CN211399574U - Ultra-thin response LED ceramic tile lamp, ceramic tile lamp system - Google Patents

Abstract

The utility model provides an ultra-thin response LED ceramic tile lamp, ceramic tile lamp system, the ceramic tile lamp includes: a panel for transmitting light; the bottom surface and the side surface of the shell are sealed to form an accommodating space, the top surface is provided with an opening, the panel is fixedly connected to the top surface of the shell, and one end, facing the panel, of the shell is concavely provided with an avoiding groove; the light source is arranged between the panel and the light reflecting plate, the substrate is basically arranged between the light reflecting plate and the bottom surface of the shell, the sensor and the circuit board are arranged on the substrate, and the sensor and the circuit board are connected with an external power supply through leads. The floor tile lamp system comprises a power supply and a sound box. When the pedestrian passes through the floor tile lamp, light and sound are emitted under the action of the pressure of the pedestrian; a plurality of response LED ceramic tile lamp electricity are connected and are formed ceramic tile lamp module group, make the road surface have certain light dynamic effect, when changing bad LED ceramic tile lamp, only take out bad, directly change a LED ceramic tile lamp module can, the maintenance is simple and convenient.

Description

Ultra-thin response LED ceramic tile lamp, ceramic tile lamp system

Technical Field

The utility model relates to a lighting device especially relates to an ultra-thin response LED ceramic tile lamp.

Background

The induction floor tile lamp is used for decorating floors, sidewalks or gardens, the surface of a mixture of resin and sand is suitable for long-term use of buildings, the whole floor tile lamp is completely sealed, dustproof and waterproof, does not need to be replaced normally, does not need special maintenance, is powered by low voltage, is low in power consumption, is safe and reliable, and can provide indoor and outdoor space with a starlight flashing night when products are arrayed into a rectangle in order. At present, in places such as pedestrian streets, busy and crowded streets, entertainment places and the like, the floor tile lamp adopts the technical scheme of installing the lamp under glass to decorate the night of a city and decorate scenes. Many places often do not consider the overall arrangement of ceramic tile lamp at first when planning the design, all directly increase the ceramic tile lamp on original place, and current ceramic tile lamp thickness is great, as shown in figure 1, the LED lamp is installed in the casing bottom, because the lamp is luminous in the bottom, need the headspace, all be at the thickness about 60mm basically, can not be fine suitable for to partial place, and the ceramic tile lamp that thickness is big, influence holistic pleasing to the eye, collude the foot easily on the level land, consequently in the design demand, thinner ceramic tile lamp it can match more places in actual application. On the other hand, the floor tile lamps have different material strength or transmittance, different assembly modes and a large improvement space in design, so that a new floor tile lamp structure needs to be developed to overcome the defects of the existing floor tile lamps.

SUMMERY OF THE UTILITY MODEL

The embodiment of the utility model provides an aim at providing an ultra-thin response LED ceramic tile lamp, the technical problem of current ceramic tile lamp on structural design can be solved to the ceramic tile lamp.

The embodiment of the utility model provides an adopt following technical scheme:

an ultra-thin induction LED floor tile lamp comprising:

a panel for transmitting light;

the bottom surface and the side surface of the shell are sealed to form an accommodating space, the top surface is provided with an opening, the panel is fixedly connected to the top surface of the shell, and one end of the shell, facing the panel, is concavely provided with an avoiding groove for clamping the panel and does not fall into the shell; and

the light-emitting source is arranged between the panel and the light-reflecting plate and is an LED lamp; and

the base plate is basically positioned between the reflector and the bottom surface of the shell, a sensor and a circuit board are arranged on the base plate, the sensor and the circuit board are connected with an external power supply through leads, and the sensor is a pressure sensor; and

a light guide plate is arranged between the panel and the reflector.

Furthermore, a counting sensor is arranged on the substrate.

Furthermore, the areas and the circumferences of the substrate, the reflector and the light guide plate are the same as those of the inner side of the bottom of the shell; the perimeter and the area of the panel are the same as those of the outside of the bottom of the shell.

Furthermore, a first groove is formed in the geometric center of the substrate and used for placing a pressure sensor; one side of the substrate is provided with an opening for passing through a lead; and a second groove is arranged between the opening and the first groove and used for placing the circuit board.

