CN112937195A - Mural suspended ceiling structure capable of realizing dynamic display through detachable ornaments - Google Patents

Abstract

The invention provides a mural suspended ceiling structure capable of realizing dynamic display through a detachable ornament, which comprises a mural and a metal hanging net, wherein the mural and the metal hanging net are distributed from top to bottom; a layer of fine metal wire net and a layer of LED lamp net are sequentially fixed above the mural through fine silk threads or double-sided adhesive tapes, the LED lamp net is positioned above the fine metal wire net, a plurality of LED colored lamps are arranged on the LED lamp net, and a plurality of optical fibers, optical fiber bundles and optical fiber colored lamps are assembled on the lower surface of the mural; the metal hanging net is provided with a detachable ornament through a filament yarn, the filament yarn is fixed on double faced adhesive tape, a small amount of steel wool is adhered, the filament yarn is connected with a small amount of fire paper, the small amount of fire paper on the filament yarn is ignited when the steel wool is ignited, the filament yarn is burnt out, and the falling of the ornament is realized, so that the mural painting provided with the LED colored lamp and the optical fiber is completely displayed. The invention has good dynamic effect, safety and strong practicability.

Description

Mural suspended ceiling structure capable of realizing dynamic display through detachable ornaments

Technical Field

The invention belongs to the technical field of suspended ceiling decoration structures, and particularly relates to a mural suspended ceiling structure capable of realizing dynamic display through detachable ornaments.

Background

The suspended ceiling refers to the top decoration of the residential environment of a house, and is simply the decoration of the suspended ceiling, which is one of important parts of indoor decoration. At present, the design of indoor roofs is generally to install lamp decorations or paste exquisite murals on the ceilings, but the indoor roofs are not provided with too many good decoration materials. Therefore, for the combination of the existing ceiling structure and wall paintings, various patterns are distributed on the canvas on which the paintings are drawn by using optical fibers, and the colors of the optical fibers and the colored lamps are consistent and can not change. Moreover, the mural colored lamp is inconvenient to install, high in cost per square meter, inconvenient to replace, and only can be installed indoors in the installation aspect, and cannot be suitable for outdoor installation. The mural in the current market mostly adopts the optical fiber lamp, can not present the effect of mural picture by only relying on optic fibre, only need to lean on external light to shine and just can show holistic mural. The existing mural has no dynamic effect of gradually appearing from hiding to appearing along with the falling of the ornaments such as petals on the metal hanging net, and the effect of increasing the field in the atmosphere on celebrations such as wedding is not existed in the mural with the similar colored lamps at present.

Disclosure of Invention

Aiming at the defects in the prior art, the invention provides a mural suspended ceiling structure capable of realizing dynamic display through a detachable ornament.

In order to achieve the purpose, the technical scheme of the invention is as follows:

a mural suspended ceiling structure capable of realizing dynamic display through a detachable ornament comprises a mural and a metal hanging net which are distributed from top to bottom;

a layer of fine metal wire mesh for enhancing the strength of the mural and a layer of LED lamp mesh are sequentially fixed above the mural through fine silk threads or double-sided adhesive tapes, the LED lamp mesh is positioned above the fine metal wire mesh, a plurality of LED colored lamps are arranged on the LED lamp mesh, and a plurality of optical fibers, optical fiber bundles and optical fiber colored lamps are assembled on the lower surface of the mural;

the metal net is provided with ornaments through filament yarns, the filament yarns are fixed on the double-faced adhesive tape, a small amount of steel wool is adhered, the filament yarns are connected with a small amount of fire paper, the small amount of fire paper on the filament yarns is ignited when the steel wool is ignited, the filament yarns are burnt out, and therefore the ornaments fall off, and murals provided with the LED colored lamps and the optical fibers are completely displayed.

Furthermore, the metal hanging net is also provided with a non-shedding ornament through a fine wire, and a fine copper wire is fixed on the double-faced adhesive tape, so that the ornament fixed by the fine copper wire cannot shed when the steel wool and the fire paper are combusted.

Furthermore, the lamp beads of the LED colored lamps are positioned on one side of the fine metal wire mesh and penetrate through the through holes in the murals, and the colors of the lamp beads of the LED colored lamps can be changed randomly along with a set control program.

Furthermore, the lower surface of the mural is also provided with a mural LED lamp with changeable color.

