CN215987935U - Synchronous optical fiber branch matrix lamp - Google Patents

Abstract

A synchronous optical fiber branch matrix lamp comprises a synchronous optical fiber branch lamp ring, a trunk supporting column, a supporting base and a control box, and is characterized in that the synchronous optical fiber branch lamp ring is arranged on the surface of the trunk supporting column and is connected with the trunk supporting column; the bottom of the trunk supporting column is provided with a supporting base, and the supporting base is connected with the trunk supporting column; the supporting base is connected with the control box; the synchronous optical fiber branch lamp ring comprises an LED light ring and an optical fiber synchronous branch, and the optical fiber synchronous branch is connected with the LED light ring; the LED light ring is connected with the trunk support column; the device emits light by arranging a synchronous optical fiber branch lamp ring; specific characters or graphs are displayed by arranging an independent IP address and an LED which can independently control RGB three colors in the LED light ring; and the control box is used for controlling the independent IP address in the LED light ring and independently controlling the LEDs of three colors of RGB to display different contents.

Description

Synchronous optical fiber branch matrix lamp

Technical Field

The utility model relates to the technical field of artificial tree lamps, in particular to a synchronous optical fiber tree branch matrix lamp.

Background

The LED string lights on the christmas tree are already common, and the chip LEDs with separate address built therein and capable of separately controlling RGB three-color crystal are widely used and can easily control the color brightness and flashing time of the individual LED.

However, most of the LED strings are used by being randomly wound around the leaves on the surface of the christmas tree, which makes the LED lamps of the christmas tree only change color randomly or turn on or off in large blocks, and because there is no fixed space and position, there is no way to display specific characters or patterns, and there is a new way to display characters or patterns, and the LED lamps are arranged on the surface of the leaves of the tree (artificial or solid tree) layer by layer in sequence, although the method can achieve the purpose of displaying characters or patterns, after all, the shapes of the trees (artificial or solid tree) are different, and the branches grow randomly, so the LEDs are uniformly and equidistantly arranged on the surface of the leaves, which requires huge manual work and correction, and is not easy to implement mass production.

The LED is arranged on the surface of the leaf, the defects are two, firstly, the LED can not be accurately arranged into a regular matrix, so that the effect of displaying graphs or characters is poor, secondly, when the number of the LEDs is small, the luminous points are too concentrated, when the characters are displayed, a user needs to have imagination to connect the LED lamp points into characters, when the ancient people look at stars, the user needs extremely high imagination to see various constellation graphs, if the LED point distance is reduced, the resolution ratio is improved, the number of the LEDs is very large, the cost is naturally improved, even the whole tree is full of LED lamps, the tree leaves can not be seen at all, and the image of the tree lamps is lost.

SUMMERY OF THE UTILITY MODEL

The technical problem to be solved by the utility model is to provide a synchronous optical fiber tree matrix lamp, which can effectively solve the problems in the background technology.

In order to solve the problems, the technical scheme adopted by the utility model is as follows: a synchronous optical fiber branch matrix lamp comprises a synchronous optical fiber branch lamp ring, a trunk supporting column, a supporting base and a control box, and is characterized in that the synchronous optical fiber branch lamp ring is arranged on the surface of the trunk supporting column and is connected with the trunk supporting column; the bottom of the trunk supporting column is provided with a supporting base, and the supporting base is connected with the trunk supporting column; the supporting base is connected with the control box; the synchronous optical fiber branch lamp ring comprises an LED light ring and an optical fiber synchronous branch, and the optical fiber synchronous branch is connected with the LED light ring; the LED light rings are connected with the trunk supporting columns.

As a further preferred scheme of the utility model, a through hole is arranged in the middle of the LED light ring, and the LED light ring is sleeved with the trunk supporting column through the through hole; the LED light ring is provided with an LED light bar and a connecting seat; the optical fiber synchronous branch comprises optical fibers, leaves and fixing blocks; the LED light ring is connected with the optical fiber synchronous branch through the connecting seat.

As a further preferable scheme of the utility model, the LED lamp strip is arranged on the side surface of the LED light ring, and the LED lamp strip is fixedly connected with the LED light ring; the top surface of the LED light ring is provided with a plurality of threaded holes or tenon holes, and the holes are circumferentially distributed on the top surface of the LED light ring in an array manner; the connecting seat is provided with a through hole; the connecting seat is arranged on the side surface of the LED light ring; the top of the connecting seat is connected with the LED light ring through screws or tenons.

As a further preferable scheme of the present invention, the middle of the fixing block is provided with optical fiber fixing holes and leaf fixing holes, and the leaf fixing holes are circumferentially distributed around the optical fiber fixing holes in an array manner; one end of the optical fiber penetrates through the optical fiber fixing hole, and the optical fiber is fixed through the optical fiber fixing hole; leaf fixed orifices is passed to leaf one end, and the leaf is fixed through leaf fixed orifices.