Further, the housing is a stainless steel housing, the LED lamps are annularly distributed on the side edge of the light guide plate to form an LED lamp band, the LED lamp band is connected with the circuit board, and the LED lamp band utilizes the stainless steel housing to dissipate heat; and one side of the stainless steel shell is provided with an opening, and the opening corresponds to the opening of the substrate and is used for passing through a lead.

Furthermore, the panel material is toughened glass, and the appearance is a transparent glass plate or frosted glass.

Further, the overall height of the induction LED floor tile lamp is less than or equal to 16 mm.

Furthermore, the stainless steel shell is bent and welded, and the waterproof grade is IP 67.

The utility model also provides an ultra-thin response LED ceramic tile lamp system, include:

the plurality of ultrathin induction LED floor tile lamps are connected together and electrically connected; the device also comprises a power supply module and a control module; the power supply module supplies power for a low-voltage power supply connected to commercial power or a storage battery, and is electrically connected with the conducting wire on the substrate; the control module is arranged in any floor tile lamp and is provided with an audio decoder.

And the sound equipment is used for ringing through a signal output by the audio decoder.

Further, the system also comprises a control module and a signal module.

The utility model provides an ultra-thin response LED ceramic tile lamp, its thickness is within 16mm, compares with current 60 mm's thickness, changes the luminous structure of bottom into the luminous structure of side, greatly reduced the thickness of product, and new structural design has very big advantage, uses more extensively, can directly install this ceramic tile lamp on current market or flat base, and the influence to the road surface is extremely low; meanwhile, when the pedestrian passes through the floor tile lamp, the LED floor tile lamp system emits light and sound under the action of human pressure, and generates movement melody when being stepped by feet; a plurality of response LED ceramic tile lamp electricity is connected and is formed ceramic tile lamp module, makes the road surface have certain light dynamic effect for example simulate the piano button, decorates the scene, beautifies night, makes the city night scene more beautiful, when changing bad LED ceramic tile lamp, only takes out bad, directly change a LED ceramic tile lamp module can, the maintenance is simple and convenient.

Drawings

One or more embodiments are illustrated by way of example in the accompanying drawings, which correspond to the figures in which like reference numerals refer to similar elements and which are not to scale unless otherwise specified.

FIG. 1 is a schematic diagram of an internal structure of a conventional LED floor tile lamp;

fig. 2 is a schematic structural diagram of an ultra-thin induction LED floor tile lamp according to an embodiment of the present invention;

fig. 3 is a schematic diagram of the ultra-thin induction LED floor tile lamp system of the present invention;

wherein 1 is toughened glass, 2 is the LED lamp, 3 is the reflector panel, 4 is the base plate, 5 is the stainless steel shell, 51 is the trompil, 6 is pressure sensor, 7 is the wire, 71 is the trompil, 8 is the circuit board, 81 is the second recess, 9 is the light guide plate.

Detailed Description

In order to facilitate understanding of the present invention, the present invention will be described in more detail with reference to the accompanying drawings and specific embodiments. It will be understood that when an element is referred to as being "secured to" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may be present. The terms "upper", "lower", "inner", "outer", "vertical", "horizontal", and the like as used herein are used in the description to indicate orientations and positional relationships based on the orientations and positional relationships shown in the drawings, and are used only for convenience in describing the present invention and for simplicity in description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and the like are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used in the description of the invention herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. As used herein, the term "and/or" includes any and all combinations of one or more of the associated listed items.

Furthermore, the technical features mentioned in the different embodiments of the invention described below can be combined with each other as long as they do not conflict with each other.

Referring to fig. 2, an embodiment of the present invention provides an ultra-thin inductive LED floor tile lamp, including:

a panel for transmitting light; still be equipped with the light guide plate between panel and the reflector panel, the panel material is toughened glass 1 panel, in the selection of outward appearance, selects for use different transparency material as required, can select for non-light tight glass board or ground glass, can print corresponding pattern in toughened glass inner face simultaneously.

