CN217584316U - Three-dimensional star lamp shell - Google Patents

Abstract

The utility model discloses a three-dimensional star lamp body, include: the first half shell is in a star shape, and a plurality of first gaps are formed in the first half shell along the circumferential direction; the second half shell is star-shaped, is arranged on the first half shell and is matched with the first half shell in shape so as to form a plurality of first conical bulges, and a plurality of second gaps are formed in the circumferential direction of the second half shell; the plurality of second conical bulges are arranged in one-to-one correspondence with the first notches, and the second conical bulges and the first conical bulges are arranged in a staggered manner; and the plurality of third conical bulges are arranged in one-to-one correspondence with the second notches, and the third conical bulges and the first conical bulges are arranged in a staggered manner. The protruding quantity that the required installation of three-dimensional star was moulded to the direct reduction of a plurality of first toper archs that first half shell and the half shell of second formed, and then reduced the installation procedure of three-dimensional star lamp body, improved assembly efficiency, and second toper arch and third toper arch can be installed before first half shell of installation and the half shell of second or after first half shell of installation and the half shell of second, and installation procedure is more nimble.

Description

Three-dimensional star lamp shell

Technical Field

The utility model relates to an illumination lamps and lanterns technical field, in particular to three-dimensional star lamp body.

Background

In festivals, people use various decorative lamps with different patterns to decorate atmosphere, the three-dimensional star decorative lamp belongs to one of the decorative lamps, and the general three-dimensional star decorative lamp consists of a three-dimensional star-shaped shell and an internal light source. In the related art, the three-dimensional star-shaped housing is composed of a frame in the middle and a plurality of pyramids surrounding the frame, and the frame is provided with mounting openings corresponding to the pyramids one by one. However, during assembly, an assembler needs to mount each pyramid to the mounting opening one by one to finally form the shape of a three-dimensional star, and therefore the mounting process is more and the assembly efficiency is low.

SUMMERY OF THE UTILITY MODEL

The utility model discloses aim at solving one of the technical problem that exists among the prior art at least. For this, the utility model provides a three-dimensional star lamp body, three-dimensional star lamp body is through installing first half shell and second half shell, it is protruding to form a plurality of first toper, reduce mould the protruding quantity that causes the required installation of three-dimensional star with the lamp body, and then reduce the installation procedure of three-dimensional star lamp body, the assembly efficiency is improved, furthermore, the protruding first breach installation through setting up at first half shell of second toper, the protruding second breach installation through setting up at half shell of second of third toper, in the installation, second toper arch and third toper arch can be installed before installing first half shell and second half shell or after installing first half shell and second half shell, the installation procedure is more nimble, second toper arch after the installation, third toper arch is respectively with the protruding staggered arrangement of first toper, finally form the shape of three-dimensional star.

According to the utility model discloses three-dimensional star lamp body, include:

the first half shell is in a star shape, and a plurality of first gaps are formed in the first half shell along the circumferential direction of the first half shell;

the second half shell is in a star shape, is arranged on the first half shell and is matched with the first half shell in shape so as to form a plurality of first conical bulges, and a plurality of second gaps are formed in the second half shell along the circumferential direction of the second half shell;

the second conical bulges are arranged in one-to-one correspondence with the first notches and are staggered with the first conical bulges;

and the third conical bulges are arranged in one-to-one correspondence with the second notches and are staggered with the first conical bulges.

According to the utility model discloses three-dimensional star lamp body has following beneficial effect at least: through installing first half shell and second half shell, form a plurality of first toper archs, reduce and mould the protruding quantity that the required installation of three-dimensional star is made into to the lamp body, and then reduce the installation procedure of three-dimensional star lamp body, the assembly efficiency is improved, furthermore, the protruding first breach installation through setting up at first half shell of second toper, the protruding second breach installation through setting up at the second half shell of third toper, in the installation, protruding and the third toper of second toper can install before first half shell of installation and second half shell or after installing first half shell and second half shell, the installation procedure is more nimble, second toper arch after the installation, third toper arch is protruding with first toper arch staggered arrangement respectively, finally form the shape of three-dimensional star.

According to three-dimensional star lamp body, half first shell with half shell joint of second is fixed.

According to three-dimensional star lamp body, first half shell orientation one side of half shell of second is provided with first arch, half shell orientation of second one side of half shell is provided with first recess, first arch with the cooperation of pegging graft of first recess.

According to three-dimensional star lamp body, first half shell orientation one side of half shell of second is provided with a plurality of locating holes, the locating hole with the protruding one-to-one of first toper is arranged, half shell orientation of second one side of half shell is provided with a plurality of reference columns, the reference column with the locating hole one-to-one and with the cooperation of pegging graft of locating hole.