As a further preferable scheme of the present invention, the optical fiber is provided with a plurality of optical fibers, and the optical fibers uniformly penetrate through the optical fiber fixing holes to form an optical fiber bundle; one end of the optical fiber penetrates through the through hole of the connecting seat to be connected with the LED lamp strip.

As a further preferable scheme of the present invention, the support base is fixedly connected with a trunk support column; the control box is electrically connected with the supporting base.

As a further preferred scheme of the utility model, an independent IP address is built in the LED light ring; the LED light ring is composed of a plurality of LEDs capable of independently controlling RGB three colors.

As a further preferable aspect of the present invention, the LEDs in the LED light bar are LEDs capable of individually controlling three colors of RGB.

As a further preferred scheme of the utility model, the control box controls an LED light ring with an independent IP address built in and an LED capable of independently controlling RGB three colors; the control box also comprises a wireless or wired communication module which is communicated with a mobile phone or a computer.

Compared with the prior art, the utility model provides a synchronous optical fiber tree matrix lamp, which has the following beneficial effects:

the device emits light by arranging a synchronous optical fiber branch lamp ring; specific characters or graphs are displayed by arranging an independent IP address and an LED which can independently control RGB three colors in the LED light ring; and the control box is used for controlling the independent IP address in the LED light ring and independently controlling the LEDs of three colors of RGB to display different contents.

Drawings

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

FIG. 2 is a schematic view of a portion of the present invention;

FIG. 3 is a schematic view of a synchronous fiber tree lamp ring according to the present invention;

FIG. 4 is a schematic view of an LED halo of the present invention;

FIG. 5 is a schematic view of an optical fiber bundle of the present invention;

FIG. 6 is a schematic view of a fiber optic synchronization tree structure according to the present invention;

FIG. 7 is a schematic view of an LED light bar of the present invention;

wherein: 1. synchronous optic fibre branch lamp ring, 11, LED aureole, 111, LED lamp strip, 112, connecting seat, 12, the synchronous branch of optic fibre, 121, optic fibre, 122, leaf, 123, fixed block, 123-1, optic fibre fixed orifices, 123-2, leaf fixed orifices, 2, trunk support column, 3, support base, 4, control box, 5, power plug.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments.

Referring to fig. 1-7, the utility model provides a synchronous optical fiber branch matrix lamp, which comprises a synchronous optical fiber branch lamp ring 1, a trunk support column 2, a support base 3 and a control box 4, and is characterized in that the synchronous optical fiber branch lamp ring 1 is arranged on the surface of the trunk support column 2, and the synchronous optical fiber branch lamp ring 1 is connected with the trunk support column 2; the bottom of the trunk supporting column 2 is provided with a supporting base 3, and the supporting base 3 is connected with the trunk supporting column 2; the supporting base 3 is connected with the control box 4; the synchronous optical fiber branch lamp ring 1 comprises an LED light ring 11 and an optical fiber synchronous branch 12, and the optical fiber synchronous branch 12 is connected with the LED light ring 11; the LED light rings 11 are connected with the trunk supporting columns 2.

As a further preferable scheme of the utility model, a through hole is arranged in the middle of the LED light ring 11, and the LED light ring 11 is sleeved with the trunk supporting column 2 through the through hole; the LED light ring 11 is provided with an LED light bar 111 and a connecting seat 112; the optical fiber synchronization branch 12 comprises an optical fiber 121, a leaf 122 and a fixed block 123; the LED light rings 11 are connected with the optical fiber synchronous branches 12 through the connecting seats 112; the synchronous optical fiber branch lamp ring 1 can be provided with one layer or a plurality of layers; the bottom layer is relatively large, and the synchronous optical fiber branch lamp ring 1 gradually becomes small from bottom to top and is in a conical shape.

As a further preferable scheme of the present invention, the LED light bar 111 is disposed on a side surface of the LED light ring 11, and the LED light bar 111 is fixedly connected to the LED light ring 11; the LED light bar 111 can be directly attached to the side surface of the LED light ring 11, or a plurality of single LED lights are welded on the side surface of the LED light ring 11; the LED light bar 111 is an LED which can independently control three colors of RGB; the top surface of the LED light ring 11 is provided with a plurality of threaded holes or tenon holes, and the holes are circumferentially distributed on the top surface of the LED light ring 11 in an array manner; the connecting base 112 is provided with a through hole; the connecting seat 112 is arranged on the side surface of the LED light ring 11; the top of the connecting seat 112 is connected with the LED light ring 11 by screw or tenon.

