CN217057203U - Infrared induction industrial and mining lamp - Google Patents

Abstract

The embodiment of the utility model discloses infrared induction industrial and mining lamp, including light-emitting component, radiating piece and be used for responding to whether someone infrared induction device, be equipped with in the radiating piece and hold the chamber, light-emitting component and infrared induction device interval set up and are holding the intracavity, are equipped with on the radiating piece and hold the heat dissipation opening of chamber intercommunication, and the heat dissipation opening is located between infrared induction device and the light-emitting component. Because the radiating opening communicated with the accommodating cavity is formed in the radiating piece and is positioned between the infrared induction device and the light-emitting component, heat generated by the light-emitting component can be radiated out through the radiating opening. Do not possess thermal-insulated function in for traditional infrared induction industrial and mining lamp, the heat that light-emitting component produced influences infrared induction device easily for the unable scheme that plays a role of infrared induction device, the infrared induction industrial and mining lamp of this scheme possess thermal-insulated function, and the heat that light-emitting component produced is difficult to influence infrared induction device, makes infrared induction device effectively play a role.

Description

Infrared induction industrial and mining lamp

Technical Field

The utility model relates to an induction lighting technology field especially relates to an infrared induction industrial and mining lamp.

Background

Industrial and mining lamps are a generic term for lamps used in factories, mines, warehouses, and high-rise production work areas, and include various types of illumination lamps used in general environments, and explosion-proof lamps and corrosion-proof lamps used in special environments. The lighting lamp can be divided into a general lighting lamp and a local lighting lamp according to the lighting function. In order to save electric energy, different working modes are needed to be set for the industrial and mining lamp installed in a relatively open place, so that the brightness of the industrial and mining lamp is different when people pass through the industrial and mining lamp and when no people pass through the industrial and mining lamp. The above setting can be realized through installing infrared induction system in the industrial and mining lamp, and specific working mode is as follows: when the infrared sensing device senses that a person approaches, the mining lamp is turned on or the brightness of the mining lamp is increased, and when the infrared sensing device senses that the person leaves, the mining lamp is turned off or the brightness of the mining lamp is reduced. Usually, the infrared sensing device in the infrared sensing industrial and mining lamp is arranged in the middle of the industrial and mining lamp, so that the phenomenon that the side edge of the industrial and mining lamp is provided with the infrared sensing device, the industrial and mining lamp is inclined, and the light emitting effect is influenced is avoided.

The traditional infrared induction mining lamp does not have a heat insulation function, and heat generated by the light-emitting component easily influences the infrared induction device, so that the infrared induction device cannot play a role.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide an infrared induction industrial and mining lamp aims at solving and does not possess thermal-insulated function in the traditional infrared induction industrial and mining lamp, and the heat that light-emitting component produced influences infrared induction device easily for infrared induction device can't exert a function's problem.

In order to solve the problem, the utility model provides an infrared induction industrial and mining lamp, whether including light emitting component, radiating piece and be used for responding to someone infrared induction device, be equipped with in the radiating piece and hold the chamber, light emitting component with the infrared induction device interval sets up hold the intracavity, be equipped with on the radiating piece with hold the heat dissipation opening of chamber intercommunication, the heat dissipation opening is located infrared induction device with between the light emitting component.

Implement the embodiment of the utility model provides a, will have following beneficial effect:

the infrared induction industrial and mining lamp comprises the light emitting component, the heat radiating piece and the infrared induction device used for sensing whether people exist, the cavity is contained in the heat radiating piece, the light emitting component and the infrared induction device are arranged in the cavity at intervals, the heat radiating piece is provided with a heat radiating opening communicated with the cavity, and the heat radiating opening is located between the infrared induction device and the light emitting component. Because be equipped with on the radiating piece with hold the heat dissipation opening of chamber intercommunication, the heat dissipation opening is located between infrared induction device and the light emitting component, and the heat that the light emitting component produced can be passed through the heat dissipation opening and dispel, and above-mentioned infrared induction industrial and mining lamp possesses thermal-insulated function, and the heat that the light emitting component produced is difficult to influence infrared induction device for infrared induction device effectively plays a role. Do not possess thermal-insulated function in for traditional infrared induction industrial and mining lamp, the heat that light-emitting component produced influences infrared induction device easily for the unable scheme that plays a role of infrared induction device, the infrared induction industrial and mining lamp of this scheme possess thermal-insulated function, and the heat that light-emitting component produced is difficult to influence infrared induction device, makes infrared induction device effectively play a role.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

Wherein:

fig. 1 is the utility model discloses an infrared induction industrial and mining lamp's spatial structure schematic diagram.

