CN212319556U - Lamps and lanterns and drawer cabinet - Google Patents

Abstract

The embodiment of the utility model discloses a lamp, which comprises a lamp shell, an infrared sensor and a lamp panel; the lamp panel and the infrared sensor are positioned in the lamp shell; the infrared sensor is electrically connected with the lamp panel; the infrared sensor is used for controlling the lamp panel to extinguish when sensing the obstacle within the preset distance. The battery module is also included; the battery module is electrically connected with the lamp panel; the lamp housing is provided with at least one first buckle, and the battery module is provided with at least one second buckle; the first buckles and the second buckles are correspondingly clamped and fixed one by one; the lamp shell is also provided with a guide rail; the battery module is also provided with a guide groove; and the guide groove of the battery module is arranged on the lamp shell in a sliding-in or sliding-out mode through the guide rail. The intelligent design of infrared induction of the lamp is realized. The lamps are also arranged in the drawer cabinet, and when the drawer is opened, the lamps automatically light up; when the drawer is closed, the lamp is automatically turned off.

Description

Lamps and lanterns and drawer cabinet

Technical Field

The embodiment of the utility model provides a relate to the lighting technology field, especially relate to a lamps and lanterns and drawer cabinet.

Background

With the development of society, more and more intelligent products enter the families of consumers, and especially intelligent lighting begins to enter people's daily life.

Install intelligent lamps and lanterns in the drawer for throw light on to the drawer inside, realize the integration of drawer and lamps and lanterns. However, in the prior art, after the drawer lamp is connected by the bolt, the lamp is generally turned off and turned on by operating the switch after the drawer is opened. In addition, when the battery module supplies power for the drawer lamp, the problems of complicated power supply wiring, slotting installation and the like exist.

SUMMERY OF THE UTILITY MODEL

The utility model provides a lamps and lanterns and drawer cabinet have realized lamps and lanterns infrared induction's intelligent design.

In a first aspect, an embodiment of the present invention provides a lamp, which includes a lamp housing, an infrared sensor, and a lamp panel; the lamp panel and the infrared sensor are positioned in the lamp shell;

the infrared sensor is electrically connected with the lamp panel; the infrared sensor is used for controlling the lamp panel to extinguish when sensing the obstacle within the preset distance.

Optionally, the system further comprises a battery module; the battery module is electrically connected with the lamp panel;

the lamp housing is provided with at least one first buckle, and the battery module is provided with at least one second buckle; the first buckles and the second buckles are correspondingly clamped and fixed one by one.

Optionally, the lamp housing is further provided with a guide rail; the battery module is also provided with a guide groove; and the guide groove of the battery module is arranged on the lamp shell in a sliding-in or sliding-out mode through the guide rail.

Optionally, the lamp further comprises a lampshade; the lampshade is mounted on the lamp shell, and the light-emitting surface of the lamp panel faces the lampshade; the lamp shade is provided with light homogenizing particles.

Optionally, the lamp shade includes a first light emitting surface and a second light emitting surface, and the first light emitting surface is perpendicular to the second light emitting surface; the light emitting surface of the lamp panel is parallel to the first light emitting surface or the second light emitting surface; or the light-emitting surface of the lamp panel and the first light-emitting surface form an acute included angle.

Optionally, the plane where the lamp shade is located is parallel to the light emergent surface of the lamp panel or has an acute included angle.

Optionally, the lamp further comprises a reflector, and the reflector is arranged in the lamp housing and used for reflecting light rays emitted by the lamp panel to the lampshade.

On the other hand, the embodiment of the utility model also provides a drawer cabinet, which comprises the lamp, the cabinet body and the drawer of the first aspect; the drawer can extend into or be pulled out of the cabinet body; the drawer comprises a bottom, a front panel, a rear wall and two side plates for connecting the front panel and the rear wall;

the lamp is fixed at the top of the cabinet body; the sensing surface of the infrared sensor faces the front panel.

Optionally, the lamp further comprises a lamp shade; light homogenizing particles are arranged in the lampshade;

the plane of the lampshade and the front panel form an acute included angle.