Furthermore, the mural painting is also provided with a signal receiver for receiving control signals, so that the optical fiber colored lamp, the optical fiber and the light beam can be turned on and off according to a set program.

Furthermore, an integrally formed switch is arranged on the signal receiver, and the switch can be a mechanical switch, an electronic switch or an intelligent switch; the light may be received wirelessly or controlled according to a previously programmed program.

Further, the optical fiber bundles are butted through a signal conversion switch; the signal conversion switch comprises an optical signal to optical signal switch, a steel wool combustion signal to optical signal switch and an optical signal to ignition steel wool signal switch.

Furthermore, patterns drawn by common ink or/and patterns drawn by fluorescent pigment are/is arranged on the mural, and the theme of the mural can be drawn according to the requirements of customers.

Furthermore, the canvas material of the mural can adopt PP environmental protection material or other environmental protection cloth.

Furthermore, the mural or the metal hanging net adopts an integral structure or a splicing structure of combined modules.

Furthermore, a music module is arranged on the mural, and the music module is used for enabling the LED lamp beads and the optical fibers to change various colors along with music according to a set program and to light up or turn off; meanwhile, the sound color conversion of the music module and the LED colored lamp is controlled by adopting a wireless signal.

Furthermore, traceless strong non-stick hooks, turn buckle screws, lifting ring nuts and fish wires are adopted between the mural and the metal hanging net for adjustment and fixation.

The invention has the beneficial effects that:

(1) uniqueness: the optical fiber lamp, the LED colored lamp bead with strong brightness and the LED lamp net can show the overall effect of the mural without external light, and particularly, the picture effect shown by the assembled ultra-brightness color flickering LED colored lamp is greatly superior to the existing optical fiber dense dot effect in the aspect of the mural with starry sky as the theme;

(2) the equipment is convenient: the composite ceiling structure takes the canvas as a main body, and when all the optical fibers, the LED colored lamps and the LED lamp nets are installed on the canvas, only a plurality of canvases are spliced together, and the composite ceiling structure is installed in a ceiling installation mode, and the composite ceiling structure is also installed outdoors. If the canvas needs to be disassembled and replaced, the canvas of the hanging shed can be laid down and decomposed into a plurality of pieces, and the canvas is used as the main body and can be rolled into a roll for storage and transportation; in addition, each component of the mural colored lamp is in a modular design, and a user can conveniently and quickly assemble and debug the mural colored lamp according to the instruction after the mural colored lamp is manufactured;

(3) diversity: the colored lamps can be manufactured according to different user requirements, on the canvas material of the mural and the theme of the mural, and the pigment of the mural can be common ink or fluorescent pigment for drawing. And even the mode of connecting the control switch of the LED colored lamp can be selected, including mechanical switch, electron and intelligence; the display effect of the music played by the music module and the color and brightness of the LED colored lamp can be controlled by a user through a wired or wireless development program;

(4) safety: because steel wool and trace fire paper are distributed on the dynamic effect of the mural painting from hiding to showing, the mural painting which is separated from the metal hanging net provided with the detachable flowers or decorations in the aspect of safety is arranged on the upper layer of the metal hanging net of the detachable flowers or decorations, the distance is 3-5 cm, the flame height can not reach the mural painting when the trace fire paper is burnt, and the burning time is controlled within 2 seconds; the steel wool and the fire paper are fixed, so that the phenomenon of burning and falling can not occur;

(5) the practicability is strong: the practicability of the mural color lamp can be recovered more conveniently after the mural color lamp is used, the mural color lamp can be used for the next time, and if the mural to be replaced is not used any more, the lamp decoration on the old mural is only required to be assembled on the new mural. No waste products are produced, and the waste materials are environment-friendly.