Fig. 2 is an exploded view of the infrared induction mining lamp shown in fig. 1.

Fig. 3 is a sectional view of the infrared induction industrial and mining lamp shown in fig. 1.

Fig. 4 is a first enlarged view of the heat dissipating member of the infrared induction mining lamp shown in fig. 1.

Fig. 5 is an enlarged view of a second view of the heat sink of the infrared induction mining lamp shown in fig. 1.

Reference numerals:

10-light emitting component, 11-substrate, 13-light emitting member;

20-heat dissipation piece, 21-heat dissipation body, 211-heat dissipation opening, 23-cover body, 25-heat dissipation piece and 27-heat dissipation hole;

30-an infrared sensing device;

40-annular waterproof ring;

50-light transmissive mirror, 51-through hole;

60-power supply components, 61-lifting rings and 63-connecting lines.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments of the present invention, all other embodiments obtained by a person skilled in the art without making creative efforts belong to the protection scope of the present invention.

It should be noted that all the directional indicators (such as upper, lower, left, right, front, rear … …) in the embodiments of the present invention are only used to explain the relative position relationship between the components, the motion situation, etc. in a specific posture (as shown in the drawings), and if the specific posture is changed, the directional indicator is changed accordingly.

In addition, the descriptions related to "first", "second", etc. in the present invention are for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicit ly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one of the feature described. In addition, the technical solutions in the embodiments may be combined with each other, but it must be based on the realization of those skilled in the art, and when the technical solutions are contradictory to each other or cannot be realized, such a combination should not be considered to exist, and is not within the protection scope of the present invention.

As shown in fig. 1, fig. 2 and fig. 3, the embodiment of the utility model provides an infrared induction industrial and mining lamp, including light emitting component 10, radiating piece 20 and be used for responding to whether someone infrared induction device 30, be equipped with in the radiating piece 20 and hold the chamber, light emitting component 10 and infrared induction device 30 interval set up and holding the intracavity, be equipped with on the radiating piece 20 and hold the heat dissipation opening 211 that the chamber communicates, heat dissipation opening 211 is located between infrared induction device 30 and the light emitting component 10.

The infrared induction mining lamp comprises the light emitting component 10, the radiating piece 20 and the infrared induction device 30 used for inducing whether people exist, the radiating piece 20 is internally provided with an accommodating cavity, the light emitting component 10 and the infrared induction device 30 are arranged in the accommodating cavity at intervals, the radiating piece 20 is provided with a radiating opening 211 communicated with the accommodating cavity, and the radiating opening 211 is positioned between the infrared induction device 30 and the light emitting component 10. Because the heat dissipation opening 211 communicated with the accommodating cavity is formed in the heat dissipation member 20, the heat dissipation opening 211 is located between the infrared sensing device 30 and the light emitting component 10, heat generated by the light emitting component 10 can be dissipated through the heat dissipation opening 211, the infrared sensing industrial and mining lamp has a heat insulation function, and the heat generated by the light emitting component 10 is not easy to influence the infrared sensing device, so that the infrared sensing device can effectively play a role. Do not possess thermal-insulated function in for traditional infrared induction industrial and mining lamp, the heat that light-emitting component produced influences infrared induction device easily for the unable scheme that plays a role of infrared induction device, the infrared induction industrial and mining lamp of this scheme possess thermal-insulated function, and the heat that light-emitting component produced is difficult to influence infrared induction device, makes infrared induction device effectively play a role.

In the present embodiment, the infrared sensing device 30 is located at the central region of the heat sink 20, and the light emitting assembly 10 is located at the peripheral region of the infrared sensing device 30.

Specifically, the infrared sensing device 30 is located in the central region of the heat sink 20, and the light emitting assembly 10 is located in the peripheral region of the infrared sensing device 30, so that heat generated by the light emitting assembly 10 is not likely to affect the infrared sensing device, and the infrared sensing device can effectively function.

