CN216202689U - Reinforced simulation wicker lamp - Google Patents

Abstract

The utility model provides a reinforced simulation wicker lamp, and belongs to the field of simulation decoration. The simulation willow leaf shaping device solves the problem that the existing simulation plant cannot be randomly changed and has a stable shape, and comprises a base, a branch-shaped fork connected to the base and a simulation willow connected to the branch-shaped fork, wherein an LED lamp string penetrating through the base and the branch-shaped fork is arranged on the simulation willow, a shaping metal wire capable of changing the shape of the simulation willow and shaping the simulation willow is arranged in the simulation willow, the simulation willow leaf on the outer side of the shaping metal wire is integrally formed by injection molding, and the LED lamp string is wound on the simulation willow and supported by the shaping metal wire.

Description

Reinforced simulation wicker lamp

Technical Field

The utility model relates to the technical field of illumination, in particular to a reinforced simulation wicker lamp.

Background

With the improvement of living standard of people, people pay attention to surrounding working and living environments, particularly, the modern simulated plant industry is rapidly developed, and the simulated plants become common articles in life of people. The simulated plants can decorate the life of people, create the atmosphere with the landscape and the landscape, bring people the feeling of returning to nature, are made of chemical products after being mixed, and have the advantages of no restriction of natural conditions, no need of watering and fertilizing, no need of worrying about withering and falling of plants and the like compared with real plants. The simulated decorative tree or the lamp string wound on the simulated tree is placed in many places, the LED lamp string of the simulated tree is exposed outside, and the lamp string is wrapped in the branches and the trunk together, so that the use safety is ensured under the condition of not affecting the attractiveness.

For example, patent No. CN201310755197.5 discloses a simulation plant with a function of releasing negative ions, in which a memory metal wire is wrapped in a substrate and coated with a coating layer capable of releasing negative ions, and the bent portions of the memory metal wire and the substrate are straightened by the contraction deformation of the memory metal wire after absorbing heat, so as to simulate the swinging phenomenon of the simulation plant.

Still as a branch lamp for artificial decoration disclosed in patent No. CN200720111837, including wire, lamps and lanterns, branch form body and a plurality of decorations of setting on branch form body, branch form body comprises steel wire support frame and the parcel layer of winding on steel wire support frame, the wire wrap up by the parcel layer and set up on steel wire support frame, lamps and lanterns set up on branch form body to establish ties or connect in parallel by the wire mutually, the wire is wrapped up by the parcel layer and is set up at steel wire support frame, the security is high.

The three schemes are the safety and the simulation degree when the LED lamp string is used by wrapping the steel wire and the LED lamp string, wherein the comparison document 1 adopts the memory metal wire to complete simulation but cannot control the shape of a simulated plant, and the comparison document 2 adopts an embedded method to wrap the steel wire, the lamp string and the connecting rope, so that the safety is improved, but the use cost of replacing the lamp string when a user is unsatisfied with the lamp string is improved due to the built-in lamp string, and the user experience is reduced. Therefore, the scheme cannot thoroughly solve the problem that the shape of the simulated plant is fixed when the LED lamp string can be replaced in a specific use scene of a user.

Disclosure of Invention

The utility model aims to solve the problems in the prior art, and provides a driving power supply of a lamp, which aims to solve the technical problems that: how to fix the shape of the simulated plant under the condition of ensuring that the LED lamp string can be replaced.

The purpose of the utility model can be realized by the following technical scheme: a strengthened simulation wicker lamp comprises a base, a branch-shaped fork connected to the base and a simulation wicker connected to the branch-shaped fork, wherein an LED lamp string penetrating through the base and the branch-shaped fork is arranged on the simulation wicker, a shaping metal wire capable of changing the shape of the simulation wicker and shaping the simulation wicker is arranged in the simulation wicker, a simulation leaf on the outer side of the shaping metal wire is integrally formed by injection molding, and the LED lamp string is wound on the inner part of the simulation wicker and supported by the shaping metal wire.