Drawings

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

FIG. 2 is a schematic diagram of the mural distribution of the present invention;

FIG. 3 is a schematic structural diagram of a mural monomer a and a mural monomer b according to the present invention;

FIG. 4 is a schematic diagram of the assembly of the single mural a and the single mural b;

FIG. 5 is a schematic view of the assembly of the fine wire mesh with the LED light mesh of the present invention;

FIG. 6 is a schematic representation of the secure bonding of an optical fiber of the present invention to a mural;

FIG. 7 is a schematic view of an optical fiber assembly of the present invention;

FIG. 8 is a schematic view of the structure of the light beam of the present invention;

FIG. 9 is a schematic view of the present invention fiber optic bundle securely bonded to a mural;

FIG. 10 is a schematic view of the fiber optic bundle assembly of the present invention;

FIG. 11 is a schematic view of the LED lights on the light net of the present invention fixedly bonded to a mural;

FIG. 12 is a schematic view of an LED lamp assembly on a light net of the present invention;

FIG. 13 is a schematic view of the distribution of the LED lamps on the optical fiber, optical fiber bundle, and lamp net of the present invention;

FIG. 14 is a schematic view of the distribution of optical fibers and optical fiber bundles on the bottom surface of a mural according to the present invention;

FIG. 15 is a schematic structural diagram of an optical signal-to-optical signal switch with a battery according to the present invention;

FIG. 16 is a schematic structural diagram of a power supply switch for an LED light network according to the present invention;

FIG. 17 is a schematic structural view of a steel wool combustion signal-to-optical signal switch according to the present invention;

FIG. 18 is a schematic structural diagram of a switch for transferring an optical signal to a steel wool signal according to the present invention;

FIG. 19 is a schematic view showing the construction of an LED lamp switch of the paper strip for assembling flowers according to the present invention;

FIG. 20 is a schematic view of a portion of the ornament of the present invention;

FIG. 21 is a schematic view showing the construction of a flower which can be dropped according to the present invention;

FIG. 22 is a schematic structural view of the flower assembled paper strip of the present invention;

FIG. 23 is a schematic view of the assembly of the fresco with the top wall of the present invention;

FIG. 24 is a schematic view of the assembly of the fresco with the top and side walls of the present invention;

FIG. 25 is a schematic view of the assembly of the metallic netting under the fresco and the detachable flowers of the present invention;

fig. 26 is an assembled top view of the fresco ensemble of the present invention.

In the figure, 1-mural painting, 2-fine metal wire mesh, 3-LED lamp mesh, 4-LED colored lamp, 5-optical fiber, 6-fine wire, 7-metal hanging mesh, 8-ornament, 9-double faced adhesive tape, 10-steel wool, 11-fire paper,

12-optical fiber sockets, 13-non-transparent hard plastic pipes, 14-photoresistors or TEMT6000 phototransistors or other types of phototransistors, 15-button batteries, 16-LED lamp beads capable of changing any colors, 17-spotlight covers, 18-magnets, 19-iron rings, 20-metal wires, 21-power supply plugs,

22-light beam, 23-transparent heat-shrinkable tube, 24-thin metal wire,

25-flower valve leaf, 26-color paper layer, 27-tin paper layer, 28-steel wire cotton layer, 29-paper tape for assembling flowers, 30-LED lamp switch, 31-detachable flowers, 32-non-detachable flowers,

33-adjacent mural butt-joint hardboard, 34-detachable adhesive tape, 35-hardboard for preventing wallpaper from bending, 36-mural monomer b, 37-mural monomer a,

38-traceless strong non-stick hook, 39-fishing line, 40-flying ring nut, 41-double-head screw, 42-nut and pressing sheet,

43-optical fiber fixing hard paper card board, 44-transparent adhesive tape, 45-hard paper card, 46-fixing glue,

47-optical fiber colored lamps, 48-lamp beads, 49-mural LED lamps, 50-transparent nanometer adhesive tapes, 51-signal conversion switches,

52-a turnbuckle tightener, 53-a metal ring, 54-a hard plastic batten, 55-a wallpaper fixing screw nut, 56-a metal hook and 57-an adhesive tape adhered with a small amount of steel wool.

Detailed Description

The invention is illustrated below with reference to specific examples. It will be understood by those skilled in the art that these examples are for illustrative purposes only and are not intended to limit the scope of the present invention in any way.

A mural suspended ceiling structure capable of realizing dynamic display through detachable ornaments is shown in figure 1 and comprises a mural (1) and a metal hanging net (7) provided with ornaments (8), wherein the mural is distributed from top to bottom; the ornamental article (8) of the present invention includes, but is not limited to, flowers, petals and other ornamental articles; the ornament (8) of the present invention can be formed in a state that a part of the ornament falls off and a part of the ornament does not fall off according to the requirement.