The shell is a stainless steel shell 5, the bottom surface and the side surface of the shell are sealed to form an accommodating space, the top surface is provided with an opening, the panel is fixedly connected to the top surface of the shell, and one end, facing the panel, of the shell is concavely provided with an avoiding groove for clamping the panel and preventing the panel from falling into the shell; the light-emitting diode light source is characterized by further comprising a reflector 3, wherein a light-emitting source is arranged between the toughened glass 1 and the reflector 3, and the light-emitting source is an LED lamp 2; the reflector panel is used for the light filling, can select the reflector panel of different grade type such as white, silver-colored, gold, increases the effect that LED lamp 2 shines. The LED lamps 2 are annularly arranged on the edge of the light guide plate 9 to form an LED lamp band, the LED lamp band is connected with the circuit board, a driving circuit for the LED lamps to emit light is arranged on the circuit board, and the LED lamp band utilizes the stainless steel shell to radiate heat; one side of the stainless steel shell 5 is provided with an opening 51, the opening 51 corresponds to an opening 71 of the substrate and is used for passing through the lead 7, the specification of the openings is the same, 1-2 openings can be arranged, and when 2 openings are arranged, the openings are used for leading out the anode and the cathode of the LED lamp. Preferably, the height of response LED ceramic tile lamp is 16mm, and the shape of this embodiment is the rectangle shape, and the width can be 500mm, and length is not restricted, and the display effect is best when the width is no more than 500mm, can customize the shape size ceramic tile lamp that the length is different wide as required.

The base plate is basically positioned between the reflector 3 and the bottom surface of the stainless steel shell 5, a sensor and a circuit board 8 are arranged on the base plate, the sensor and the circuit board 8 are connected with an external power supply through a lead 7, and the sensor is a pressure sensor 6.

In addition, optionally, a counting sensor is further arranged on the substrate according to actual needs, the counting sensor is used for counting the number of times that the tile lamp is stepped on, when the LED lamp is awakened once, counting is performed once, and during actual use, the counting sensor is arranged at a crossing of a scenic spot or a walking street, so that the size of the pedestrian volume in a small range of the region can be counted.

The areas and the circumferences of the substrate 4, the reflector 3 and the light guide plate 9 are the same as those of the inner side of the bottom of the shell; the perimeter and the area of the panel are the same as those of the outside of the bottom of the shell.

A first groove is formed in the geometric center of the substrate and used for placing a pressure sensor 6; if the pressure sensor is thinner, the first groove is not needed, and the pressure sensor can be directly placed in the middle; a substrate opening 71 is formed at one side of the substrate for passing the lead 7; a second recess 81 is provided between the substrate opening 71 and the first recess (not shown), the second recess 81 being for receiving the circuit board 8.

The stainless steel shell 5 of this embodiment is for bending the welding, and waterproof grade is IP67, and whole ceramic tile lamp is waterproof, also avoids the entering of mosquito and dust simultaneously, can adapt to outdoor adverse circumstances.

As shown in fig. 3, the utility model discloses still provide an response LED ceramic tile lamp system, include:

the 14 ultrathin induction LED floor tile lamps are connected together, a plurality of ultrathin induction LED floor tile lamps are electrically connected, the LED floor tile lamp further comprises a power supply module, the power supply module supplies power for a low-voltage power supply connected to 220V mains supply or a storage battery, and the power supply module is electrically connected with a lead on the substrate; when a secondary battery is selected, a lithium battery is preferably selected.

Preferably, the floor tile lamp system is provided with a control module, the control module controls the circuit board of each floor tile lamp to display content in a unified manner, control over the floor tile lamp system is achieved, integration of the floor tile lamp system is effectively improved, in the embodiment, the control module is arranged in one floor tile lamp, the control module comprises an audio decoder, an audio signal is output to the sound box through an audio line, and the sound box sounds through a signal output by the audio decoder.

Preferably, set up signal module at this ground tile lamp system, signal module can contain bluetooth, wiFi, data traffic transmission etc. for carry out external mutual transmission to the sound data of statistics or broadcast, or develop corresponding APP, control or read data on APP.

The LED lamp of different ultra-thin response ceramic tile lamps can set up different colours, or different sound, and the manual work can alternate arrangement and the quantity of LED lamp pearl simply and swiftly, arranges various patterns with LED lamp pearl to make ceramic tile LED lamp can demonstrate the light of different shapes, do not need complicated dismantlement process, can customize according to actual need to the shape of ceramic tile lamp simultaneously, for example arrange into the pattern of piano, arrange ladder mode, the response ceramic tile lamp on level land on stair etc..