According to three-dimensional star lamp body, first arch with first recess all has a plurality ofly, first arch first recess with the protruding one-to-one of first toper is arranged.

According to three-dimensional star lamp body, first half shell is provided with a plurality of first joint pieces, half shell of second is provided with a plurality of first joint grooves, first joint piece is located adjacently between the first arch, first joint groove is located between the adjacent first recess, first joint piece with first joint groove joint cooperation.

According to three-dimensional star lamp body, first half shell orientation one side of half shell of second is provided with a plurality of second archs, the second protruding with first breach one-to-one centers on first breach sets up, the second toper arch is provided with second grafting portion, the perisporium of second grafting portion is provided with second joint piece, second grafting portion peg graft in first breach, just second joint piece butt in the second is protruding, in order to fix the second toper is protruding.

According to three-dimensional star lamp body, second toper protruding with third toper arch is the triangular pyramid.

According to three-dimensional star lamp body, it is protruding that first half shell has the fourth toper along axial extension, it is protruding that half shell of second has the fifth toper along axial extension, the fourth toper protruding with the protruding symmetrical arrangement of fifth toper.

According to three-dimensional star lamp body, the protruding departure of fifth toper the threading piece is installed to the bellied one side of fourth toper, the threading piece with the protruding joint of fifth toper is fixed.

Additional aspects and advantages of the invention will be set forth in part in the description which follows and, in part, will be obvious from the description, or may be learned by practice of the invention.

Drawings

The above and/or additional aspects and advantages of the present invention will become apparent and readily appreciated from the following description of the embodiments, taken in conjunction with the accompanying drawings of which:

fig. 1 is an exploded schematic view of a three-dimensional star lamp housing according to an embodiment of the present invention;

fig. 2 is a schematic view of the overall structure of the three-dimensional star lamp housing according to the embodiment of the present invention;

fig. 3 is a schematic structural diagram of a first half shell of the three-dimensional star lamp housing according to the embodiment of the present invention;

FIG. 4 is an enlarged view of A shown in FIG. 3;

fig. 5 is a first structural schematic diagram of a second half shell of the three-dimensional star lamp housing according to the embodiment of the present invention;

fig. 6 is an enlarged view of B shown in fig. 5;

fig. 7 is a second structural schematic diagram of a second half shell of the three-dimensional star light housing according to the embodiment of the present invention;

FIG. 8 is an enlarged view of C shown in FIG. 7;

fig. 9 is a schematic structural view of a second conical protrusion of the stereoscopic star lamp housing according to the embodiment of the present invention.

The reference numbers indicate:

a first half-shell 100; a first notch 110; a first protrusion 120; a positioning hole 130; a first clip block 140; a second projection 150;

the second half-shell 200; a second notch 210; a first recess 220; a positioning post 230; a first clip groove 240; a mounting groove 250;

a first conical projection 300;

a second conical projection 400; a second mating portion 410; a second card block 420;

a third conical projection 500;

a fourth conical projection 600;

a fifth conical projection 700;

a threading block 800; a projection 810 is installed.

Detailed Description

Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the accompanying drawings are exemplary only for explaining the present invention, and should not be construed as limiting the present invention.

In the description of the present invention, it should be understood that the directional descriptions, such as the directions or positional relationships indicated by upper, lower, front, rear, left, right, etc., are based on the directions or positional relationships shown in the drawings, and are only for convenience of description and simplification of the description, but not for indicating or implying that the device or element referred to must have a specific direction, be constructed and operated in a specific direction, and thus should not be construed as limiting the present invention.

In the description of the present invention, a plurality of means are one or more, a plurality of means are two or more, and the terms greater than, less than, exceeding, etc. are understood as not including the number, and the terms greater than, less than, within, etc. are understood as including the number. If the first and second are described for the purpose of distinguishing technical features, they are not to be understood as indicating or implying relative importance or implicitly indicating the number of technical features indicated or implicitly indicating the precedence of the technical features indicated.

In the description of the present invention, unless there is an explicit limitation, the words such as setting, installation, connection, etc. should be understood in a broad sense, and those skilled in the art can reasonably determine the specific meanings of the above words in combination with the specific contents of the technical solution.