As shown in fig. 2, a layer of fine metal wire mesh (2) for enhancing the strength of the mural and a layer of LED lamp mesh (3) are sequentially fixed above the mural (1) through fine wires (6), and the LED lamp mesh (3) is positioned above the fine metal wire mesh (2).

Specifically, the mural is provided with patterns drawn by common ink or/and patterns drawn by fluorescent pigment, and the theme of the mural can be drawn according to the requirements of customers. The canvas material of the mural can adopt PP environmental protection material or other environmental protection cloth. The mural or the metal hanging net adopts an integral structure or a splicing structure of combined modules.

As shown in figure 3, in order to install the mural (1) with too large overall size, the whole mural (1) is divided into a plurality of single mural with the same size, considering that the transportation and the assembly are not convenient enough. The single mural is divided into a single mural a (37) and a single mural b (36), and the single mural is installed by adopting the splicing mode shown in figure 4, namely, the single mural b (36) is arranged at two adjacent sides of the single mural a (37), so that errors are not easy to occur during installation, and meanwhile, the connection strength of the mural is increased. As shown in figure 4, when the single mural body a (37) is connected with the single mural body b (36), the adjacent abutting-joint hard plates (33) of the single mural body b (36) and the detachable adhesive tapes (34) of the single mural body a (37) are matched and fixed together, so that the connection strength of the mural is increased, the phenomenon of interruption of the mural picture at the connection part is avoided, and the mural (1) can be completely displayed. Meanwhile, in order to avoid the mural (1) from being influenced by self gravity, a hard board (35) for preventing the wallpaper from bending is arranged on each mural monomer a (37) and each mural monomer b (36).

As shown in fig. 5, each mural painting is provided with a plurality of LED colored lamps (4) on the LED lamp net (3), the LED colored lamps (4) are close to one side of the fine metal wire net (2), and the lamp beads of the LED colored lamps penetrate through the through holes on the mural painting (1). The LED colored lamps (4) are not regularly distributed according to the horizontal, flat and vertical sequence, but are randomly distributed according to the pattern.

As shown in fig. 6, the cross section of the optical fiber fixing cardboard (43) for fixing and bonding the optical fiber to the mural is L-shaped, the optical fiber (5) is inserted between two oppositely arranged optical fiber fixing cardboard (43) and the periphery of the side surface is tightly wound and fixed by a transparent adhesive tape (44); the lower surfaces of the two optical fiber fixing hard paper clamping plates (43) are bonded and fixed on a double-sided adhesive tape (9) adhered to the optical fiber fixing positions on the upper surface of the mural (1). With the assembly method shown in fig. 7, one end of the optical fiber passes through the mural (1) and is directly assembled and fixed on the mural (1) by a filament yarn, and the other end of the optical fiber is connected and fixed with the LED colored lamp (4) on the LED lamp net (3) by a heat-shrinkable tube. The optical fibers (5) fixed by the optical fiber fixing cardboard (43) are not regularly distributed according to the horizontal, flat and vertical sequence, but are randomly distributed according to the pattern, and the positions of the optical fibers (5) fixed by the optical fiber fixing cardboard and the optical fibers (5) assembled and fixed on the mural (1) are regularly distributed.

As shown in fig. 8, the optical fiber bundle (22) is composed of a plurality of single-stranded optical fibers (5) and is secured together by a transparent heat sink tube (23). In order to make the optical fiber bundle (22) into any desired shape and to make the individual optical fibers more compact, a thin wire (24) is inserted into the optical fiber bundle (22). The assembly of the optical fiber bundle (22) is that after the mural (1) is integrally assembled, a position and shape diagram for installing the optical fiber bundle (22) is arranged on the mural (1), one end of the optical fiber bundle (22) is fixedly connected to an LED colored lamp (4) penetrating through the mural (1) through a transparent heat sink pipe (23), and the optical fiber bundle (22) is fixed on the mural (1) through a transparent nano adhesive tape (50); the other end of the fiber bundle (22) is not connected to any device.

