CN219346339U - Induction type LED emergency lamp - Google Patents

Abstract

The utility model discloses an induction type LED emergency lamp, which belongs to the technical field of emergency lamps, and adopts the technical scheme that the induction type LED emergency lamp comprises an induction lighting control system and an optional fixing mechanism, wherein the bottom of the optional fixing mechanism is provided with an induction bearing mechanism, the induction bearing mechanism comprises a bearing control component and a protection component, the bearing control component is bolted to the bottom of the optional fixing mechanism, the protection component is bolted to the bottom of the bearing control component, when the LED emergency lamp is installed, the induction type LED emergency lamp can be installed on the tops of walls made of different materials, such as a concrete wall surface, a gypsum board wall surface and an aluminum buckle wall surface, at the moment, constructors can adopt bolting or bonding modes to construct when the optional fixing mechanism serving as a base is installed, and different walls to be suitable selected, so that convenience and flexibility in installation operation can be realized, and the induction bearing mechanism and the induction lighting control system are arranged.

Description

Induction type LED emergency lamp

Technical Field

The utility model relates to the technical field of emergency lamps, in particular to an induction type LED emergency lamp.

Background

The emergency lamp is a general term of lamps for emergency lighting, and mainly comprises emergency lighting for accidents, emergency exit signs and indicator lamps, and is mainly used for emergency lighting after a fire disaster and a power failure occur, so that trapped people are guided to evacuate or spread out to extinguish and rescue, but in daily inspection, a plurality of problems exist in the process of selecting, installing and using the fire emergency lamp by a unit.

Currently, the common number is: the utility model of CN 205278946U discloses an LED ceiling radar induction and emergency lamp, which comprises a base, wherein a radar induction head is arranged at the top end of the base, a main lamp panel is arranged around the radar induction head, an emergency lamp panel is arranged on the left side of the main lamp panel, a rechargeable battery is arranged on the front side of the emergency lamp panel, an LED driver is arranged on the right side of the main lamp panel, a delay circuit is arranged on the rear side of the radar induction head, the LED ceiling radar induction and emergency lamp can penetrate through a wall to detect the movement of a person when the person enters an induction area through the radar induction head, the radar induction head detects the change of an echo generated by the movement of the object, and the work of the LED driver is started, so that an induction control board controls the LED lamp to light up.

The current induction type LED emergency lamp is in actual installation and use, when installing the wall body top of different materials with induction type LED emergency lamp, can't select suitable mounting means, leads to the inconvenient inflexibility of installation operation, and the structure that current induction type LED emergency lamp was used for the response is comparatively single, and the condition of the insensitivity of response or unable response often appears in the in-service use, and single induction structure will lead to induction type LED emergency lamp effect not good, and then brings bad use experience.

Disclosure of Invention

The utility model provides an induction type LED emergency lamp, which aims to solve the problems that when the existing induction type LED emergency lamp is actually installed and used, when the induction type LED emergency lamp is installed on the top of a wall body made of different materials, a proper installation mode cannot be selected, so that the installation operation is inconvenient and inflexible, the structure of the existing induction type LED emergency lamp for induction is single, the induction is insensitive or cannot be performed frequently in actual use, the effect of the induction type LED emergency lamp is poor due to the single induction structure, and the poor use experience is further brought.

The utility model is realized in such a way that the induction type LED emergency lamp comprises an induction illumination control system and an optional fixing mechanism, wherein the bottom of the optional fixing mechanism is provided with an induction bearing mechanism;

the induction bearing mechanism comprises a bearing control assembly and a protection assembly, wherein the bearing control assembly is bolted to the bottom of the optional fixing mechanism, and the protection assembly is bolted to the bottom of the bearing control assembly.

In order to achieve the effect that the emergency lamp cannot be used when single induction fails in a multi-induction control mode, the induction type LED emergency lamp is preferable in the induction type LED emergency lamp, the induction type lighting control system comprises a control terminal, a light sensor, an infrared sensor and an acoustic control sensor, the light sensor is in bidirectional electrical connection with the control terminal, the infrared sensor is in bidirectional electrical connection with the control terminal, the acoustic control sensor is in bidirectional electrical connection with the control terminal, and a single item of induction type lighting control system is electrically connected with a power supply module.

In order to achieve the effect of selecting a proper installation mode for installation when installing the tops of walls made of different materials, the optional fixing mechanism comprises a film-covered adhesive plate, a magnetic sheet, screw holes and screws, wherein the tops of the magnetic sheet are adhered to the bottoms of the film-covered adhesive plate, the screw holes are formed in the triangular parts of the film-covered adhesive plate and the tops of the magnetic sheet, and the screws penetrate through the screw holes and are movably connected inside the screw holes.