In the scheme, in the reinforced simulation wicker-like lamp, the LED lamp strip is wound on the simulation wicker embedded with the shaped metal wire. The shape through adjustment setting wire controls the wicker and puts the shape to carry out effectual support to LED lamp cluster, under the circumstances of guaranteeing safety, the user can change the lamp area of wanting by oneself, thereby the demand that different occasions need different forms is adapted to, promote user's use and experience, again because emulation wicker adopts the integrated into one piece that moulds plastics, at the in-process of moulding plastics, the setting wire is in the middle part position, consequently the risk of setting wire slippage can not appear, use safety has been promoted.

In the reinforced artificial wicker-like lamp, the diameters of the shaping metal wire and the artificial wicker are 1: 2-4, and the shaping metal wire can be folded into a preset shape under the diameter ratio. By setting the ratio of the shaped metal wires to the simulated wickers to be 1: 2-4, under the condition of ensuring the structural strength, a user can make different adjustments in different use environments so as to meet the requirements of the willow shape in the current environment.

In the above-mentioned strengthened artificial wicker-like lamp, the surface roughness of the shaped metal wire is greater than or equal to 0.8 μm and the shaped metal wire is formed into a metal wire with a constant diameter or a diameter from thick to thin. Because the surface roughness of the shaping metal wire is more than or equal to 0.8 μm, the contact area and the taper of the shaping metal wire and the simulation wicker are increased, the situation that the shaping metal wire slips and is forced to be drawn out in the use process is further ensured, and the use safety and the product stability are improved.

In the above-mentioned strengthened artificial wicker-like lamp, the base and the branch-shaped branch are fixedly connected by wrapping one end of the artificial wicker with a waterproof adhesive tape. The simulated wicker and the branch-shaped fork are connected through the waterproof adhesive tape, so that the electric leakage caused by abnormal use is avoided under the condition that the connection between the simulated wicker and the branch-shaped fork is stable.

In the above-mentioned strengthened artificial wicker-like lamp, the shaping metal wire penetrates through the whole artificial wicker or multiple sections of shaping metal wires are adopted. The metal wire penetrates through the whole simulation wicker, so that the whole structure can be better adjusted, and the strength of the product and the support for the LED lamp string are also ensured. As an alternative scheme, a plurality of sections of shaped metal wires are used as supports, so that the wickers can swing through other external factors such as wind and the like when the wicker is used, and the wicker is more ornamental.

In the above-mentioned lamp, one end of the artificial wicker is provided with a fixing slot, the wall of the fixing slot is provided with an opening and a buckle, the artificial wicker is directly connected with the branch-shaped fork through the buckle or the shaped metal wire passes through the opening and is connected with the branch-shaped fork through the buckle, and the branch-shaped fork and the buckle are wound by the waterproof adhesive tape and extend to the end of the iron wire. The fixing groove is formed in one end of the simulation wicker, the buckle on the fixing groove is connected with the branch-shaped branches, and then the fixing groove is wound and fixed through the waterproof adhesive tape, so that the connection strength of the simulation wicker and the branch-shaped branches is further strengthened, and the stability of the product is ensured. As an alternative scheme, a hole for the shaped metal wire to pass through is formed in the fixing groove, the shaped metal wire, the branch-shaped fork and one end of the simulated wicker are wrapped in the waterproof adhesive tape after passing through the hole, the stability of the product is further improved, and the shaped metal wire cannot slip due to large-amplitude swing.

In the above-mentioned strengthened artificial wicker-like lamp, the shaping metal wire is made of soft metal material such as aluminum, copper, titanium, etc. The soft metal material has better plasticity, ductility and toughness, so the soft metal material can not be broken under the condition of changing the form, and the stability is further enhanced.

In the reinforced artificial wicker lamp, the artificial wickers are made of flexible materials such as plastics, PVC, rubber and the like. By adopting the flexible material, the shape can be changed at will without being limited by the toughness of the material, and the use safety of the product is ensured by utilizing the non-conducting characteristic on the premise of ensuring that the product cannot be scratched.

Compared with the prior art, the utility model has the following advantages:

1. according to the scheme, the shaping metal wire is additionally arranged on the basis of the prior art, so that a user can adapt to different use environments by positioning the change shape or direction of the metal wire in the use process.