As shown in FIG. 9, the optical fiber color lamp (47) also has a plurality of optical fibers (5) and thin metal wires (24) fixed by the heat sink tube (23) but the length of the optical fiber color lamp is shorter than that of the light beam (22), and the heat sink tube (23) is fixed by only a small section, and the optical fibers (5) scattered at the non-fixed position can be connected and fixed with the LED color lamps (4) on different LED lamp nets (3) by the heat sink tube (23), so that one optical fiber color lamp (47) has different colors. And the optical fiber colored lamp (47) is only inserted on the mural (1). Specifically, the optical fiber colored lamp (47) penetrates through the hard paper card (45) and is fixed on the hard paper card (45) through the fixing glue (46), and the lower surface of the hard paper card (45) is fixedly bonded on the double-sided adhesive tape (9) at the fixed position of the optical fiber colored lamp (47) of the mural (1). In combination with the assembly method shown in fig. 10, one end of the optical fiber colored lamp (47) penetrates through the mural (1) and is assembled and fixed on the mural (1), and the other end of the optical fiber colored lamp is connected and fixed with the LED colored lamp (4) on the LED lamp net (3) through the heat shrink tube. The positions of the optical fiber colored lamps (47) fixed by the hard paper card (45) and the optical fiber colored lamps (47) assembled and fixed on the mural (1) are not regularly distributed according to the horizontal, flat and vertical sequence, but are randomly distributed according to the pattern.

As shown in fig. 11, a plurality of LED colored lamps (4) arranged on the LED lamp net (3) are fixedly bonded to the mural (1), the lamp beads (48) of the LED colored lamps (4) are inserted into the hard paper card (45) and the upper parts thereof are fixed together through the fixing glue (46), and the lower surface of the hard paper card (45) is fixedly bonded to the double-sided adhesive tape (9) at the fixed positions of the lamp beads of the mural (1). As shown in fig. 12, the lower parts of the lamp beads (48) penetrate through the through holes on the mural (1), and the lamp beads (48) are not regularly distributed according to the horizontal, horizontal and vertical sequence, but are randomly distributed according to the pattern.

As shown in fig. 13, the lower surface of the fresco (1) is also provided with a fresco LED lamp (49). The color conversion of the mural LED lamp (49) can be controlled by receiving an external signal, or can be switched into any color according to a command which is programmed in advance, and the mural LED lamp can be turned on and turned off. The mural LED lamp (49) is provided with a hard paper card (45) fixing structure. The optical fiber (5), the light ray bundle (22) and the optical fiber colored lamp (47) are manufactured before being assembled and assembled along with the mural (1) so as to improve the assembly efficiency.

The mural painting is also provided with a signal receiver for receiving control signals, so that the optical fiber colored lamp (47), the optical fiber (5) and the light beam (22) can be turned on and off according to a set program, and the color of the lamp bead of the LED colored lamp can be changed randomly along with the set control program. The signal receiver is provided with an integrally formed control switch which can be a mechanical switch, an electronic switch or an intelligent switch. The control switch is a control circuit board which can receive signals and is used for controlling the colors changed by the optical fiber colored lamps to light and extinguish, and the colors of a plurality of LED colored lamps on the LED lamp network to light and extinguish. It can receive wireless signal, also can be according to the program control light that has set for.

Fig. 14 is a schematic distribution diagram of optical fibers and optical fiber bundles on the lower surface of a mural according to the present invention. The light ray bundle (22) assembled on the mural (1) can be made into any required shape due to the built-in thin metal wire (24), and is fixedly bonded on the lower surface of the mural (1) through the transparent nano adhesive tape (50), and meanwhile, the light ray bundle (22) is turned on and off by the aid of the signal conversion switch (51) when in butt joint. The signal conversion switch (51) comprises an optical signal to optical signal switch, an LED lamp net power supply switch, a steel wool combustion signal to optical signal switch, an optical signal to ignition steel wool signal switch and an LED lamp switch for assembling paper tapes of flowers. In short, the signal conversion switch (51) is suitable for realizing the signal conversion of an optical signal into another optical signal, a steel wool combustion signal into an optical signal, and an optical signal into a steel wool ignition signal. Rather than a control switch.

Fig. 15 to 20 show the signal transfer switch (51). Fig. 15 shows a light signal-to-light signal switch with a battery, wherein a light beam (22) is inserted into optical fiber sockets (12) at two ends of the switch, the optical fiber bundle (22) is fixed by a non-transparent hard plastic tube (13), a button battery (15) is arranged in the switch to supply power to an LED lamp bead (16) capable of converting any color, the operating principle of the switch is that when the optical fiber bundle at an input end is lighted, a photoresistor a TEMT6000 phototransistor or other types of phototransistors (14) in the switch are conducted, the button battery (15) starts to supply power to the LED lamp bead (16) capable of converting any color, the lamp bead is lighted, and the optical fiber bundle at an output end is lighted by a light-gathering lampshade (17) in the switch. Since the switch is wholly wrapped by a non-transparent hard plastic tube (13), the photoresistor or the TEMT6000 phototransistor or other types of phototransistors (14) cannot be interfered by external light.