Optionally, the lamp further comprises a lamp shade; light homogenizing particles are arranged in the lampshade;

the lampshade comprises a first light-emitting surface and a second light-emitting surface, and the first light-emitting surface is vertical to the second light-emitting surface; the lampshade is arranged on the lamp shell, and the light-emitting surface of the lamp panel is parallel to the first light-emitting surface or the second light-emitting surface; or an acute included angle is formed between the light-emitting surface of the lamp panel and the first light-emitting surface;

the first light-emitting surface is parallel to the front panel and faces the front panel; the second light-emitting surface is parallel to the bottom and faces the bottom.

The lamp provided by the embodiment of the utility model comprises a lamp housing, an infrared sensor and a lamp panel; the lamp panel and the infrared sensor are positioned in the lamp shell; the infrared sensor is electrically connected with the lamp panel; the infrared sensor is used for controlling the lamp panel to extinguish when sensing the obstacle within the preset distance. The intelligent design of infrared induction of the lamp is realized. The lamps are arranged at the top of the drawer cabinet, the drawer is opened, and the lamps automatically light up; and (4) closing the drawer and automatically extinguishing the lamp.

Drawings

Fig. 1 is a schematic three-dimensional structure diagram of a lamp according to a first embodiment of the present invention;

fig. 2 is an exploded schematic view of a lamp according to an embodiment of the present invention;

fig. 3 is a schematic view of the interior of the lamp housing according to the first embodiment of the present invention;

FIG. 3a is an enlarged view of a portion of the area A in FIG. 3;

FIG. 3B is an enlarged view of a portion of the area B in FIG. 3;

fig. 4 is a schematic view of an interior of a battery module according to a first embodiment of the present invention;

FIG. 4a is an enlarged view of a portion of region C of FIG. 4;

FIG. 4b is an enlarged view of a portion of region D of FIG. 4;

fig. 5 is a schematic view illustrating a battery module sliding out of a lamp housing according to an embodiment of the present invention;

fig. 6 is a simple diagram of a drawer cabinet according to a second embodiment of the present invention.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings and examples. It is to be understood that the specific embodiments described herein are merely illustrative of the invention and are not limiting of the invention. It should be further noted that, for the convenience of description, only some of the structures related to the present invention are shown in the drawings, not all of the structures.

Example one

Fig. 1 is a schematic diagram of a three-dimensional structure of a lamp provided in an embodiment of the present invention, and fig. 2 is a schematic diagram of an explosion structure of a lamp provided in an embodiment of the present invention, as shown in fig. 2, the lamp includes a lamp housing 10, an infrared sensor 20, and a lamp panel 30; the lamp panel 30 and the infrared sensor 20 are positioned in the lamp housing 10; the infrared sensor 20 is electrically connected with the lamp panel 30; the infrared sensor 20 is used to control the lamp panel 30 to be turned off when an obstacle is sensed within a preset distance.

Optionally, the lamp panel 30 includes at least one lamp bead, and a plurality of lamp beads are a module, and can parallel connection between different modules. Lamp plate 30 is connected with infrared sensor 20 electricity, and infrared sensor 20 predetermines the distance and control lamp plate 30 extinguishes when predetermineeing the distance in sensing the barrier according to customer's requirement design, and sense the barrier outside predetermineeing the distance and control lamp plate 30 and light, realized this lamps and lanterns infrared induction's intelligent design. For example, in an actual scene, the lamp is installed in a drawer, when the drawer is pulled back into the cabinet body, and the infrared sensor 20 senses the drawer door within a certain distance, an infrared signal emitted by a transmitter of the infrared sensor 20 is reflected by the drawer door, and a receiver of the infrared sensor 20 receives the infrared signal, and then the lamp panel 30 is controlled to be turned off after signal processing. When the cabinet body is pulled out from the drawer, when a certain distance is pulled out, the infrared signal sent by the emitter of the infrared sensor 20 is reflected by the drawer door, and if the distance between the drawer door and the infrared sensor 20 is greater than the preset distance, the lamp panel 30 is controlled to be lighted to provide illumination.

