CN212178718U - Novel buried floor tile lamp - Google Patents

Abstract

The utility model discloses a novel bury formula ceramic tile lamp contains casing, the printing opacity body, light source and light source control module, and the printing opacity body inlays to be established slightly salient casing top in the casing and top, and light source control module all set up in the sealed chamber that is enclosed by the printing opacity body and casing, and the mutual electricity of light source and light source control module is connected, are equipped with a plurality of at the top of the protruding casing of printing opacity body and are used for antiskid and astigmatism and slightly bulge the protruding structure of printing opacity body top surface, are equipped with at least one and are used for cushioning absorbing shock-absorbing structure between printing opacity body and the casing in the bottom of printing opacity body embedding casing. The periphery of the embedded part of the shell and the light-transmitting body is encapsulated by waterproof sealant. The utility model has the advantages that: simple structure, convenient and fast installation and disassembly, good waterproof performance, high compressive strength, long service life and convenient maintenance.

Description

Novel buried floor tile lamp

Technical Field

The utility model relates to a ceramic tile lamp, specific saying so relates to a novel bury formula ceramic tile lamp, belongs to road traffic safety facility field

Background

The floor tile lamp is used as a traffic safety facility and is mainly used for being installed on a road. It is as a road traffic safety warning sign, plays the effect of reminding driver and pedestrian traffic safety night. Most floor tile lamps are usually installed on the ground by means of screw fixing or adhesive fixing, and the fixing method on the ground usually has the following disadvantages: (1) the floor tile lamp protrudes out of the ground, which is easy to cause certain trouble for vehicles or pedestrians; (2) the screw is easy to rust, break and loosen, the adhesion is easy to fall off, and the problems of infirm fixation and short service life exist; (3) the structure is complicated, the installation and the disassembly are inconvenient, the waterproof performance is poor, and the compression-resistant damping effect is not good.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a simple structure, ann tear convenient and fast open, waterproof performance is good, resistance to compression shock attenuation effect is good, long service life's novel bury formula ceramic tile lamp for solve the problem that the current ceramic tile lamp of background art exists.

In order to achieve the purpose, the utility model adopts the following technical scheme: a novel buried floor tile lamp comprises a shell, a light transmission body, a light source and a light source control module, wherein the light transmission body is embedded in the shell, the top of the light transmission body also protrudes out of the top H1mm of the shell, the light source and the light source control module are both arranged in a sealed cavity defined by the light transmission body and the shell, the light source and the light source control module are electrically connected with each other, a plurality of protruding structures which are used for skid resistance and light scattering and protrude out of the top surface H2mm of the light transmission body are arranged at the top of the light transmission body protruding out of the shell, and at least one damping structure used for buffering and damping between the light transmission body and the shell is arranged at the bottom of the light transmission body;

wherein, the value range of H1 is 1.5 mm-2.5 mm; h2 has a value range of 4.5-6.5 mm.

In the technical scheme, waterproof sealant is further filled and sealed between the periphery of the embedded part of the shell and the light-transmitting body.

In the technical scheme, a plurality of first access holes are further formed in the shell, a plurality of second access holes are further formed in the light-transmitting body, and each first access hole corresponds to one second access hole; when assembling, each first access hole and one second access hole are connected and fastened together through one access nail.

In the above technical scheme, the light source includes a plurality of LED illuminating parts, and each LED illuminating part comprises a plurality of 5050RGB three-color LED lamp beads, and is correspondingly installed inside a protruding structure.

In the technical scheme, each protruding structure is a protruding strip with a groove, and one surface of each protruding strip with the groove faces to the inside of the light-transmitting body and is communicated with a sealed cavity formed by the light-transmitting body and the shell in a surrounding manner; during assembly, the groove of each convex strip is correspondingly used for installing an LED luminous piece.

In the technical scheme, each damping structure is a layer of 3mm thick rubber damping pad.

In the technical scheme, the shell is a polygonal hollow box structure with an opening at the upper end and a closed lower end, and the light-transmitting body is a polygonal hollow box structure which is matched with the shell and is provided with an opening at the upper end and a closed lower end; wherein, the shell is made of cold-rolled steel plates; the light-transmitting body is made of a light-transmitting polymer composite plastic material.