Fig. 16 shows an LED light network power supply switch, which is configured to switch an optical signal to an optical signal by connecting a power supply plug (21) that can be powered by a light network socket on a mural, insert a light bundle (22) into optical fiber sockets (12) at both ends of the switch, and fix the light bundle with a non-transparent hard plastic tube (13), and use the power supply plug (21) to supply power to LED light beads (16) that can convert any color, and the operation principle is that when the light bundle at the input end is lighted, a photo resistor or a TEMT6000 phototransistor or other types of phototransistors (14) inside the switch are turned on, and the light bundle at the output end is lighted by a light-gathering lampshade (17) inside the switch, and the light bundle at the input end is powered by the power supply plug (21). Since the switch is wholly wrapped by a non-transparent hard plastic tube (13), the photoresistor or the TEMT6000 phototransistor or other types of phototransistors (14) cannot be interfered by external light.

FIG. 17 shows a switch for converting a steel wool combustion signal into an optical signal, wherein an optical fiber bundle (22) at an output end is fixed with a non-transparent hard plastic tube (13) provided with a light-gathering lampshade (17) and LED lamp beads (16) capable of changing any color by a transparent heat-shrinkable tube (23), a button cell (15) is arranged in the switch for supplying power to the LED lamp beads (16) capable of changing any color, the switch has the working principle that when a small amount of steel wool (10) of the switch is ignited, a filament thread with an iron ring (19) is tied on the upper side of the steel wool to be burnt off, so that a magnet (18) in the switch is attracted with the iron ring (19), a metal lead (20) connected with the LED lamp beads (16) capable of changing any color is further welded on the iron ring, the button cell (15) is also welded at the other end of the magnet (18), when the magnet (18) is attracted with the iron ring (19), a circuit is conducted, and the button cell (15) starts to supply power to the LED lamp beads, the lamp beads are lightened, and the optical fiber bundle (22) at the output end is lightened through a light-gathering lampshade (17) in the switch. The switch is used for realizing the functional design of converting steel wool ignition signals into light signals.

Fig. 18 shows a switch for switching an optical signal to ignite steel wool signal, wherein an optical fiber bundle (22) at an input end is fixed with a photoresistor or a TEMT6000 phototransistor or other types of phototransistors (14) by using a non-transparent heat shrink tube, a button cell (15) is arranged in the switch and used for outputting an ignition current to the steel wool (10), and the operation principle is that when the optical fiber bundle (22) at the input end is bright, the photoresistor the TEMT6000 phototransistor or other types of phototransistors (14) in the switch are conducted by receiving the optical signal of the optical fiber bundle (22) at the input end, the button cell (15) starts to output the ignition current to the steel wool (10), and the steel wool (10) is ignited. The switch is used for realizing the functional design of converting an optical signal into a steel wool ignition signal.

Fig. 19 is an LED lamp switch (30) of a paper tape for assembling flowers, the filament yarn (6) connected with the LED lamp switch (30) is burned off, the iron ring (19) on the upper side of the filament yarn is attracted by the magnet (18), the lead welded on the iron ring (19) is connected with the lead fixed on the magnet (18), and the filament yarn is used for supplying power to the LED lamp bead (16) capable of changing any color with the button battery (15) arranged inside the filament yarn, so that the LED lamp is turned on. The switch is used for realizing the functional design of converting steel wool ignition signals into light signals on ornaments such as flowers and the like. Referring to fig. 20, the LED lamp switch (30) is installed on the paper tape (29) for mounting flowers, and the paper tape (29) is further provided with steel wool connected with the filament thread (6), and the filament thread (6) is burned off by the steel wool. The paper tape (29) is also provided with detachable flowers (31) and non-detachable flowers (32). The non-detachable flower (32) is fixed to the flower-mounted paper strip (29) by the fine wire (24) according to the design requirement.