As shown in fig. 1 and fig. 2, the stereoscopic star lamp housing according to the embodiment of the present invention includes a first half shell 100, a second half shell 200, a threading block 800, a fourth conical protrusion 600, a fifth conical protrusion 700, a plurality of second conical protrusions 400 and a plurality of third conical protrusions 500, wherein the first half shell 100 and the second half shell 200 are both star-shaped, and the second half shell 200 is mounted on the first half shell 100 and matched with the outer shape of the first half shell 100 to form a plurality of first conical protrusions 300. The first conical protrusion 300, the second conical protrusion 400 and the third conical protrusion 500 are combined together to form a three-dimensional star shape. Specifically, the first half shell 100 is provided with a plurality of first notches 110 along the circumferential direction, the second conical protrusions 400 are installed in one-to-one correspondence with the first notches 110, and after installation, the second conical protrusions 400 and the first conical protrusions 300 are arranged in a staggered manner; the second half shell 200 is provided with a plurality of second notches 210 along the circumferential direction, the third conical protrusions 500 are installed in one-to-one correspondence with the second notches 210, and after installation, the third conical protrusions 500 and the first conical protrusions 300 are arranged in a staggered manner. The first half shell 100 and the second half shell 200 are installed to form a plurality of first conical protrusions 300, the number of the protrusions required to install the solid star formed by the lamp shell is reduced, the installation process of the solid star lamp shell is further reduced, the assembly efficiency is improved, furthermore, the second conical protrusions 400 are installed through the first notches 110 arranged on the first half shell 100, the third conical protrusions 500 are installed through the second notches 210 arranged on the second half shell 200, during installation, the second conical protrusions 400 and the third conical protrusions 500 can be installed before the first half shell 100 and the second half shell 200 are installed or after the first half shell 100 and the second half shell 200 are installed, the installation process is more flexible, the second conical protrusions 400 and the third conical protrusions 500 after installation are respectively arranged in a staggered mode with the first conical protrusions 300, and the shape of the solid star is finally formed.

For example, the assembly sequence of some embodiments is to install the first half-shell 100 and the second half-shell 200, and then install the second conical protrusion 400 and the third conical protrusion 500, which is suitable for an assembler to complete the assembly of the three-dimensional star lamp housing. The assembly sequence of some embodiments is to install the first half-shell 100 and the second conical protrusion 400, install the second half-shell 200 and the third conical protrusion 500, and install the first half-shell 100 and the second half-shell 200 finally, which is suitable for one to three assembly personnel to cooperate to complete the assembly of the solid star lamp shell, and the speed of the whole assembly is faster.

It should be noted that, since the first half shell 100 and the second half shell 200 are both star-shaped and have a plurality of conical protrusions, the arrangement direction of the plurality of conical protrusions is the "circumferential direction", that is, the plurality of conical protrusions are arranged along the circumferential direction. Usually, there are five conical protrusions, and the five conical protrusions are uniformly arranged along the circumferential direction of the first half shell 100 to form a five-pointed star shape.

Optionally, the first half-shell 100 and the second half-shell 200 are clamped and fixed without screws or adhesives, and the assembly is convenient and quick. In some embodiments, referring to fig. 3 to 6, a first protrusion 120 is disposed on one side of the first half-shell 100 facing the second half-shell 200, a first groove 220 is disposed on one side of the second half-shell 200 facing the first half-shell 100, and the first protrusion 120 is in insertion fit with the first groove 220, so that the first half-shell 100 and the second half-shell 200 are not easily deflected in the circumferential direction after being assembled, and the first half-shell 100 and the second half-shell 200 are more stable after being assembled. For example, the first protrusion 120 extends along the circumferential direction of the first half shell 100 and matches the outer shape of the first half shell 100, and correspondingly, the first groove 220 extends along the circumferential direction of the second half shell 200 and matches the outer shape of the second half shell 200. In some embodiments, the first protrusion 120 forms a closed loop and is disposed proximate to an outer edge of the first half-shell 100, and correspondingly, the first recess 220 forms a closed loop and is disposed proximate to an outer edge of the second half-shell 200.

Further, a plurality of positioning holes 130 are formed in one side of the first half shell 100 facing the second half shell 200, the positioning holes 130 are arranged in one-to-one correspondence with the first tapered protrusions 300, a plurality of positioning posts 230 are formed in one side of the second half shell 200 facing the first half shell 100, the positioning posts 230 are in one-to-one correspondence with the positioning holes 130 and are in splicing fit with the positioning holes 130, alignment of the first protrusions 120 and the first grooves 220 is facilitated, and the first protrusions 120 and the first grooves 220 are better spliced. For example, the positioning hole 130 is disposed on the first protrusion 120, the positioning column 230 is disposed on the first groove 220, and the axial length of the positioning column 230 is greater than the depth of the first groove 220, when the first half shell 100 and the second half shell 200 are installed, the positioning column 230 contacts with the positioning hole 130 first, and the first protrusion 120 contacts with the first groove 220 later, so that the positioning column 230 cooperates with the positioning hole 130 to guide the installation of the first protrusion 120 and the first groove 220.