In order to achieve the effects of connection and circuit board, induction carrier plate and LED lamp panel and control the LED lamp panel, as an induction type LED emergency lamp of the utility model, preferably, the bearing control assembly comprises a magnetic attraction plate, a carrier ring frame, a circuit board, an induction carrier plate and an LED lamp panel, wherein the top of the magnetic attraction plate is magnetically connected with the bottom of a magnetic sheet, the top of the carrier ring frame is bolted with the bottom of the magnetic attraction plate, the circuit board, the induction carrier plate and the LED lamp panel are all bolted in the carrier ring frame, the circuit board is electrically connected with the induction carrier plate, the outer side of the induction carrier plate is clamped with the inner side of the LED lamp panel, and the induction carrier plate is electrically connected with the LED lamp panel.

In order to achieve the effect of protecting the induction carrier plate and the LED lamp panel while not affecting the use, the induction type LED emergency lamp is preferable in the utility model, the protection assembly comprises a connecting ring, a transparent lamp shell and a sealing ring, the top of the connecting ring is bolted with the bottom of the carrier ring frame, the transparent lamp shell is clamped with the connecting ring, and the sealing ring is adhered to the outer side of the top of the transparent lamp shell.

In order to achieve the effect of ventilating the interior of the carrier ring frame to ensure stable heat dissipation of the internal structure, the induction type LED emergency lamp is preferable in the utility model, and a ventilation net is embedded in the left side of the carrier ring frame.

In order to achieve the effects of supplying power to the circuit board and facilitating the use of stored electric energy in outage, the induction type LED emergency lamp is preferable in the utility model, a storage battery is electrically connected to the rear side of the top of the circuit board, and a charging wiring is embedded in the rear side of the carrier ring frame and is electrically connected with the storage battery.

In order to achieve the effect of reminding when the circuit board is powered and the circuit board is running normally, the induction type LED emergency lamp is preferable in the utility model, the left side of the top of the circuit board is electrically connected with the running indicator lamp, and the left side of the running indicator lamp penetrates through the left side of the inner part of the carrier ring frame.

Compared with the prior art, the utility model has the beneficial effects that:

this induction type LED emergency light through setting up optional fixed establishment, when installing the LED emergency light, can install when the wall body top of different materials, for example concrete wall, gypsum board wall and aluminium buckle wall, at this moment constructor just can take the bolt or bond the mode to construct when installing the optional fixed establishment as the base, with the different walls that meet carries out suitable selection, convenience and flexibility when so alright realizing the installation operation, through setting up response and bear mechanism and response lighting control system, fix after the wall at optional fixed establishment, the mode that adopts magnetic connection through the load control subassembly that the response born mechanism and optional fixed establishment is connected fixedly, here generally can not have the condition of cutting off or artificially moving because of perpendicular installation, then bear the protection component that control subassembly bottom was bolted carries out the protection to the response structure and the LED emergency light structure that bear the control subassembly bottom, carry out the circular telegram to the structure that bear the control subassembly is inside, make the response lighting control system structure that the inside set up carries out the operation, so that avoid single response structure to respond to appear the emergent condition or the condition of being difficult to control, can't influence in the actual condition of the LED illumination in the course of the LED.

Drawings

FIG. 1 is an overall block diagram of an induction type LED emergency lamp of the present utility model;

FIG. 2 is a schematic diagram of the components of the inductive load bearing mechanism according to the present utility model;

FIG. 3 is a schematic diagram of an induction lighting control system according to the present utility model;

FIG. 4 is a schematic view of an alternative securing mechanism according to the present utility model;

FIG. 5 is a schematic diagram of a load control assembly according to the present utility model;

fig. 6 is a schematic structural view of a protection component in the present utility model.

In the figure, 1, an induction lighting control system; 101. a control terminal; 102. a light sensor; 103. an infrared sensor; 104. a sound control sensor; 105. a power supply module; 2. an optional securing mechanism; 201. a film-coated adhesive plate; 202. a magnetic force sheet; 203. a screw hole; 204. a screw; 3. an induction bearing mechanism; 301. a load bearing control assembly; 3011. a magnetic suction plate; 3012. a carrier ring frame; 3013. a circuit board; 3014. sensing a carrier plate; 3015. an LED lamp panel; 302. a protective assembly; 3021. a connecting ring; 3022. a transparent lamp housing; 3023. a seal ring; 4. a ventilation screen; 5. a storage battery; 6. charging wiring; 7. and operating the indicator lamp.

