CN218209171U - Magic ball lamp and lamp shoes - Google Patents

Abstract

The utility model relates to a shoes lamp technical field, in particular to magic ball lamp and lamp shoes, including the display module, the display module includes first PCB board and optical lens cover, the shape of optical lens cover is hemispherical, the inboard sphere of optical lens cover is equipped with along a plurality of prism of inboard sphere distribution, the outside sphere of optical lens cover is the smooth surface, first PCB board is close to and is equipped with the LED lamp on the open-ended side of optical lens cover, a little prism face is made on the inboard surface of optical lens cover, this little prism face forms an individual independent small lens with the smooth surface on outside surface, when the light of LED lamp passes through every little lens body, light will change, corresponding light beam becomes many spotlight beam by parallel light beam before, will form different light shadow effects when this light beam with different angles and distance project on the plane.

Description

Magic ball lamp and lamp shoes

Technical Field

The utility model relates to a shoes lamp technical field, in particular to magic ball lamp and lamp shoes.

Background

Although the existing shoe lamp can project light and shadow with various styles and colors, the light and shadow effect is single.

SUMMERY OF THE UTILITY MODEL

In order to overcome the defects of the prior art, the utility model aims to solve the technical problems that: provided are a magic ball lamp and a pair of lamp shoes, which can form different light and shadow effects.

In order to solve the technical problem, the utility model discloses a first technical scheme be:

the utility model provides a magic ball lamp, includes display module, display module includes first PCB board and optical lens cover, the shape of optical lens cover is hemispherical, the inside cavity of optical lens cover and the plane of optical lens cover inwards cave in and form the opening, first PCB board lid is established at the opening part of optical lens cover and is sealed the opening, the inboard sphere of optical lens cover is equipped with a plurality of prism along inboard sphere distribution, the outside sphere of optical lens cover is the smooth surface, be equipped with the LED lamp on the open-ended side that first PCB board is close to the optical lens cover.

Further, the display assembly further comprises a connection ring which is positioned between the optical lens cover and the first PCB and is connected between the optical lens cover and the first PCB through the connection ring.

Further, still include the control box, the control box includes shell, control chip, vibration switch, power supply battery and second PCB board all are located the shell inner chamber, control chip installs on the second PCB board, the second PCB board is connected with control chip, vibration switch, power supply battery and first PCB board electricity respectively.

Further, still include the switch spare, the switch spare includes third PCB board, arc metal dome and waterproof gum cover, arc metal dome installs on the third PCB board and is connected with third PCB board electricity, waterproof gum cover parcel is outside at third PCB board and arc metal dome.

In order to solve the technical problem, the utility model discloses a second kind technical scheme be:

a pair of lamp shoes comprises shoe bodies and the magic ball lamp, wherein the magic ball lamp is arranged on the shoe bodies.

The beneficial effects of the utility model reside in that:

through setting up first PCB board and optical lens cover, the shape of optical lens cover is hemispherical, the inboard sphere of optical lens cover is equipped with a plurality of prism along inboard sphere distribution, the outside sphere of optical lens cover is the smooth surface, be equipped with the LED lamp on the open-ended side that first PCB board is close to optical lens cover, a little prism face is made on optical lens cover's the inboard surface, this little prism face forms an independent little lens with the smooth surface of outside sphere, when the light of LED lamp passes through every little lens body, light will change, corresponding light beam is become many spotlight beam by preceding parallel light beam, will form different light shadow effect when this light beam projects on the plane with different angles and distance.

Drawings

Fig. 1 is a schematic structural view of a display module of a magic ball lamp according to the present invention;

fig. 2 is a schematic structural view of an optical lens cover of a magic ball lamp according to the present invention;

fig. 3 is a schematic structural view of a display assembly of a magic ball lamp according to the present invention;

fig. 4 is a schematic structural view of a magic ball lamp according to the present invention;

fig. 5 is a schematic view of a pair of shoes according to the present invention;

description of the reference symbols:

1. a display component; 101. a first PCB board; 1011. a limiting block; 1012. buckling position holes; 1013. a pad; 1014. an LED lamp; 102. an optical lens cover; 1021. a prism; 1022. a connecting edge; 2. a connecting ring; 201. combining edges; 202. a limiting groove; 203. a fastener; 3. a control box; 301. a housing; 302. a control chip; 303. a vibration switch; 304. a power supply battery; 305. a second PCB board; 4. a switch member; 401. a third PCB board; 402. arc-shaped metal dome sheets; 403. a waterproof rubber sleeve; 5. an electron beam; 6. a shoe; 7. and (5) fan-shaped light shadow.

Detailed Description

In order to explain the technical content, the objects and the effects of the present invention in detail, the following description is made with reference to the accompanying drawings in combination with the embodiments.

