plurality of group's regulation coupling assembling, and UHPC fossil fragments (2) fixed mounting is on building structure main part (5), and the UHPC furred ceiling structure that forms has floodlight system is spliced to polylith UHPC furred ceiling unit board (1).

2. The UHPC ceiling tile integrated lamp construction of claim 1, wherein: the plurality of groups of adjusting and connecting components are arranged along the circumference of the UHPC ceiling unit plate (1), and the plurality of groups of adjusting and connecting components are symmetrically arranged about the center of the UHPC ceiling unit plate (1).

3. The UHPC ceiling tile integrated lamp construction of claim 1 or 2, characterized by: each group of the adjusting and connecting components comprises a first adjusting plate (601), a second adjusting plate (602), a connecting plate (603), a first fixing piece (604) and a second fixing piece (605); the first regulating plate (601) is fixedly arranged on the upper surface of the UHPC suspended ceiling unit plate (1) through a first fixing piece (604), one end of the second regulating plate (602) is connected with the first regulating plate (601) in an adjustable mode, the other end of the second regulating plate (602) is fixedly connected with one end of the connecting plate (603) through a second fixing piece (605), and the other end of the connecting plate (603) is fixedly connected with the lower surface of the UHPC keel (2).

4. A UHPC ceiling tile integrated lamp construction according to claim 3, wherein: the middle part of the first adjusting plate (601) is of a plane structure, so that the middle part of the first adjusting plate (601) can be attached to the upper surface of the UHPC ceiling unit plate (1) and fixed through a first fixing piece (604); one side of the first adjusting plate (601) is provided with a first adjusting groove (6011), the other side of the first adjusting plate (601) is provided with a first adjusting part (6012), and one end of the second adjusting plate (602) is adjustably connected with the first adjusting plate (601) through the first adjusting groove (6011) and the first adjusting groove (6011).

5. The UHPC ceiling tile integrated lamp construction of claim 4, wherein: one side of one end of the second adjusting plate (602) is provided with a second adjusting part (6021), the second adjusting part (6021) is slidably inserted into the first adjusting groove (6011), the other side of one end of the second adjusting plate (602) is provided with a second adjusting groove (6022), and the first adjusting part (6012) is slidably inserted into the second adjusting groove (6022) so that the second adjusting plate (602) is adjustably connected with the first adjusting plate (601).

6. The UHPC ceiling tile integrated lamp construction of claim 5, wherein: the first adjusting groove (6011) is of a C-shaped structure, the second adjusting part (6021) is of an inverted L-shaped structure, and the height of the outer wall of the second adjusting part (6021) is consistent with that of the inner wall of the first adjusting groove (6011), so that the second adjusting part (6021) can be transversely and slidably matched and inserted in the first adjusting groove (6011).

7. The UHPC ceiling tile integrated lamp construction of claim 5 or 6, wherein: a flange (6023) is formed at the bottom of the second adjusting part (6021), the flange (6023) is in sliding fit with the inner wall of the first adjusting groove (6011), and an adjusting gap is reserved between the flange (6023) and the first fixing piece (604); the second adjusting plate (602), the second adjusting part (6021), the second adjusting groove (6022) and the flange (6023) are of an integrated structure.

8. The UHPC ceiling tile integrated lamp construction of claim 5, wherein: the second adjusting groove (6022) is of an inverted J-shaped structure, the first adjusting part (6012) is of an L-shaped structure, the height of the first adjusting part (6012) does not exceed the height of the inner wall of the second adjusting groove (6022), and the length of the horizontal section of the first adjusting part (6012) is larger than that of the bottom horizontal section of the second adjusting groove (6022), so that the first adjusting part (6012) can be transversely and slidably matched and inserted in the second adjusting groove (6022).

9. The UHPC ceiling tile integrated lamp construction of claim 5 or 8, wherein: a raised line (6013) is connected between the first adjusting part (6012) and the middle part of the first adjusting plate (601), so that an installation gap is reserved between the horizontal section of the first adjusting part (6012) and the upper surface of the UHPC ceiling unit plate (1), and the bottom horizontal section of the second adjusting groove (6022) is inserted into the installation gap and is attached to the lower surface of the horizontal section of the first adjusting part (6012); the first adjusting plate (601), the first adjusting groove (6011), the first adjusting part (6012) and the protruding strip (6013) are of an integrated structure.