In the present embodiment, the heat dissipation opening 211 is plural, and the plural heat dissipation openings 211 are disposed around the infrared sensing device 30.

Specifically, the heat dissipation openings 211 are plural, and the plural heat dissipation openings 211 are disposed around the infrared induction device 30, so that the heat insulation effect can be enhanced.

In the present embodiment, the ratio of the distance between the heat dissipation opening 211 and the infrared sensing device 30 to the distance between the light emitting assembly 10 and the infrared sensing device 30 is 1: 1.5 to 8.

Specifically, the ratio of the distance between the heat dissipation opening 211 and the infrared sensing device 30 to the distance between the light emitting assembly 10 and the infrared sensing device 30 may be 1: 1.5, 1: 2. 1: 2.5, 1: 3. 1: 3.5, 1: 4. 1: 4.5, 1: 5. 1: 5.5, 1: 6. 1: 6.5, 1: 7. 1: 7.5 or 1: 8.

in the present embodiment, the length of the heat dissipation opening 211 in the horizontal direction is greater than the width of the heat dissipation opening 211 in the vertical direction, and the long side of the heat dissipation opening 211 is an arc shape that is concave inwards.

Specifically, the length of the heat dissipation opening 211 in the horizontal direction is greater than the width of the heat dissipation opening 211 in the vertical direction, and the long side of the heat dissipation opening 211 is in an inward-concave arc shape, which is beneficial to manufacturing the heat dissipation opening 211.

Preferably, the light emitting assembly 10 includes a substrate 11 disposed in the receiving cavity and a light emitting member 13 mounted on the substrate 11.

Specifically, the light emitting assembly 10 includes a substrate 11 disposed in the accommodating cavity and a light emitting element 13 mounted on the substrate 11, the substrate 11 is connected to the power supply unit 60, and the substrate 11 can serve to mount the light emitting element 13 and can also supply power to the light emitting element 13 by being connected to the power supply unit 60.

Preferably, an annular waterproof ring 40 is disposed in the accommodating cavity, and the annular waterproof ring 40 is located in the inner peripheral area and the outer peripheral area of the light emitting assembly 10.

Specifically, the accommodating cavity is provided with the annular waterproof rings 40, the annular waterproof rings 40 are located in the inner peripheral area and the outer peripheral area of the light emitting assembly 10, and the two annular waterproof rings 40 can prevent water from entering the substrate 11, so that the substrate 11 is prevented from being affected by water.

Preferably, a transparent mirror 50 is further disposed in the accommodating cavity, the transparent mirror 50 is located on a side of the light emitting element 13 away from the substrate 11, and a through hole 51 for the infrared sensing device 30 to pass through is disposed on the transparent mirror 50.

Particularly, the accommodating cavity is further provided with a transparent mirror 50, the transparent mirror 50 is positioned on one side of the light-emitting element 13 far away from the substrate 11, a through hole 51 for the infrared sensing device 30 to pass through is formed in the transparent mirror 50, and the transparent mirror 50 can protect the light-emitting element 13.

Preferably, the infrared sensing industrial and mining lamp further comprises a power supply assembly 60 electrically connected with the base plate 11, the power supply assembly 60 is connected with one end of the heat sink 20 far away from the infrared sensing device 30, and the power supply assembly 60 is provided with a hanging ring 61 for hanging the infrared sensing industrial and mining lamp and a connecting wire 63 for electrically connecting with an external power supply.

Specifically, the infrared sensing industrial and mining lamp further comprises a power supply assembly 60 electrically connected with the substrate 11, the power supply assembly 60 is connected with one end, far away from the infrared sensing device 30, of the heat dissipation member 20, a hanging ring 61 used for hanging the infrared sensing industrial and mining lamp and a connecting wire 63 used for being electrically connected with an external power supply are arranged on the power supply assembly 60, the infrared sensing industrial and mining lamp can be hung through the hanging ring 61, the installation is convenient, and the infrared sensing industrial and mining lamp and the external power supply can be conveniently electrically connected through the connecting wire 63.