As a further preferable scheme of the present invention, the middle of the fixing block 123 is provided with an optical fiber fixing hole 123-1 and a leaf fixing hole 123-2, and the leaf fixing holes 123-2 are circumferentially distributed around the optical fiber fixing hole 123-1 in an array manner; one end of the optical fiber 121 passes through the optical fiber fixing hole 123-1, and the optical fiber 121 is fixed through the optical fiber fixing hole 123-1; one end of the leaf 122 passes through the leaf fixing hole 123-2, and the leaf 122 is fixed through the leaf fixing hole 123-2; the fixing block 123 is a hole seat for the optical fiber 121 and the leaves 122, and the fixing block 123 is made of a transparent plastic piece; the number of the leaf fixing holes 123-2 on the fixing block 123 is four, and one leaf 122 can be inserted into all four holes; one end of the leaves 122 can be fixed by a wire harness or tape or wire wrapping.

As a further preferable scheme of the present invention, a plurality of optical fibers 121 are provided, and the optical fibers 121 uniformly pass through the optical fiber fixing holes 123-1 to form an optical fiber bundle; one end of the optical fiber 121 is connected with the LED light ring 11 through a through hole of the connecting seat 112, and emits light through an LED lamp on the LED light ring 11, and then transmits the light to the tail end of the optical fiber 121 on the tail end of the tree branch to illuminate; the optical fiber 121 is integrally formed of transparent plastic.

The optical fiber 121 and the leaves 122 are synchronously installed into an optical fiber synchronous branch 12, and at least one optical fiber synchronous branch 12 or a plurality of optical fiber synchronous branches 12 can be connected to one LED light ring 11; the optical fiber synchronous tree branch 12 and the LED light ring 11 form a synchronous optical fiber tree branch lamp ring 1 together.

For example, thirty LED lamps are arranged on one LED halo 11, thirty optical fiber synchronous branches 12 can be connected, and if ten layers of LED halos 11 are arranged on a tree lamp, a 30 × 10 synchronous optical fiber branch matrix lamp can be formed; thus, a 30 × 10 matrix pattern can be easily displayed under software control, and actually only about 1/3 on the front side of the tree can be seen by human eyes, so that only 10 × 10 (one hundred light spots) of the LED matrix can be actually seen, and if the fiber bundle is one hundred, then 10 × 10 × 100 (ten thousand light spots) of the fiber matrix can be actually seen, which is much finer than the light spot of a single LED.

If the halo is more and the branches are more, the realistic matrix is also larger, and the displayable characters and graphics are also richer.

As a further preferable scheme of the present invention, the support base 3 is fixedly connected with the trunk support column 2; the control box 4 is electrically connected with the supporting base 3.

As a further preferable scheme of the present invention, an individual IP address is built in the LED light ring 11; the LED light ring 11 is composed of a plurality of LEDs capable of independently controlling RGB three colors; the LEDs in the LED light bar 111 are LEDs capable of individually controlling three colors of RGB.

As a further preferable scheme of the present invention, the control box 4 controls the LED light ring 11 with a built-in separate IP address and the LEDs capable of separately controlling three colors of RGB; the control box 4 also comprises a wireless or wired communication module which is communicated with a mobile phone or a computer; wireless communication modules such as WiFi, bluetooth or IR; wired communication modules such as USB, RS232, etc.

When a plurality of synchronous optical fiber branch matrix lamps are arranged, the control boxes 4 can be connected with each other in a wired or wireless mode; when they are arranged together, the same set of control software can be used to control a plurality of synchronous optical fiber branch matrix lamps to display patterns or characters together, so as to form a tree wall capable of displaying captions.

The synchronous optical fiber branch matrix lamp further comprises a power plug 5, and the power plug 5 is electrically connected with the control box 4.

As a specific embodiment of the present invention:

connecting and fixing the support base 3 and the trunk support column 2, and then installing the synchronous optical fiber branch lamp ring 1; the synchronous optical fiber branch lamp ring 1 can be provided with a plurality of layers, and is tapered from bottom to top; sleeving the LED light rings 11 on the trunk support column 2 for fixing, and sleeving a plurality of LED light rings 11 according to the number of layers of synchronous optical fiber branch lamp rings 1; after the LED light rings 11 are fixed, the LED light bars 111 are arranged on the side surfaces of the LED light rings 11, and the LED light bars 111 can be directly attached to the side surfaces of the LED light rings 11 or a plurality of single LED lamps are welded on the side surfaces of the LED light rings 11; then the connecting seat 112 is arranged on the side surface of the LED light ring 11 and is fixed through screw connection; the optical fiber 121 and the leaves 122 are fixed by the fixing block 123 to form an optical fiber synchronous tree branch 12, and the LED light ring 11 and the optical fiber synchronous tree branch 12 are connected by the connecting base 112 to form a synchronous optical fiber tree branch lamp ring 1; if a plurality of optical fiber synchronization branches 12 are needed, a plurality of connecting seats 112 are installed on the LED light rings 11, and then the plurality of optical fiber synchronization branches 12 are installed through the connecting seats 112; for example, thirty LED lamps can be connected to one LED ring 11, and thirty optical fiber synchronous branches 12 can be connected to the other LED ring 11, or a 30 × 10 synchronous optical fiber branch matrix lamp can be formed if the tree lamp has ten layers of LED rings 11.