2. Under the prerequisite of safety and individualized customization is ensured to the location wire through this scheme, through external LED lamp area, can change at any time the lamp area type to ensure that the user can use lower cost, comparatively swift mode, accomplish the visual effect that wants to reach.

Drawings

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

FIG. 2 is a partial schematic view of section C of FIG. 1;

FIG. 3 is an enlarged partial cross-sectional view of portion A of FIG. 2;

FIG. 4 is a schematic cross-sectional view B-B of FIG. 2;

FIG. 5 is an enlarged partial schematic view of portion D of FIG. 1;

FIG. 6 is a schematic view of the partially exploded structure of FIG. 5;

FIG. 7 is a schematic partial cross-sectional view of FIG. 5;

fig. 8 is a partial sectional view schematically showing a fixing structure of embodiment 2.

In the figure, 1, a base; 2. branch-shaped branching; 3. simulating wicker; 4. an LED light string; 5. shaping the metal wire; 6. fixing the clamping groove; 7. a waterproof tape.

Detailed Description

The following are specific embodiments of the present invention and are further described with reference to the drawings, but the present invention is not limited to these embodiments.

As shown in fig. 1, 2, 3 and 4, the artificial willow comprises a base 1, a branch-shaped branch 2 connected to the base 1 and a plastic artificial willow strip 3 connected to the branch-shaped branch 2, wherein as an alternative, the artificial willow strip 3 is made of a flexible material such as rubber. The simulation wicker 3 is provided with an LED lamp string 4 which penetrates through the base 1 and the branch-shaped fork 2, an aluminum shaping metal wire 5 which can change the shape of the simulation wicker 3 and shape the simulation wicker 3 is arranged in the simulation wicker 3, and as an alternative scheme, the shaping metal wire 5 can be made of soft metal materials such as copper, titanium and the like. The simulation willow leaves on the outer side of the shaping metal wire 5 are integrally formed by injection molding, and the surface roughness A of the shaping metal wire 5 is larger than or equal to 0.8 mu m, so that the LED lamp string 4 is wound in the simulation willow strip 3 and supported by the shaping metal wire 5. The shaping metal wire 5 penetrates through the whole simulation wicker 3 in a polygonal body with the same diameter up and down, the LED lamp string 4 penetrates through the base and the branch-shaped fork, the inevitable abrasion caused by the fact that the LED lamp string 4 is excessively exposed is avoided, the shaping metal wire is wound on the simulation wicker 3 wrapped with the shaping metal wire 5, the LED lamp string 4 is supported through the strength and the toughness of the material of the shaping metal wire 5, and the LED lamp string 4 is enabled to have the capacity of not deforming after the use state is changed. As an alternative, the diameter ratio of the shaped wire 5 to the simulated wicker 3 may be 1:3 and a surface roughness a of more than 0.8 μm, as an alternative, 1: 2-4 and the surface roughness A equal to 0.8 mu m, the contact area between the shaping metal wire 5 and the inner wall of the simulation wicker 3 is increased, the phenomenon that the shaping metal wire 5 loses stability due to the strength problem of a product when being bent on the premise of generating displacement inside is avoided, the simulation wicker 3 can be bent into preset shapes such as heart shapes, the bending hand feeling of a user is guaranteed, and the user experience is improved. By using a through-shape wire 5 the strength of the support is ensured. Because the LED lamp string 4 is wound on the shaping metal wire 5, the LED lamp string is convenient for users to replace by themselves, and the user experience is improved.

As shown in fig. 5, 6 and 7, a fixing slot 6 is arranged at one end of the simulation wicker 3, an opening and a buckle are arranged on the wall of the fixing slot, the simulation wicker 3 is directly connected with the branch-shaped fork 2 through the buckle or the branch-shaped fork 2 and the buckle are wound through a waterproof adhesive tape 7 and extend to the end part of the shaping metal wire 5, the fixing slot 6 is arranged at the tail end, the tail end of the branch-shaped fork is clamped with the fixing slot 6 and wound through the waterproof adhesive tape 7, the connection between the branch-shaped fork and the simulation wicker 3 is ensured through the strength after clamping, the winding and reinforcing connection of the waterproof adhesive tape 7 are utilized, and meanwhile, the safety risks such as short circuit and the like caused by water vapor mistakenly entering due to improper operation in the string are protected.