Optionally, the first protrusions 120 and the first grooves 220 are multiple, the first protrusions 120, the first grooves 220 and the first conical protrusions 300 are arranged in a one-to-one correspondence manner, after the first protrusions 120 and the first grooves 220 are inserted, each first conical protrusion 300 formed by the first half shell 100 and the second half shell 200 is firmly installed, and is not easy to shift along the circumferential direction of the first half shell 100 under the action of external force. For example, when the first tapered protrusions 300 formed by the first half shell 100 and the second half shell 200 have five shapes to form a five-pointed star, the first protrusions 120 and the first grooves 220 have five shapes, the five first protrusions 120 are correspondingly arranged at five star corners of the five-pointed star, the first protrusions 120 extend along the side line of the star-shaped cross section, and the first grooves 220 and the first protrusions 120 are correspondingly arranged one by one.

In some embodiments of the present invention, referring to fig. 3, 4, 7, and 8, the first half shell 100 is provided with a plurality of first joint blocks 140, the second half shell 200 is provided with a plurality of first joint grooves 240, the first joint blocks 140 are located between the adjacent first protrusions 120, the first joint grooves 240 are located between the adjacent first grooves 220, and the first joint blocks 140 are in joint fit with the first joint grooves 240. The first half-shell 100 and the second half-shell 200 are more firmly mounted by the cooperation of the plurality of clipping positions of the first half-shell 100 and the second half-shell 200. Optionally, the first half shell 100, the second half shell 200, the second conical protrusion 400, the third conical protrusion 500, the fourth conical protrusion 600, the fifth conical protrusion 700, and the threading block 800 are all made of plastic, and the first clamping block 140 is elastically clamped in the first clamping groove 240.

Referring to fig. 3 and 9 again, in some embodiments of the present invention, one side of the first half shell 100 facing the second half shell 200 is provided with a plurality of second protrusions 150, the second protrusions 150 are in one-to-one correspondence with the first notches 110 and are disposed around the first notches 110, the second tapered protrusion 400 is provided with a second insertion portion 410, a peripheral wall of the second insertion portion 410 is provided with a second clamping block 420, the second insertion portion 410 is inserted into the first notches 110, and the second clamping block 420 abuts against the second protrusion 150 to fix the second tapered protrusion 400. Similar to the installation of the first clamping block 140 and the first clamping groove 240, the second conical protrusion 400 is elastically clamped into the first notch 110, and then the second protrusion 150 abuts against the second clamping block 420, at this time, one end of the second inserting portion 410 abuts against the outer wall of the first half-shell 100, and the other end abuts against the inner wall of the first half-shell 100 through the second clamping block 420, so that the assembly of the second conical protrusion 400 is realized. An assembler only needs to align the position of the first notch 110 and press the second conical protrusion 400, so that the assembly is simple, and the rapid assembly of the second conical protrusion 400 can be realized.

It should be noted that "outer wall" refers to an outer wall surface of the three-dimensional star formed by the first half shell 100 and the second half shell 200, and "inner wall" refers to an inner wall surface of the three-dimensional star formed by the first half shell 100 and the second half shell 200. In addition, when the second tapered protrusion 400 is assembled before the first case half 100 and the second case half 200 are mounted, "outer wall" refers to a face of the first case half 100 and the second case half 200 facing away from each other, and "inner wall" refers to a face of the first case half 100 and the second case half 200 facing each other.

It will be readily appreciated that the third cone shaped protrusion 500 is the same part and interchangeable with the second cone shaped protrusion 400. The fitting structure and the installation manner of the third cone-shaped protrusion 500 and the second half-shell 200 can refer to the fitting structure and the installation manner of the second cone-shaped protrusion 400 and the first half-shell 100, which will not be described in detail herein.

Optionally, referring to fig. 1, the second conical projection 400 and the third conical projection 500 are triangular pyramids, which facilitates the construction of the special-shaped three-dimensional star effect, and avoids the completely regular and symmetrical patterns from bringing regular and serious atmosphere to the user, so that the special-shaped three-dimensional star can be better applied to the pleasant environmental atmosphere, such as placing a light source in a three-dimensional star light housing to be used as a decorative light for christmas day-saving lights. Specifically, the first conical projection 300 is a rectangular pyramid, and the plurality of second conical projections 400 are arranged in a manner of deviating to the middle to form a special-shaped three-dimensional star shape.