Preferably, the heat dissipating member 20 includes a heat dissipating body 21 and a cover 23, the heat dissipating body 21 and the cover 23 enclose a heat insulating cavity, the infrared sensing device 30 is disposed on a surface of the cover 23 away from the heat insulating cavity, and the heat dissipating opening 211 is disposed on the heat dissipating body 21.

Specifically, the heat sink 20 includes a heat sink body 21 and a cover 23, the heat sink body 21 and the cover 23 enclose a heat insulation cavity, the infrared sensing device 30 is disposed on a side of the cover 23 away from the heat insulation cavity, the heat dissipation opening 211 is disposed on the heat sink body 21, and the heat insulation effect can be further enhanced by disposing the heat insulation cavity, so that the infrared sensing device 30 can better perform a function.

As shown in fig. 4 and 5, a plurality of fins 25 are provided at intervals on a surface of the heat dissipating body 21 away from the cover 23, and a heat dissipating hole 27 is formed between two adjacent fins 25 and the heat dissipating body 21.

Specifically, the surface of the heat dissipating body 21 away from the cover 23 is provided with a plurality of heat dissipating fins 25 arranged at intervals, a heat dissipating hole 27 is formed between two adjacent heat dissipating fins 25 and the heat dissipating body 21, and the heat generated by the light emitting element 13 can be dissipated through the heat dissipating hole 27, thereby preventing the heat generated by the light emitting element 13 from affecting the infrared sensing device 30.

The above disclosure is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the scope of the invention, which is defined by the appended claims.

Claims (10)

1. The utility model provides an infrared induction industrial and mining lamp, its characterized in that includes light emitting component, radiating piece and is used for responding to whether someone infrared induction device, be equipped with in the radiating piece and hold the chamber, light emitting component with infrared induction device interval sets up hold the intracavity, be equipped with on the radiating piece with hold the heat dissipation opening of chamber intercommunication, heat dissipation opening is located infrared induction device with between the light emitting component.

2. The infrared sensing mining lamp of claim 1, wherein the infrared sensing device is located in a central region of the heat dissipating member, and the light emitting assembly is located in a peripheral region of the infrared sensing device.

3. The infrared sensing mining lamp of claim 2, wherein the heat dissipation opening is a plurality of openings, and a plurality of the heat dissipation openings are disposed around the infrared sensing device.

4. The infrared induction mining lamp of claim 3, wherein the ratio of the distance between the heat dissipation opening and the infrared induction device to the distance between the light emitting assembly and the infrared induction device is 1: 1.5 to 8.

5. The infrared induction mining lamp of claim 4, wherein the length of the heat dissipation opening in the horizontal direction is greater than the width of the heat dissipation opening in the vertical direction.

6. The infrared induction industrial and mining lamp of claim 5, wherein the long side of the heat dissipation opening is in the shape of an inward concave arc.

7. The infrared sensing mining lamp of any one of claims 1-6, wherein the light emitting assembly comprises a substrate disposed within the receiving cavity and a light emitting element mounted on the substrate.

8. The infrared sensing mining lamp of claim 7, wherein an annular waterproof ring is disposed in the receiving cavity, and the annular waterproof ring is located in an inner peripheral region and an outer peripheral region of the light emitting assembly.

9. The infrared sensing industrial and mining lamp of claim 7, wherein a transparent mirror is further disposed in the accommodating cavity, the transparent mirror is disposed on a side of the light emitting member away from the substrate, and a through hole is disposed on the transparent mirror for the infrared sensing device to pass through.

10. The infrared induction industrial and mining lamp of claim 7, further comprising a power supply assembly electrically connected to the substrate, the power supply assembly being connected to an end of the heat sink remote from the infrared induction device, the power supply assembly having a hanging ring for hanging the infrared induction industrial and mining lamp and a connecting wire for electrically connecting to an external power supply;

the heat dissipation part comprises a heat dissipation body and a cover body, the heat dissipation body and the cover body enclose a heat insulation cavity, the infrared sensing device is arranged on one surface of the cover body, which is far away from the heat insulation cavity, and the heat dissipation opening is arranged on the heat dissipation body;

one side of the heat dissipation body, which is far away from the cover body, is provided with a plurality of heat dissipation fins which are arranged at intervals, and heat dissipation holes are formed between every two adjacent heat dissipation fins and the heat dissipation body.

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