Example two:

as shown in fig. 8, as an alternative scheme, the basic structure is the same as the first embodiment, wherein the difference is that the shaping metal wire 5 adopts a multi-section design with a large top and a small bottom, and the shaping metal wire 5 passes through the opening and is connected with the branch-shaped fork 2 through a buckle, and by adopting the multi-section metal wire design, on the premise of not losing the stability of use, the shaping metal wire 5 can swing to a certain extent due to the direction of wind when in use, so that the simulation degree is improved, and the fixing clamping groove 6 of the shaping metal wire 5 is connected with the branch-shaped fork and is wound with the waterproof adhesive tape 7, so that when the shaping metal wire 5 with a large top and a small bottom is used, the shaping metal wire 5 is ensured not to be pulled away due to the factor of external force, the product stability and the user experience are improved

The specific embodiments described herein are merely illustrative of the spirit of the utility model. Various modifications or additions may be made to the described embodiments or alternatives may be employed by those skilled in the art without departing from the spirit or ambit of the utility model as defined in the appended claims.

Although 1, the base is used more herein; 2. branch-shaped branching; 3. simulating wicker; 4. an LED light string; 5. shaping the metal wire; 6. fixing the clamping groove; 7. waterproof tape, etc., but does not exclude the possibility of using other terms. These terms are used merely to more conveniently describe and explain the nature of the present invention; they are to be construed as being without limitation to any additional limitations that may be imposed by the spirit of the present invention.

Claims (8)

1. A strengthened simulation wicker lamp comprises a base (1), a branch-shaped fork (2) connected to the base (1) and simulation wickers (3) connected to the branch-shaped fork (2), wherein LED lamp strings (4) penetrating through the base (1) and the branch-shaped fork (2) are arranged on the simulation wickers (3), the strengthened simulation wicker lamp is characterized in that a shaping metal wire (5) capable of changing the shape of the simulation wickers (3) and shaping the simulation wickers is arranged in the simulation wickers (3), the simulation wickers outside the shaping metal wire (5) are integrally formed by injection molding, and the LED lamp strings (4) are wound on the simulation wickers (3) and supported by the shaping metal wire (5).

2. The enhanced simulated wicker-like lamp according to claim 1, wherein the diameter of the shaped metal wire (5) and the simulated wickers (3) is 1: 2-4, and the shaped metal wire (5) can be folded into a predetermined shape under the diameter ratio.

3. An enhanced simulated wicker-like lamp according to claim 1 or 2, wherein the surface roughness of the shaped wires (5) is greater than or equal to 0.8 μm and forms wires of equal diameter or from thick to thin.

4. The enhanced artificial wicker-like lamp as claimed in claim 1, wherein the base (1) and the branch-shaped fork (2) are fixedly connected by wrapping one end of the artificial wicker (3) with a waterproof adhesive tape (7).

5. An enhanced simulated wicker-like lamp as claimed in claim 2, wherein said shaped wires (5) are made through the whole simulated wicker (3) or in multiple sections (5).

6. The enhanced simulation wicker-like lamp according to claim 1 or 4, wherein one end of the simulation wicker (3) is provided with a fixing slot (6), the wall of the fixing slot is provided with an opening and a buckle, the simulation wicker (3) is directly connected with the branch-shaped branches (2) through the buckle or the shaping metal wire (5) passes through the opening and is connected with the branch-shaped branches (2) through the buckle, and the branch-shaped branches (2) and the buckle are wound by a waterproof adhesive tape (7) and extend to the end parts of the shaping metal wire.

7. The strengthened simulated wicker-like lamp according to claim 6, wherein the shaped metal wires (5) are made of metal material selected from iron, aluminum, copper or titanium.

8. The strengthened artificial wicker-like lamp according to claim 1, wherein the artificial wickers (3) are made of flexible materials such as plastic, PVC or rubber.

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