Referring to fig. 1, the technical solution provided by the present invention is:

the utility model provides a magic ball lamp, includes display module, display module includes first PCB board and optical lens cover, the shape of optical lens cover is hemispherical, the inside cavity of optical lens cover and the plane of optical lens cover inwards cave in and form the opening, first PCB board lid is established at the opening part of optical lens cover and is sealed the opening, the inboard sphere of optical lens cover is equipped with a plurality of prism along inboard sphere distribution, the outside sphere of optical lens cover is the smooth surface, be equipped with the LED lamp on the open-ended side that first PCB board is close to the optical lens cover.

From the above description, the beneficial effects of the utility model reside in that:

through setting up first PCB board and optical lens cover, the shape of optical lens cover is hemispherical, the inboard sphere of optical lens cover is equipped with a plurality of prism along inboard sphere distribution, the outside sphere of optical lens cover is the smooth surface, be equipped with the LED lamp on the open-ended side that first PCB board is close to optical lens cover, a little prism face is made on optical lens cover's the inboard surface, this little prism face forms an independent little lens with the smooth surface of outside sphere, when the light of LED lamp passes through every little lens body, light will change, corresponding light beam is become many spotlight beam by preceding parallel light beam, will form different light shadow effect when this light beam projects on the plane with different angles and distance.

Further, the display assembly further comprises a connection ring which is positioned between the optical lens cover and the first PCB and is connected between the optical lens cover and the first PCB through the connection ring.

Further, the control box comprises a shell, a control chip, a vibration switch, a power supply battery and a second PCB, wherein the control chip, the vibration switch, the power supply battery and the second PCB are all located in an inner cavity of the shell, the control chip is installed on the second PCB, and the second PCB is respectively and electrically connected with the control chip, the vibration switch, the power supply battery and the first PCB.

Further, still include the switch spare, the switch spare includes third PCB board, arc metal dome and waterproof gum cover, arc metal dome installs on the third PCB board and is connected with third PCB board electricity, waterproof gum cover parcel is outside at third PCB board and arc metal dome.

Referring to fig. 1 to 4, a first embodiment of the present invention is:

referring to fig. 1 and 2, a magic ball lamp includes a display assembly 1, the display assembly 1 includes a first PCB 101 and an optical lens cover 102, the optical lens cover 102 is hemispherical, the optical lens cover 102 is hollow, a plane of the optical lens cover 102 is recessed inwards to form an opening, the first PCB 101 covers the opening of the optical lens cover 102 and closes the opening, a plurality of prisms 1021 distributed along the inner spherical surface are arranged on the inner spherical surface of the optical lens cover 102, the outer spherical surface of the optical lens cover 102 is a smooth surface, and an LED lamp 1014 is arranged on a side surface of the first PCB 101 close to the opening of the optical lens cover 102. The optical lens cover 102 is made of transparent PMMA material, and a light source generated by the LED lamp 1014 forms an aperture after passing through each small prism 1021, and at this time, if the aperture is projected onto a plane through different angles, different light and shadow pattern effects are formed.

The LED lamp 1014 is a patch LED lamp 1014. A bonding pad 1013 is electrically connected to a side of the first PCB 101 away from the optical lens cover 102.

Referring to fig. 1 and 3, the display assembly 1 further includes a connection ring 2, the connection ring 2 is located between the optical lens cover 102 and the first PCB 101, and the optical lens cover 102 and the first PCB 101 are connected through the connection ring 2.

Referring to fig. 1 and 2, a connection edge 1022 is connected to a plane of the optical lens cover 102, the connection edge 1022 is tightly fitted with the combined edge 201 of the connection ring 2, the edge of the first PCB 101 extends outward to form a plurality of limit blocks 1011, the connection ring 2 is provided with a plurality of limit grooves 202 fitted with the limit blocks 1011, and the optical lens cover can pass through the fastening holes 1012 on the first PCB 101 by the fasteners 203 and be fastened and pressed in place to form an optical function component.

Referring to fig. 4, the portable electronic device further includes a control box 3, the control box 3 includes a housing 301, a control chip 302, a vibration switch 303, a power supply battery 304 and a second PCB 305, the control chip 302, the vibration switch 303, the power supply battery 304 and the second PCB 305 are all located in an inner cavity of the housing 301 and encapsulated with resin glue to perform functions of water resistance and external impact, the control chip 302 is mounted on the second PCB 305, and the second PCB 305 is electrically connected to the control chip 302, the vibration switch 303, the power supply battery 304 and the first PCB 101, respectively.

Referring to fig. 4, the switch member 4 further includes a third PCB 401, an arc-shaped dome 402 and a waterproof rubber sleeve 403, the arc-shaped dome 402 is installed at the center of the third PCB 401 and electrically connected to the third PCB 401, and the waterproof rubber sleeve 403 is wrapped outside the third PCB 401 and the arc-shaped dome 402. The waterproof rubber sleeve 403 is a transparent PET sleeve sheath and is formed by thermal molding.