Optionally, as shown in fig. 2, the battery module further includes a battery module 40; the battery module 40 is electrically connected with the lamp panel 30; fig. 3 is a schematic view of the interior of a lamp housing according to a first embodiment of the present invention, fig. 3a is a partial enlarged view of a region a in fig. 3, fig. 3B is a partial enlarged view of a region B in fig. 3, fig. 4 is a schematic view of the interior of a battery module according to a first embodiment of the present invention, fig. 4a is a partial enlarged view of a region C in fig. 4, and fig. 4B is a partial enlarged view of a region D in fig. 4; at least one first buckle is arranged on the lamp housing 10, such as the first buckle 1 in a partial view a in fig. 3a and the first buckle 2 in a partial view B in fig. 3B; at least one second buckle is arranged on the battery module 40, such as the second buckle 1 in a partial view C in fig. 4a and the second buckle 2 in a partial view D in fig. 4 b; the first clip and the second clip are correspondingly fixed in a one-to-one manner, such as the first clip 1 in the partial view a in fig. 3a and the second clip 1 in the partial view C in fig. 4a, and such as the first clip 2 in the partial view C in fig. 3b and the second clip 2 in the partial view D in fig. 4b, so as to achieve the detachable connection between the battery module 40 and the lamp housing 10.

Referring to fig. 2, the lamp housing 10 further includes a pogopin connector 11 and an end cap 12, the pogopin connector 11 is disposed on the lamp housing 10, the end cap 12 is disposed on the lamp housing 10, and the battery module 40 is fixedly connected to the lamp housing 10 through the pogopin connector 11, the buckle and the end cap 12. Screws 80 and blanking caps 90 on the screw lamps are also included to secure the entire lamp.

Referring to fig. 2, the battery module 40 is provided with a USB interface 41, and a USB rechargeable battery is a novel battery, and has a charging voltage of different specifications, for example, the charging voltage is 1.2V or 9V, the charging voltage of the battery module 40 can be 1.2V, and the battery module 40 further includes a battery box upper cover 42, a battery box lower cover 43, and a battery inside the battery module 40.

Optionally, fig. 5 is a schematic view illustrating the battery module sliding out of the lamp housing according to the first embodiment of the present invention; the lamp housing 10 is further provided with a guide rail, such as the guide rail in the partial view B in fig. 3B; the battery module 40 is further provided with a guide groove, such as the guide groove in the partial view D in fig. 4 b; the guide groove of the battery module 40 is mounted on the lamp housing 10 by sliding in or out through a guide rail.

Wherein, battery module 40 passes through the buckle and realizes that battery module 40 can dismantle with lamp body 10 and be connected, slides in roll-off lamp body 10 through the guide slot, and when battery module 40 was not enough for whole lamps and lanterns power supply electric quantity like this, need not pull down whole lamps and lanterns, only need dismantle battery module 40 and accomplish and charge.

Optionally, referring to fig. 2, the light fixture further comprises a lamp housing 50; the lampshade 50 is mounted on the lamp housing 10, and the light-emitting surface of the lamp panel 30 faces the lampshade 50; the lamp shade 50 is provided with light uniformizing particles therein.

Wherein, be provided with even light particle in the lamp shade 50, the exit surface of lamp plate 30 is towards lamp shade 50, and the even light particle effect in light and the lamp shade 50 that lamp plate 30 sent like this for the light-emitting through lamp shade 50 is even, brings fine visual effect for the user.

Optionally, the lampshade 50 includes a first light emitting surface 51 and a second light emitting surface 52, and the first light emitting surface 51 is perpendicular to the second light emitting surface 52; the light emitting surface of the lamp panel 30 is parallel to the first light emitting surface 51 or parallel to the second light emitting surface 52; alternatively, the light-emitting surface of the lamp panel 30 and the first light-emitting surface 51 form an acute included angle.