In the above technical solution, the light source control module includes a circuit board and a storage battery, and the circuit board is electrically connected to the storage battery and the light source respectively;

the circuit board is a PCB (printed circuit board), and the storage battery is a DC24V lead-acid storage battery; the circuit board is also welded with a microprocessor, a photoelectric sensor, an infrared human body induction sensor, a charging circuit and a discharging circuit; the microprocessor is respectively and electrically connected with the photoelectric sensor, the infrared human body induction sensor, the charging circuit and the discharging circuit, the discharging circuit is electrically connected with the light source, and the charging circuit is electrically connected with the storage battery.

In the above technical solution, the light source control module includes a circuit board, and the circuit board is electrically connected to the light source;

the circuit board is a PCB printed circuit board, a microprocessor, a photoelectric sensor and an infrared human body induction sensor are further welded on the circuit board, and the microprocessor is electrically connected with the photoelectric sensor, the infrared human body induction sensor and the light source respectively.

In the technical scheme, the bottom of the shell is further provided with a threading hole, the threading hole is used for penetrating a power supply lead, and the power supply lead is used for connecting a circuit board of the light source control module and an external power supply system.

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

(1) the multiple waterproof structure design is adopted between the shell and the light-transmitting body, so that the service life of the floor tile lamp is greatly prolonged;

(2) the integrated design of the modules is adopted, the structure of the floor tile lamp is greatly simplified, and the floor tile lamp is more convenient and rapid to install and detach

(3) The design of the shell and the light-transmitting body for increasing the access hole is adopted, so that the later maintenance is greatly facilitated, and the maintenance cost is reduced;

(4) the anti-pressure damping design is adopted between the shell and the light-transmitting body, so that the impact of a vehicle on a floor tile lamp is effectively avoided, and internal components are protected from being damaged;

(5) the light source control module adopts the design of combining together photoelectric sensor and infrared human body sensor, can effectively improve the life of ceramic tile lamp, and the energy saving reduces light pollution.

Drawings

Fig. 1 is an exploded view of an embodiment of the underground floor tile lamp of the present invention;

fig. 2 is an exploded view of another embodiment of the underground floor tile lamp of the present invention;

FIG. 3 is an assembly view of the underground floor tile light of FIG. 1 or 2;

fig. 4 is a side view of an embodiment of the buried floor tile of fig. 1 or 2;

fig. 5 is a top view of the buried floor tile of fig. 1 or 2;

FIG. 6 is a schematic view of the housing and the light-transmitting body of the embodiment of FIG. 1 or FIG. 2;

FIG. 7 is a schematic view of the housing structure in the embodiment of the buried floor tile of FIG. 1 or FIG. 2

Fig. 8 is a first schematic view illustrating a first light-transmitting body in the embodiment of the buried floor tile of fig. 1 or 2;

fig. 9 is a second schematic view of a second light-transmitting body in the embodiment of the buried floor tile of fig. 1 or 2;

FIG. 10 is a schematic view of the underground floor tile light of FIG. 1 or 2 installed on the ground;

description of reference numerals:

1. a housing; 2. a light transmitting body; 3. a light source; 3.1, LED luminous element; 4. a light source control module; 4.1, a circuit board; 4.2, a storage battery; 5. sealing the cavity; 6. a raised structure; 6.1, convex strips; 6.1a, a groove; 7. a shock-absorbing structure; 8. waterproof sealant; 9. a first manhole; 10. a second manhole; 11. threading holes; 12. a power supply lead; 13. and (3) an adhesive.

Detailed Description

In order to make the technical means, the creation features, the achievement purposes and the functions of the present invention easy to understand and understand, how to implement the present invention is further explained below with reference to the accompanying drawings and the detailed description.