Fig. 21 is a schematic view of a detachable flower. The flower (31) capable of falling off comprises flower valve blades (25), fine silk threads (6), steel wool (10) and trace fire paper (11), wherein one end of each fine silk thread (6) is fixed on the flower valve blades (25), the other end of each fine silk thread is sequentially sleeved with the trace fire paper (11) and a small amount of steel wool (10), and the steel wool (10) is fixed on the metal hanging net (7) or the paper tape (29) through an adhesive tape (57). Wherein the flower valve (25) can be fresh flower or colored paper flower. The working principle is that when an adhesive tape (57) which is fixed on a metal hanging net (7) and is adhered with steel wool (10) is ignited by a signal conversion switch (51), a trace amount of fire paper (11) which is fixed on a detachable flower (31) of the metal hanging net (7) is ignited, and then the thin silk thread (6) on the detachable flower (31) is burnt off, the flower falls off, and the mural painting (1) is displayed. All the detachable flowers (31) of the metal hanging net (7) and the adhesive tape (57) adhered with the steel wool (10) are prepared before assembly, and only need to be assembled through the metal hanging hook (56).

Fig. 22 is a schematic view illustrating the construction of a strip for assembling flowers. The paper tape (29) comprises a color paper layer (26), a tin paper layer (27) and a steel wire cotton layer (28) which are wrapped and distributed from outside to inside, the color paper layer (26) on the outermost layer is hard paper which is not easy to burn, and the front side and the back side of the hard paper are adhered to enable the appearance color to have various patterns; the tin paper layer (27) in the middle layer is used for safety in order to prevent the color paper layer (26) from burning caused by the burning of the steel wool layer (28); the dosage of the steel wool layer (28) at the innermost layer is very small, so that the combustion safety of the color paper layer (26) can be further controlled and effectively ensured. The working principle is that when the signal conversion switch (51) is closed, the steel wire cotton layer (28) on the paper tape (29) is ignited, and the LED lamp switch (30) fixed on the paper tape is turned on; meanwhile, the trace fire paper (11) on the flower (31) which can fall and is connected with the steel wire cotton layer (28) of the paper tape (29) is ignited by the steel wire cotton layer (28), and then the thin thread (6) of the flower (31) which can fall is burnt, and the flower valve leaf (25) falls off. But the thin wires (24) of the non-detachable flowers (32) cannot be burned so that the non-detachable flowers (32) remain on the strip (29) on which the flowers are assembled.

As shown in fig. 23 and 24, the assembly method of the mural is that the assembly of the mural (1) can be carried out in any space with a roof structure due to the limitation of the assembly field, and meanwhile, in order to facilitate the assembly, a plurality of traceless strong non-stick hooks (38) are used as stress points to lift the mural (1) in an alignment mode. The murals (1) are reinforced and fixed around the murals (1) through hard plastic pressing plate strips (54), metal rings (53) are fixed on the hard plastic pressing plate strips (54), fine metal wires (24) are arranged on the metal rings (53), and a turnbuckle tightener (52) and traceless strong non-stick hooks (38) fixed on the side walls are fixed at the other ends of the metal rings (53). The working principle is that when the mural (1) is fixed by the suspension ring nut (40), the double-end screw (41) and the nut and the pressing sheet (42) as shown in figure 24, the mural (1) can be adjusted to a proper height by adjusting the fish wire (39), and all the lengths of the fish wire are uniform before assembly, which is beneficial to improving the assembly efficiency. A metal ring (53) fixed on the side surface of the mural (1) is provided with a thin metal wire (24), the other end of the metal ring is fixed with a turn buckle tightener (52), and the turn buckle tightener (52) can be adjusted to further strengthen the fixation of the mural and simultaneously has good correction effect on the straightening flatness of the mural.

As shown in fig. 25, the assembly mode of the metal net (7) under the mural, the detachable flowers and the ornaments is shown, the metal net (7) is assembled under the mural (1) through the metal hook (56) of the eye nut (40) fixed under the mural (1), wherein the sizes of all the thin metal wires (24) are uniformly adjusted so as to be convenient for assembly. A small amount of steel wool adhesive tape (57) is adhered on the metal hanging net (7). The working principle is that when the adhesive tape (57) which is fixed on the metal hanging net (7) and is adhered with the steel wool is ignited by the signal conversion switch (51), the trace fire paper (11) which is fixed on the detachable flowers (31) of the metal hanging net (7) is ignited to further burn off the thin silk threads (6) on the detachable flowers (31), and the flowers fall off, so that the mural (1) is displayed.