A control box 4 is installed near the supporting base 3, the control box 4 is connected with a power plug 5, a wireless or wired communication module for mobile phone or computer communication is further arranged in the control box 4, the wireless communication module is WiFi, Bluetooth or IR and the like, the wired communication module is USB, RS232 and the like, and after the control box 4 and the power plug 5 are installed, the whole installation is finished.

The power plug 5 is electrified to start the whole work, and the control box 4 is used for controlling the LED to light and controlling the LED to display specific characters or figures.

The above examples are only intended to illustrate the technical solution of the present invention, but not to limit it; although the present invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; and such modifications or substitutions do not depart from the spirit and scope of the corresponding technical solutions of the embodiments of the present invention.

Claims (9)

1. A synchronous optical fiber branch matrix lamp comprises a synchronous optical fiber branch lamp ring (1), a trunk support column (2), a support base (3) and a control box (4), and is characterized in that the synchronous optical fiber branch lamp ring (1) is arranged on the surface of the trunk support column (2), and the synchronous optical fiber branch lamp ring (1) is connected with the trunk support column (2); the bottom of the trunk supporting column (2) is provided with a supporting base (3), and the supporting base (3) is connected with the trunk supporting column (2); the supporting base (3) is connected with the control box (4); the synchronous optical fiber branch lamp ring (1) comprises an LED light ring (11) and an optical fiber synchronous branch (12), and the optical fiber synchronous branch (12) is connected with the LED light ring (11); the LED light ring (11) is connected with the trunk supporting column (2).

2. The synchronous optical fiber branch matrix lamp as claimed in claim 1, wherein a through hole is arranged in the middle of the LED halo (11), and the LED halo (11) is sleeved with the trunk supporting column (2) through the through hole; the LED light ring (11) is provided with an LED light bar (111) and a connecting seat (112); the optical fiber synchronous branch (12) comprises an optical fiber (121), leaves (122) and a fixing block (123); the LED light rings (11) are connected with the optical fiber synchronous branches (12) through connecting seats (112).

3. The synchronous optical fiber branch matrix lamp as claimed in claim 2, wherein the LED light bar (111) is arranged at the side of the LED halo (11), and the LED light bar (111) is fixedly connected with the LED halo (11); the top surface of the LED light ring (11) is provided with a plurality of threaded holes or tenon holes, and the holes are circumferentially distributed on the top surface of the LED light ring (11) in an array manner; the connecting seat (112) is provided with a through hole; the connecting seat (112) is arranged on the side surface of the LED light ring (11); the top of the connecting seat (112) is connected with the LED light ring (11) through screws or tenons.

4. The synchronous optical fiber tree branch matrix lamp according to claim 2, wherein an optical fiber fixing hole (123-1) and a leaf fixing hole (123-2) are arranged in the middle of the fixing block (123), and the leaf fixing holes (123-2) are circumferentially distributed around the optical fiber fixing hole (123-1); one end of the optical fiber (121) penetrates through the optical fiber fixing hole (123-1), and the optical fiber (121) is fixed through the optical fiber fixing hole (123-1); one end of the leaf (122) penetrates through the leaf fixing hole (123-2), and the leaf (122) is fixed through the leaf fixing hole (123-2).

5. The synchronous optical fiber tree matrix lamp as claimed in claim 2, wherein the optical fibers (121) are provided with a plurality of optical fibers, and the optical fibers (121) are uniformly passed through the optical fiber fixing holes (123-1) to form an optical fiber bundle; one end of the optical fiber penetrates through a through hole of the connecting seat (112) and is connected with the LED lamp bar (111).

6. A synchronized fiber optic branch matrix lamp according to claim 1, wherein the support base (3) is fixedly connected to a trunk support post (2); the control box (4) is electrically connected with the supporting base (3).

7. A synchronized fiber optic treeing matrix lamp according to claim 1, wherein the LED light rings (11) have individual IP addresses built in; the LED light ring (11) is composed of a plurality of LEDs capable of independently controlling RGB three colors.

8. The synchronized optical fiber tree branch matrix lamp of claim 2, wherein the LEDs in the LED light bar (111) are individually RGB LEDs.

9. The synchronous optical fiber tree branch matrix lamp as claimed in claim 1, wherein the control box (4) controls built-in LED light rings (11) with independent IP addresses and LEDs capable of independently controlling RGB three colors; the control box (4) also comprises a wireless or wired communication module which is communicated with a mobile phone or a computer.

Images