Referring to fig. 1, fig. 2 and fig. 6, the utility model provides a novel buried floor tile lamp, including casing 1, light transmission body 2, light source 3 and light source control module 4, light transmission body 2 is embedded in casing 1, and light transmission body 2 top still protrudes casing 1 top H1mm, light source 3 and light source control module 4 are all set up in the sealed cavity 5 enclosed by light transmission body 2 and casing 1, and light source 3 and light source control module 4 are connected with each other electrically, be equipped with a plurality of protruding structures 6 that are used for antiskid and astigmatism and protrude light transmission body 2 top surface H2mm at the top that light transmission body 2 protrudes casing 1, be equipped with at least one shock-absorbing structure 7 that is used for buffering shock attenuation between light transmission body 2 and casing 1 at the bottom that light transmission body 2 is embedded in casing 1; wherein, the value range of H1 is 1.5 mm-2.5 mm; h2 has a value range of 4.5-6.5 mm.

In the present invention, in order to prevent water and impurities from entering, as shown in fig. 6, a waterproof sealant 8 is further filled and sealed around the portion where the housing 1 and the transparent body 2 are fitted to each other.

In the utility model, in order to facilitate later maintenance and repair, referring to fig. 3 and 7 to 9, a plurality of first access holes 9 are further arranged on the shell 1, a plurality of second access holes 10 are further arranged on the light-transmitting body 2, and each first access hole 9 corresponds to one second access hole 10; during assembly, each first access hole 9 is correspondingly connected and fastened with one second access hole 10 through one access nail.

When installed on a road surface, as shown in fig. 10, the housing 1 is completely inserted into a road surface cutting groove (a groove for threading and fixing a floor tile lamp); the top of the light-transmitting body 2 protrudes out of the top of the road surface H1 mm; the space between the housing 1 and the road surface cutting is filled with an adhesive 13.

As an embodiment of the present invention:

referring to fig. 1, 3 and 4, the light-transmitting body 2 is embedded in the casing 1, the top of the light-transmitting body 2 protrudes 2mm from the top of the casing 1, 5 protruding structures 6 for preventing slipping and scattering light and protruding 5mm from the top surface of the light-transmitting body 2 are arranged on the top of the light-transmitting body 2 protruding from the casing 1, and referring to fig. 6, a damping structure 7 for buffering and damping between the light-transmitting body 2 and the casing 1 is arranged on the bottom of the light-transmitting body 2 embedded in the casing 1; a first access hole 9 is respectively arranged at the front side and the rear side of the shell 1, a second access hole 10 is respectively arranged at the front side and the rear side of the light-transmitting body 2, and each first access hole 9 corresponds to one second access hole 10; when assembling, referring to fig. 3, each first access hole 9 is correspondingly connected and fastened with one second access hole 10 through one access nail.

Specifically, in the embodiment, referring to fig. 1, the light source 3 specifically includes 5 LED light emitting elements 3.1, and referring to fig. 5, each LED light emitting element 3.1 is formed by 7 5050RGB three-color LED lamp beads and is correspondingly installed inside one protruding structure 6.

Specifically, in the present embodiment, referring to fig. 9, each protruding structure 6 is a convex strip 6.1 with a groove 6.1a, and one surface of each convex strip 6.1, which is provided with the groove 6.1a, is disposed toward the inside of the light-transmitting body 2 and is communicated with the sealed cavity 5 defined by the light-transmitting body 2 and the housing 1; during assembly, referring to fig. 5, the groove 6.1a of each convex strip 6.1 is correspondingly used for installing one LED lighting element 3.1; the purpose of this arrangement is to increase the visibility for the convenience of astigmatism, because the convex strips 6.1 are higher than the surface of the transparent body 2 and the road surface, and there is no shelter, so the convenience of the light to be emitted to the periphery, and the long distance can be seen.

Specifically, in the present embodiment, referring to fig. 8, each of the shock absorbing structures 7 is a layer of rubber shock absorbing pad with a thickness of 3mm, and is specifically used for buffering and reducing shock between the light-transmitting body 2 and the housing 2, so as to protect the service lives of the light-transmitting body 2 and the light source 3.

Specifically, in the present embodiment, referring to fig. 8, each first manhole 9 is a U-shaped through hole with an open upper end; each second manhole 10 is a circular through hole.