Detailed Description

The present utility model will be described in further detail with reference to the drawings and examples, in order to make the objects, technical solutions and advantages of the present utility model more apparent. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the utility model.

In the description of the present utility model, it should be understood that the terms "length," "width," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," and the like indicate orientations or positional relationships based on the orientation or positional relationships shown in the drawings, merely to facilitate describing the present utility model and simplify the description, and do not indicate or imply that the devices or elements referred to must have a specific orientation, be configured and operated in a specific orientation, and therefore should not be construed as limiting the present utility model. Furthermore, in the description of the present utility model, the meaning of "a plurality" is two or more, unless explicitly defined otherwise.

Referring to fig. 1-6, the present utility model provides the following technical solutions: an induction type LED emergency lamp comprises an induction illumination control system 1 and an optional fixing mechanism 2, wherein an induction bearing mechanism 3 is arranged at the bottom of the optional fixing mechanism 2;

the inductive load bearing mechanism 3 comprises a load bearing control assembly 301 and a guard assembly 302, the load bearing control assembly 301 is bolted to the bottom of the optional securing mechanism 2, and the guard assembly 302 is bolted to the bottom of the load bearing control assembly 301.

In this embodiment: through setting up optional fixed establishment 2, when installing the LED emergency light, can install when the wall body top of different materials, for example concrete wall, gypsum board wall and aluminous gusset plate wall, at this moment constructor just can take the bolt or bond the mode to be under construction when installing the optional fixed establishment 2 as the base, carry out suitable selection with the different walls that meet, convenience and flexibility when so alright realize the installation operation, through setting up response and bear mechanism 3 and response lighting control system 1, after optional fixed establishment 2 fixes at the wall, the mode that adopts magnetic connection is connected fixedly through the bearing control assembly 301 that the response born mechanism 3 and optional fixed establishment 2, here generally can not have the condition of rubbing or artificial removal because of perpendicular installation, then bear the response structure and the LED emergency light structure of control assembly 301 bottom bolting, carry out the protective treatment to the structure that bears the control assembly 301 is inside when using, make the inside response lighting control system 1 structure that bears the control assembly 301 set up carries out the operation, with this response is single, the response is insensitive to appear or can't use the condition in order to increase the actual condition of LED illumination in the sense, the effect of the LED lamp is convenient to use.

As a technical optimization scheme of the utility model, the induction lighting control system 1 comprises a control terminal 101, a light sensor 102, an infrared sensor 103 and an acoustic control sensor 104, wherein the light sensor 102 is electrically connected with the control terminal 101 in a bidirectional manner, the infrared sensor 103 is electrically connected with the control terminal 101 in a bidirectional manner, the acoustic control sensor 104 is electrically connected with the control terminal 101 in a bidirectional manner, and a single item of the induction lighting control system 1 is electrically connected with a power supply module 105.

In this embodiment: through setting up control terminal 101, light sensor 102, infrared sensor 103 and sound accuse inductor 104, in the in-service use, carry out unified control through control terminal 101 light sensor 102, infrared sensor 103 and sound accuse inductor 104, when light sensor 102 sensed external light is greater than the threshold value that control terminal 101 set for, can carry information back control terminal 101 for control terminal 101 controls infrared sensor 103 and sound accuse inductor 104 and is in the state of not moving, contrary when light sensor 102 sensed external light is less than the threshold value that control terminal 101 set for, control terminal 101 controls infrared sensor 103 and sound accuse inductor 104 and moves, in order to realize under the circumstances that does not have light and outage, whether personnel exist around the response is come through infrared sensor 103 and sound accuse inductor 104, in order to control subsequent lighting structure and provide emergency lighting's needs.

As a technical optimization scheme of the utility model, the optional fixing mechanism 2 comprises a film-coating adhesive plate 201, a magnetic sheet 202, screw holes 203 and screws 204, wherein the top of the magnetic sheet 202 is adhered to the bottom of the film-coating adhesive plate 201, the screw holes 203 are formed in triangles at the tops of the film-coating adhesive plate 201 and the magnetic sheet 202, and the screws 204 penetrate through the screw holes 203 and are movably connected inside the screw holes 203.