As shown in fig. 26, which is an assembly top view of the whole mural (1), the mural is fixed on the mural by the action of traceless strong non-stick hooks (38) on the top and the side walls, and then the thin metal wires (24) are tightened and fixed by a turnbuckle (52). So as to enhance the fixing function of the mural (1).

Claims (10)

1. The utility model provides a mural furred ceiling structure that developments appear is realized through ornaments that can fall which characterized in that: comprises wall paintings and metal hanging nets which are distributed from top to bottom;

a layer of fine metal wire mesh for enhancing the strength of the mural and a layer of LED lamp mesh are sequentially fixed above the mural through fine silk threads or double-sided adhesive tapes, the LED lamp mesh is positioned above the fine metal wire mesh, a plurality of LED colored lamps are arranged on the LED lamp mesh, and a plurality of optical fibers, optical fiber bundles and optical fiber colored lamps are assembled on the lower surface of the mural;

the metal hanging net is provided with a detachable ornament through a filament yarn, the filament yarn is fixed on double faced adhesive tape, a small amount of steel wool is adhered, the filament yarn is connected with a small amount of fire paper, the small amount of fire paper on the filament yarn is ignited when the steel wool is ignited, the filament yarn is burned off, and therefore the falling of the ornament is realized, and the mural provided with the LED colored lamp and the optical fiber is completely displayed;

meanwhile, the metal hanging net is provided with the non-shedding ornaments through the fine threads, and the fine copper wires are fixed on the double-faced adhesive tape, so that the ornaments fixed by the fine copper wires cannot shed when the steel wool and the fire paper are combusted.

2. A mural ceiling structure according to claim 1 for enabling dynamic presentation via a detachable decoration, wherein: the lamp beads of the LED colored lamps are positioned on one side of the fine metal wire mesh and penetrate through the through holes on the murals, and the colors of the lamp beads of the LED colored lamps can be changed randomly along with a set control program; the lower surface of the mural is also provided with a mural LED lamp with changeable color.

3. A mural ceiling structure according to claim 1 for enabling dynamic presentation via a detachable decoration, wherein: the wall painting is also provided with a signal receiver for receiving control signals, so that the optical fiber colored lamps, the optical fibers and the light beam can be turned on and off according to a set program.

4. A mural ceiling structure according to claim 3 for dynamic presentation by a detachable decoration, wherein: the signal receiver is provided with an integrally formed switch which can be a mechanical switch, an electronic switch or an intelligent switch; the light may be received wirelessly or controlled according to a previously programmed program.

5. A mural ceiling structure according to claim 1 for enabling dynamic presentation via a detachable decoration, wherein: the optical fiber bundles are butted through a signal conversion switch; the signal conversion switch comprises an optical signal to optical signal switch, a steel wool combustion signal to optical signal switch and an optical signal to ignition steel wool signal switch.

6. A mural ceiling structure according to claim 1 for enabling dynamic presentation via a detachable decoration, wherein: the mural is provided with patterns drawn by common ink or/and patterns drawn by fluorescent pigment, and the theme of the mural can be drawn according to the requirements of customers.

7. A mural ceiling structure according to claim 1 for enabling dynamic presentation via a detachable decoration, wherein: the canvas material of the mural can adopt PP environmental protection material or other environmental protection cloth.

8. A mural ceiling structure according to claim 1 for enabling dynamic presentation via a detachable decoration, wherein: the mural or the metal hanging net adopts an integral structure or a combined module splicing structure.

9. A mural ceiling structure according to claim 1 for enabling dynamic presentation via a detachable decoration, wherein: the mural is provided with a music module, and the music module is used for enabling the LED lamp beads and the optical fibers to change various colors along with music according to a set program and to light up or turn off; meanwhile, the sound color conversion of the music module and the LED colored lamp is controlled by adopting a wireless signal.

10. A mural ceiling structure according to claim 1 for enabling dynamic presentation via a detachable decoration, wherein: the wall painting and the metal hanging net are adjusted and fixed by traceless strong non-stick hooks, turn buckle screws, lifting ring nuts and fishing lines.

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