Specifically, in the present embodiment, referring to fig. 1, the casing 1 is a square hollow box body with an upper end open and a lower end closed, and the light-transmitting body 2 is a square hollow box body which is matched with the casing 1 and has an upper end closed and a lower end open; wherein, the shell 1 is made of a cold-rolled steel plate with the thickness of 5mm, and the light-transmitting body 2 is made of a light-transmitting polymer composite plastic material.

More specifically, in the present embodiment, the casing 1 is a square hollow box with a side length of 52mm made of a cold-rolled steel sheet with a thickness of 5mm, and the transparent body 2 is a square hollow box with a side length of 50mm made of a transparent polymer composite plastic material.

Specifically, in the embodiment, referring to fig. 1, the light source control module 4 includes a circuit board 4.1 and a storage battery 4.2, and the circuit board 4.1 is respectively used for electrically connecting with the storage battery 4.2, the light source 3 and an external power supply system.

More specifically, in the present embodiment, the circuit board 4.1 is a PCB, and the battery 4.2 is a DC24V lead-acid battery; wherein, a microprocessor (not shown in the figure), a photoelectric sensor (not shown in the figure), an infrared human body induction sensor (not shown in the figure), a charging circuit (not shown in the figure) and a discharging circuit (not shown in the figure) are welded on the circuit board 4.1; the microprocessor is respectively electrically connected with the photoelectric sensor, the infrared human body induction sensor, the charging circuit and the discharging circuit, the discharging circuit is electrically connected with the light source 3, and the charging circuit is electrically connected with the storage battery; the photoelectric sensor is used for sensing whether the floor tile lamp is in the daytime or at night so as to control the light source 3 of the floor tile lamp to be unlighted in the daytime and be lighted at night through the microprocessor; the infrared human body induction sensor is used for sensing whether pedestrians pass at night to approach or not so as to control the on-off of the light source 3 through the microprocessor; the charging circuit is used for charging the storage battery 4.2, and the discharging circuit is used for converting chemical energy stored in the storage battery 4.2 into electric energy to be output to the light source 3 and providing electric energy required by work for the light source 3.

Specifically, in this embodiment, referring to fig. 7, a threading hole 11 is further formed in the bottom of the housing 1, the threading hole 11 is used for threading a power supply lead 12, and the power supply lead 12 is used for connecting the circuit board 4.1 of the light source control module 4 and an external power supply system;

in the present embodiment, the circuit board 4.1 is powered by an external power supply system in combination with the battery 4.2.

In this embodiment, when the floor tile lamp is installed on the road surface, referring to fig. 10, the housing 1 of the floor tile lamp is completely inserted into the road surface cutting groove (the slot for threading and fixing the floor tile lamp); the top of the light-transmitting body 2 of the floor tile lamp protrudes 2mm from the top of the road surface; the convex structure 6 of the floor tile lamp protrudes 7mm from the top of the road surface; the space between the shell 1 and the pavement cutting groove is filled with an adhesive 13 consisting of marble glue and a curing agent.

As another embodiment of the present invention:

referring to fig. 2, the difference from the first embodiment is: the light source control module 4 only comprises a circuit board 4.1 and does not comprise a storage battery 4.2; the circuit board 4.1 is only welded with a microprocessor, a photoelectric sensor and an infrared human body induction sensor, and is not provided with a charging circuit and a discharging circuit; the microprocessor is respectively and electrically connected with the photoelectric sensor, the infrared human body induction sensor and the light source 3.

In the present embodiment, the circuit board 4.1 is only powered by the external power supply system.

Finally, the above description is only the embodiments of the present invention, not limiting the scope of the present invention, all the equivalent structures or equivalent processes that are used in the specification and the attached drawings or directly or indirectly applied to other related technical fields are included in the patent protection scope of the present invention.