Wherein, exemplarily, the lamp is installed in the drawer cabinet, when the drawer is pulled out of the cabinet body, when a certain distance is pulled out, the infrared signal sent by the transmitter of the infrared sensor 20 is reflected by the drawer door, if the distance between the drawer door and the infrared sensor 20 is greater than the preset distance, the control lamp panel 30 lights, the light emitting surface of the lamp panel 30 faces the lamp shade 50, the lamp shade 50 includes a first light emitting surface 51 and a second light emitting surface 52, the first light emitting surface 51 faces the front panel of the drawer cabinet, the second light emitting surface 52 faces the bottom of the drawer cabinet, thus when the drawer is opened, the lamp can illuminate the inside of the drawer, and also illuminate the external environment of the drawer, thereby realizing the omnibearing illumination of the inside and the outside of the drawer. Or the light-emitting surface of the lamp panel 30 and the first light-emitting surface 51 form an acute included angle, so that light of the lamp panel 30 can be distributed and incident on two sides of the lampshade 50 at the same time.

Optionally, the plane where the lamp shade 50 is located is parallel to the light emitting surface of the lamp panel 30 or has an acute included angle.

When the light emitting surface of the lamp shade 50 is only one side, the plane where the lamp shade 50 is located may be parallel to the light emitting surface of the lamp panel 30, or may have a certain included angle with the light emitting surface of the lamp panel 30. If a certain included angle exists between the plane of the lamp shade 50 and the light-emitting surface of the lamp panel 30, the light emitted from the lamp panel 30 passes through the lamp shade 50 to form an inclined light-emitting surface, so that the light emitted from the lamp shade 50 is more concentrated.

Optionally, referring to fig. 2, the lamp further includes a reflector (not shown in the figure), which is disposed in the lamp housing 10 and used for reflecting the light emitted from the lamp panel 10 to the lampshade 50.

Wherein, the light of lamp plate 30 outgoing is through the reflection of reflector, and then reflection light hits on lamp shade 50, realizes the illumination of whole lamps and lanterns. Illustratively, the reflector may be at least one of a plane reflector, a lens, a triangular prism, or the like, and the specific structure of the reflector is not limited herein.

The lamp in the embodiment comprises a lamp housing 10, an infrared sensor 20 and a lamp panel 30, wherein on one hand, the infrared sensor 20 is electrically connected with the lamp panel 30; the infrared sensor 20 is used for controlling the lamp panel 30 to extinguish when an obstacle is sensed within a preset distance. The lamp is arranged in the drawer cabinet, and when the drawer is opened, the lamp automatically lights; and (4) closing the drawer and automatically extinguishing the lamp. On the other hand, the lamp further comprises a battery module 40, and the battery module 40 is electrically connected with the lamp panel 30; the battery module 40 is clamped with the clamping buckle on the lamp housing 10 through the clamping buckle, and the guide groove of the battery module 40 slides in or slides out of the lamp housing through the guide rail on the lamp housing 10, so that the detachable connection of the battery module 40 and the lamp housing 10 is realized.

Example two

Fig. 6 is a simple diagram of a drawer cabinet according to a second embodiment of the present invention, and as shown in fig. 6, the drawer cabinet includes the lamp 1 according to the first embodiment, and further includes a cabinet body 2 and a drawer 3; the drawer can be extended into or pulled out of the cabinet body; the drawer 3 comprises a bottom 31, a front panel 32, a rear wall 33 and two side panels 34 and 35 connecting the front panel 32 and the rear wall 33;

the lamp 1 is fixed at the top of the cabinet body 2; the sensing face of the infrared sensor faces the front panel 32.

Optionally, the internal structure of the lamp 1 is the structure in the first embodiment, referring to fig. 2, the lamp 1 further includes a lampshade 50; the light homogenizing particles are arranged in the lampshade 50; the plane of the lamp housing 50 is at an acute angle to the front panel 32.

Optionally, the lampshade 50 includes a first light emitting surface 51 and a second light emitting surface 52, and the first light emitting surface 51 is perpendicular to the second light emitting surface 52; the lamp shade 50 is installed on the lamp housing 10, and the light-emitting surface of the lamp panel 30 is parallel to the first light-emitting surface 51 or parallel to the second light-emitting surface 52; or, an acute included angle is formed between the light emitting surface of the lamp panel 30 and the first light emitting surface 51; the first light emitting surface 51 is parallel to the front panel 32 and faces the front panel 32; the second light-emitting surface 52 is parallel to the bottom and faces the bottom.