In some embodiments of the present invention, referring to fig. 2, the first half shell 100 has the fourth conical projection 600 along the axial extension, the second half shell 200 has the fifth conical projection 700 along the axial extension, the fourth conical projection 600 and the fifth conical projection 700 are symmetrically arranged, the fourth conical projection 600 and the fifth conical projection 700 further construct a three-dimensional star shape, and the three-dimensional space of the three-dimensional star is enhanced. Further, threading piece 800 is installed to one side that fifth toper is protruding 700 and deviates from fourth toper arch 600, makes things convenient for the lamp pearl to install to three-dimensional star lamp body in, for example, the lamp pearl is connected with the power cord, and behind threading piece 800 was worn to locate by the power cord, threading piece 800 is installed to fifth toper arch 700 and is packed the lamp pearl into three-dimensional star lamp body, and at this moment, threading piece 800 can prevent that the lamp pearl from deviating from three-dimensional star lamp body, and for example, when the power cord was held or hung to adorn by the staff, threading piece 800 can block that the lamp pearl falls out three-dimensional star lamp body. Specifically, the threading block 800 is fixed to the fifth conical protrusion 700 in a clamping manner, a mounting groove 250 is formed in one end, away from the fourth conical protrusion 600, of the fifth conical protrusion 700, the threading block 800 is provided with a mounting protrusion 810, and the mounting protrusion 810 is elastically clamped in the mounting groove 250 due to the elasticity of the threading block 800.

The embodiments of the present invention have been described in detail with reference to the drawings, but the present invention is not limited to the above embodiments, and various changes can be made without departing from the spirit of the present invention within the knowledge of those skilled in the art.

Claims (10)

1. Three-dimensional star lamp body characterized in that includes:

the first half shell is in a star shape, and a plurality of first gaps are formed in the first half shell along the circumferential direction of the first half shell;

the second half shell is in a star shape, is arranged on the first half shell and is matched with the first half shell in shape so as to form a plurality of first conical bulges, and a plurality of second gaps are formed in the second half shell along the circumferential direction of the second half shell;

the second conical bulges are arranged in one-to-one correspondence with the first notches and are staggered with the first conical bulges;

and the third conical bulges are arranged in one-to-one correspondence with the second notches and are staggered with the first conical bulges.

2. The solid star lamp housing of claim 1, wherein the first half housing and the second half housing are snap-fit.

3. The solid star lamp housing according to claim 1 or 2, wherein a first protrusion is disposed on one side of the first half housing facing the second half housing, a first groove is disposed on one side of the second half housing facing the first half housing, and the first protrusion is in plug fit with the first groove.

4. The stereoscopic star lamp housing of claim 3, wherein the first half housing is provided with a plurality of positioning holes on one side facing the second half housing, the positioning holes are arranged in one-to-one correspondence with the first tapered protrusions, the second half housing is provided with a plurality of positioning posts on one side facing the first half housing, and the positioning posts are in one-to-one correspondence with the positioning holes and are in inserted fit with the positioning holes.

5. The space star lamp housing according to claim 3, wherein the first protrusions and the first grooves are multiple, and the first protrusions, the first grooves and the first conical protrusions are arranged in a one-to-one correspondence manner.

6. The stereoscopic star lamp shell of claim 5, wherein the first half shell is provided with a plurality of first clamping blocks, the second half shell is provided with a plurality of first clamping grooves, the first clamping blocks are located between the adjacent first protrusions, the first clamping grooves are located between the adjacent first grooves, and the first clamping blocks are in clamping fit with the first clamping grooves.

7. The stereoscopic star lamp shell according to claim 1, wherein a plurality of second protrusions are arranged on one side of the first half shell facing the second half shell, the second protrusions correspond to the first notches one by one and surround the first notches, the second conical protrusions are provided with second insertion parts, second clamping blocks are arranged on the peripheral wall of the second insertion part, the second insertion parts are inserted into the first notches, and the second clamping blocks abut against the second protrusions to fix the second conical protrusions.

8. The stereoscopic star lamp housing of claim 1 or 7, wherein the second conical projection and the third conical projection are triangular pyramids.

9. The space star lamp housing according to claim 1, wherein the first half-shell extends axially with a fourth conical projection, the second half-shell extends axially with a fifth conical projection, and the fourth conical projection and the fifth conical projection are symmetrically arranged.

10. The stereoscopic star lamp housing of claim 9, wherein a threading block is mounted on a side of the fifth conical projection facing away from the fourth conical projection, and the threading block is fixed to the fifth conical projection in a clamping manner.

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