Claims (10)

1. The utility model provides a novel bury formula ceramic tile lamp, contains casing (1), the printing opacity body (2), light source (3) and light source control module (4), its characterized in that: the light transmission body (2) is embedded in the shell (1), the top of the light transmission body (2) also protrudes out of the top H1mm of the shell (1), the light source (3) and the light source control module (4) are both arranged in a sealed cavity (5) defined by the light transmission body (2) and the shell (1), the light source (3) and the light source control module (4) are electrically connected with each other, a plurality of protruding structures (6) which are used for preventing slipping and diffusing light and protrude out of the top H2mm of the light transmission body (2) are arranged at the top of the light transmission body (2) protruding out of the shell (1), and at least one damping structure (7) which is used for buffering and damping between the light transmission body (2) and the shell (1) is arranged at the bottom of the light transmission body (2) embedded into the shell (1);

wherein, the value range of H1 is 1.5 mm-2.5 mm; h2 has a value range of 4.5-6.5 mm.

2. The novel buried floor tile lamp of claim 1, wherein: and waterproof sealant (8) is also encapsulated between the periphery of the embedded part of the shell (1) and the light-transmitting body (2).

3. The novel buried floor tile lamp of claim 1, wherein: a plurality of first access holes (9) are further formed in the shell (1), a plurality of second access holes (10) are further formed in the light-transmitting body (2), and each first access hole (9) corresponds to one second access hole (10); during assembly, each first access hole (9) is correspondingly connected and fastened with one second access hole (10) through one access nail.

4. The novel buried floor tile lamp of claim 1, wherein: the light source (3) comprises a plurality of LED illuminating pieces (3.1), each LED illuminating piece (3.1) is composed of a plurality of 5050RGB three-color LED lamp beads, and the LED illuminating pieces are correspondingly installed inside one protruding structure (6).

5. The novel buried floor tile lamp of claim 4, wherein: each protruding structure (6) is a protruding strip (6.1) with a groove (6.1a), one surface, provided with the groove (6.1a), of each protruding strip (6.1) faces the inside of the light-transmitting body (2) and is communicated with a sealed cavity (5) formed by the light-transmitting body (2) and the shell (1) in a surrounding mode; when the LED luminous element is assembled, the groove (6.1a) of each convex strip (6.1) is correspondingly used for installing one LED luminous element (3.1).

6. The novel buried floor tile lamp of claim 1, wherein: each shock absorption structure (7) is a layer of rubber shock absorption pad with the thickness of 3 mm.

7. The novel buried floor tile lamp of claim 1, wherein: the shell (1) is a polygonal hollow box body structure with an upper end open and a lower end closed, and the light-transmitting body (2) is a polygonal hollow box body structure which is matched with the shell (1) and is provided with an upper end closed and a lower end open;

wherein the shell (1) is made of cold-rolled steel plates; the light-transmitting body (2) is made of a light-transmitting polymer composite plastic material.

8. The novel buried floor tile lamp of claim 1, wherein: the light source control module (4) comprises a circuit board (4.1) and a storage battery (4.2), and the circuit board (4.1) is electrically connected with the storage battery (4.2) and the light source (3) respectively;

wherein the circuit board (4.1) is a PCB printed circuit board and the battery (4.2) is a DC24V lead-acid battery; the circuit board (4.1) is also welded with a microprocessor, a photoelectric sensor, an infrared human body induction sensor, a charging circuit and a discharging circuit; the microprocessor is respectively and electrically connected with the photoelectric sensor, the infrared human body induction sensor, the charging circuit and the discharging circuit, the discharging circuit is electrically connected with the light source (3), and the charging circuit is electrically connected with the storage battery.

9. The novel buried floor tile lamp of claim 1, wherein: the light source control module (4) comprises a circuit board (4.1), and the circuit board (4.1) is electrically connected with the light source (3);

the circuit board (4.1) is a PCB (printed circuit board), a microprocessor, a photoelectric sensor and an infrared human body induction sensor are further welded on the circuit board (4.1), and the microprocessor is electrically connected with the photoelectric sensor, the infrared human body induction sensor and the light source (3) respectively.

10. A novel buried floor tile lamp as claimed in claim 8 or 9, wherein: the bottom of casing (1) still is equipped with through wires hole (11), through wires hole (11) are used for wearing to establish power lead (12), power lead (12) are used for connecting circuit board (4.1) and the external power supply system of light source control module (4).

Images