The drawer cabinet provided by the embodiment comprises a lamp 1, a cabinet body 2 and a drawer 3, wherein the lamp 1 is fixed at the top of the cabinet body 2, a sensing surface of an infrared sensor 30 in the lamp 1 faces a front panel 32, and a light emitting surface of a lamp panel 30 faces a lampshade 50; the first light-emitting surface 51 of the lampshade 50 is parallel to the front panel and faces the front panel; the second light-emitting surface 52 is parallel to the bottom and faces the bottom. When the drawer is pulled back into the cabinet body, the infrared sensor 20 senses the drawer door within a certain distance, and the lamp 1 is automatically turned off. When the drawer is pulled out of the cabinet body and pulled out for a certain distance, the lamp 1 automatically lights. The intelligent design of the infrared induction of the drawer cabinet is realized. In addition, the battery module 40 in the lamp 1 in the drawer cabinet can also be detachably connected.

It should be noted that the foregoing is only a preferred embodiment of the present invention and the technical principles applied. It will be understood by those skilled in the art that the present invention is not limited to the particular embodiments illustrated herein, but is capable of various obvious modifications, rearrangements and substitutions without departing from the scope of the invention. Therefore, although the present invention has been described in greater detail with reference to the above embodiments, the present invention is not limited to the above embodiments, and may include other equivalent embodiments without departing from the scope of the present invention.

Claims (8)

1. A light fixture, comprising:

the lamp comprises a lamp shell, an infrared sensor and a lamp panel; the lamp panel and the infrared sensor are positioned in the lamp shell;

the infrared sensor is electrically connected with the lamp panel; the infrared sensor is used for controlling the lamp panel to extinguish when an obstacle is sensed within a preset distance;

the battery module is also included; the battery module is electrically connected with the lamp panel; the lamp housing is provided with at least one first buckle, and the battery module is provided with at least one second buckle; the first buckles and the second buckles are correspondingly clamped and fixed one by one;

the lamp shell is also provided with a guide rail; the battery module is also provided with a guide groove; and the guide groove of the battery module is arranged on the lamp shell in a sliding-in or sliding-out mode through the guide rail.

2. The light fixture of claim 1, further comprising a light cover; the lampshade is mounted on the lamp shell, and the light-emitting surface of the lamp panel faces the lampshade; the lamp shade is provided with light homogenizing particles.

3. The lamp according to claim 2, wherein the lamp housing comprises a first light emitting surface and a second light emitting surface, and the first light emitting surface and the second light emitting surface are perpendicular; the light emitting surface of the lamp panel is parallel to the first light emitting surface or the second light emitting surface; or the light-emitting surface of the lamp panel and the first light-emitting surface form an acute included angle.

4. The lamp according to claim 2, wherein the plane of the lampshade is parallel to the light emergent surface of the lamp panel or has an acute included angle.

5. The lamp of claim 2, further comprising a reflector disposed in the lamp housing for reflecting light emitted from the lamp panel to the lamp housing.

6. A chest of drawers comprising a light fixture as claimed in any one of claims 1 to 5;

a cabinet body and a drawer; the drawer can extend into or be pulled out of the cabinet body; the drawer comprises a bottom, a front panel, a rear wall and two side plates for connecting the front panel and the rear wall;

the lamp is fixed at the top of the cabinet body; the sensing surface of the infrared sensor faces the front panel.

7. The chest of claim 6 wherein the light fixture further comprises a light cover; light homogenizing particles are arranged in the lampshade;

the plane of the lampshade and the front panel form an acute included angle.

8. The chest of claim 6 wherein the light fixture further comprises a light cover; light homogenizing particles are arranged in the lampshade;

the lampshade comprises a first light-emitting surface and a second light-emitting surface, and the first light-emitting surface is vertical to the second light-emitting surface; the lampshade is arranged on the lamp shell, and the light-emitting surface of the lamp panel is parallel to the first light-emitting surface or the second light-emitting surface; or an acute included angle is formed between the light-emitting surface of the lamp panel and the first light-emitting surface;

the first light-emitting surface is parallel to the front panel and faces the front panel; the second light-emitting surface is parallel to the bottom and faces the bottom.

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