The control box 3 is connected with the display component 1 and the switch component 4 by an electronic wire 5 and is electrically conducted.

The working principle of the magic ball lamp is as follows:

when the device is vibrated, the vibration switch 303 triggers the control chip 302 and drives the LED lamp 1014 to work in an internal preset flashing mode, and the shoe lamp switch 4 is a power supply control main switch. (this part is similar to the working principle of a common shoe lamp, so a brief description is given)

When the LED lamp 1014 emits light during operation, the emitted light passes through the optical lens cover 102, and since the optical lens cover 102 is a semi-spherical body, a small prism 1021 is formed on the inner side wall by special process design, and the small prism 1021 and the outer semi-spherical surface form independent small lenses. Therefore, when the light of the LED lamp 1014 passes through each of the small lens bodies, the light is changed, and the corresponding light beam is changed from the former parallel light beam to a plurality of condensed light beams, which form different light shadow effects when projected onto a plane at different angles and distances.

Since the LED lamps 1014 are multi-colored (different colors formed by different combinations of three primary colors of red, green, and blue) and distributed on the first PCB 101 at a certain angle, the LED lamps 1014 can emit light in different flashing modes and time sequences by the control chip 302. The projected light and shadow can show different colors and different dynamic feelings.

Referring to fig. 5, a second embodiment of the present invention is:

a pair of lamp shoes comprises a shoe body and the magic ball lamp, wherein the magic ball lamp is arranged on the shoe body.

The magic ball lamp is applied to the outer side of the shoe body 6. As shown in fig. 5, the control box 3 is installed at the heel of the outsole of the shoe body 6, the display component 1 is installed at the outer side of the shoe body 6, and at this time, since the optical lens cover 102 is perpendicular to the ground, when the display component 1 works by emitting light, the light shadow projected on the ground is a dynamic fan-shaped light shadow 7, and the light shadow is an ellipse, and gradually increases from inside to outside.

At this time, if the LED lamp 1014 emits light according to different brightness and time sequence, the ground can achieve the effect of a dynamic shadow of a peacock spreading its tail, and the shadow light effect of a shoe lamp which is shockless than that of a shoe lamp is provided for people.

To sum up, the utility model provides a pair of magic ball lamp and lamp shoes, through setting up first PCB board and optical lens cover, the shape of optical lens cover is hemispherical, the inboard sphere of optical lens cover is equipped with along a plurality of prism of inboard sphere distribution, the outside sphere of optical lens cover is the smooth surface, first PCB board is close to and is equipped with the LED lamp on the open-ended side of optical lens cover, a little prism face is made to the inboard surface of optical lens cover, this little prism face forms independent little lens with the smooth surface of outside sphere one by one, when the light of LED lamp passes through every little lens body, light will change, corresponding light beam becomes spotlight beam by preceding parallel beam, will form different light shadow effects when this light beam projects on the plane with different angles and distance.

The above mentioned is only the embodiment of the present invention, and not the limitation of the patent scope of the present invention, all the equivalent transformations made by the contents of the specification and the drawings, or the direct or indirect application in the related technical field, are included in the patent protection scope of the present invention.

Claims (5)

1. The utility model provides a magic ball lamp, its characterized in that, includes display module, display module includes first PCB board and optical lens cover, optical lens cover's shape is hemispherical, the inside cavity of optical lens cover and the plane of optical lens cover inwards cave in and form the opening, first PCB board lid is established at optical lens cover's opening part and is sealed the opening, optical lens cover's inboard sphere is equipped with a plurality of prism along inboard sphere distribution, optical lens cover's outside sphere is the smooth surface, be equipped with the LED lamp on the open-ended side that first PCB board is close to optical lens cover.

2. A magic ball lamp as claimed in claim 1, wherein the display assembly further comprises an attachment ring between the optical lens cover and the first PCB and connected thereto by the attachment ring.

3. The magic ball lamp of claim 1, further comprising a control box, wherein the control box comprises a shell, a control chip, a vibration switch, a power supply battery and a second PCB, the control chip, the vibration switch, the power supply battery and the second PCB are all located in an inner cavity of the shell, the control chip is installed on the second PCB, and the second PCB is respectively and electrically connected with the control chip, the vibration switch, the power supply battery and the first PCB.

4. A magic ball lamp as claimed in claim 3, further comprising a switch member, the switch member comprising a third PCB, an arc-shaped dome and a waterproof rubber sleeve, the arc-shaped dome is mounted on the third PCB and electrically connected with the third PCB, and the waterproof rubber sleeve is wrapped outside the third PCB and the arc-shaped dome.

5. A pair of shoes with lamps, which is characterized by comprising a shoe body and the magic ball lamp as claimed in any one of claims 1 to 4, wherein the magic ball lamp is arranged on the shoe body.

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