The utility model discloses a ceramic tile lamp thickness compares with current 60 mm's thickness within 16mm, changes the luminous structure of side into with the luminous structure in bottom, greatly reduced the thickness of product, and new structural design has very big advantage, can directly be on current market or flat basis this ceramic tile lamp of direct mount, and is extremely low to the influence on road surface. The existing floor tile lamp is large in thickness, needs to be provided with a corresponding transition component or a decorative slope to be connected with the ground, and is not attractive visually. The floor tile lamp can be used for brightening the ground of a square, and when pedestrians pass through the floor tile lamp, the floor tile lamp emits light and sound under the action of human pressure; a plurality of response LED ceramic tile lamp electricity are connected and are formed ceramic tile lamp module, make the road surface have certain light dynamic effect, decorate the scene, beautify night, make the night scene of city more beautiful. Under certain circumstances, the floor tile lamp can be used for counting the flow of people and reflecting the popularity in the range. When changing bad LED ceramic tile lamp, only take out bad, directly change a LED ceramic tile lamp module concatenation can, the maintenance is simple and convenient.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention, and not to limit it; within the idea of the invention, also technical features in the above embodiments or in different embodiments can be combined, steps can be implemented in any order, and there are many other variations of the different aspects of the invention as described above, which are not provided in detail for the sake of brevity; although the present invention has been described in detail with reference to the foregoing embodiments, it should be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; such modifications and substitutions do not depart from the spirit and scope of the present invention.

Claims (10)

1. An ultra-thin response LED ceramic tile lamp which characterized in that includes:

a panel for transmitting light;

the bottom surface and the side surface of the shell are sealed to form an accommodating space, the top surface is provided with an opening, the panel is fixedly connected to the top surface of the shell, and one end of the shell, facing the panel, is concavely provided with an avoiding groove for clamping the panel and does not fall into the shell; and

the light-emitting source is arranged between the panel and the light-reflecting plate and is an LED lamp; and

the substrate is positioned between the reflector and the bottom surface of the shell, a sensor and a circuit board are arranged on the substrate, the sensor and the circuit board are connected with an external power supply through a lead, and the sensor is a pressure sensor; and

a light guide plate is arranged between the panel and the reflector.

2. The ultra-thin induction LED floor tile lamp of claim 1, wherein the substrate is further provided with a counting sensor.

3. The ultra-thin induction LED floor tile lamp of claim 1, wherein the substrate, the reflector, the light guide plate have the same area and circumference as the inside of the bottom of the housing; the perimeter and the area of the panel are the same as those of the outside of the bottom of the shell.

4. The ultra-thin induction LED floor tile lamp of claim 1, wherein the geometric center of the substrate is provided with a first groove for placing the pressure sensor; one side of the substrate is provided with an opening for passing through a lead; and a second groove is arranged between the opening and the first groove and used for placing the circuit board.

5. The ultra-thin induction LED floor tile lamp of claim 1, wherein the housing is a stainless steel housing, the LED lamp is annularly arranged on the side edge of the light guide plate to form an LED strip, the LED strip is connected with the circuit board, and the LED strip radiates heat by using the stainless steel housing; and one side of the stainless steel shell is provided with an opening, and the opening corresponds to the opening of the substrate and is used for passing through a lead.

6. The ultra-thin induction LED floor tile lamp of claim 1, wherein the panel material is tempered glass and is a transparent glass plate or frosted glass in appearance.

7. The ultra-thin induction LED floor tile lamp of claim 1, wherein the overall height of the ultra-thin induction LED floor tile lamp is less than or equal to 16 mm.

8. The ultra-thin induction LED floor tile lamp of claim 5, wherein the stainless steel housing is a bend weld with a waterproof rating of IP 67.

9. An ultra-thin induction LED floor tile light system, comprising:

a plurality of the ultra-thin induction LED floor tile lamps of claim 1, which are connected together, and a plurality of the ultra-thin induction LED floor tile lamps are electrically connected; the device also comprises a power supply module and a control module; the power supply module supplies power for a low-voltage power supply connected to commercial power or a storage battery, and is electrically connected with the conducting wire on the substrate; the control module is arranged in any floor tile lamp and is provided with an audio decoder.

10. The ultra-thin induction LED floor tile light system of claim 9, further comprising a sound sounder that sounds through a signal output by an audio decoder.

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