In this embodiment: through setting up tectorial membrane adhesive plate 201, magnetic force piece 202, screw 203 and screw 204, install the condition at the wall body top at different materials according to constructor, if install at concrete wall body top, then can punch at the wall body top earlier, then utilize screw 204 to run through tectorial membrane adhesive plate 201 and the screw 203 of magnetic force piece 202 surface and fix the bolt of magnetic force piece 202 tectorial membrane adhesive plate 201 on the surface of wall body, then carry out subsequent installation operation, if meet wall bodies such as gypsum board and aluminous gusset, can be direct take off the tectorial membrane on tectorial membrane adhesive plate 201 surface, with gypsum board and aluminous gusset wall bodies direct bonding and press firm can, this indicates that tectorial membrane adhesive plate 201 is that the surface contains the tectorial membrane inside and contains the viscose.

As a technical optimization scheme of the utility model, the bearing control assembly 301 comprises a magnetic attraction plate 3011, a carrier ring frame 3012, a circuit board 3013, an induction carrier plate 3014 and an LED lamp plate 3015, wherein the top of the magnetic attraction plate 3011 is magnetically connected with the bottom of the magnetic sheet 202, the top of the carrier ring frame 3012 is bolted with the bottom of the magnetic attraction plate 3011, the circuit board 3013, the induction carrier plate 3014 and the LED lamp plate 3015 are all bolted in the carrier ring frame 3012, the circuit board 3013 is electrically connected with the induction carrier plate 3014, the outer side of the induction carrier plate 3014 is clamped with the inner side of the LED lamp plate 3015, and the induction carrier plate 3014 is electrically connected with the LED lamp plate 3015.

In this embodiment: through setting up magnetic attraction plate 3011, carrier ring frame 3012, circuit board 3013, response carrier plate 3014 and LED lamp plate 3015, bear circuit board 3013, response carrier plate 3014 and LED lamp plate 3015 through the inside of carrier ring frame 3012 and bolt fixedly, then carry out the bolt with carrier ring frame 3012 and magnetic attraction plate 3011 again, then magnetic attraction plate 3011 carries out magnetism with the magnetic sheet 202 of tectorial membrane bonding plate 201 bottom can, then follow-up power supply to circuit board 3013, and make circuit board 3013 carry out the power supply to response carrier plate 3014 and LED lamp plate 3015, and cooperate light sensor 102, infrared inductor 103 and sound accuse inductor 104 that the response carrier plate 3014 surface set up to control LED lamp plate 3015, so that use under the outage condition of no light.

As a technical optimization scheme of the utility model, the protection assembly 302 comprises a connecting ring 3021, a transparent lamp housing 3022 and a sealing ring 3023, wherein the top of the connecting ring 3021 is bolted with the bottom of the carrier ring frame 3012, the transparent lamp housing 3022 is clamped with the connecting ring 3021, and the sealing ring 3023 is adhered to the outer side of the top of the transparent lamp housing 3022.

In this embodiment: through setting up connector ring 3021, transparent lamp body 3022 and sealing washer 3023, carry out joint processing through connector ring 3021 and transparent lamp body 3022 to cover sealing washer 3023 at the outer lane at transparent lamp body 3022 top, seal processing when this bottom bolt that realizes connector ring 3021 and carrying circle frame 3012, transparent lamp body 3022 carries out the protection processing for each structure that carries circle frame 3012 inside simultaneously, in order to utilize the security when using.

As a technical optimization scheme of the utility model, the left side of the carrier ring frame 3012 is embedded with the ventilation net 4.

In this embodiment: through setting up ventilation net 4, can ventilate the carrier ring frame 3012 inside to guarantee that the heat dissipation of carrier ring frame 3012 inner structure is stable, with this increase practicality.

As a technical optimization scheme of the utility model, a storage battery 5 is electrically connected to the rear side of the top of the circuit board 3013, and a charging wiring 6 is embedded in the rear side of the carrier ring frame 3012, and the charging wiring 6 is electrically connected to the storage battery 5.

In this embodiment: through setting up deposit battery 5 and wiring 6 that charges, can be used for as the transfer through deposit battery 5, on the one hand carries out continuous power supply to deposit battery 5 through wiring 6 that charges, and deposit battery 5 then carries out continuous power supply for circuit board 3013, and the unable to charge to deposit battery 5 of wiring 6 that charges under the circular telegram state simultaneously, and the electric energy of the inside deposit of deposit battery 5 can also be for circuit board 3013 supplies power at this moment to this realizes using under the emergent condition of outage.

As a technical optimization scheme of the utility model, the left side of the top of the circuit board 3013 is electrically connected with an operation indicator lamp 7, and the left side of the operation indicator lamp 7 penetrates through the left side inside the carrier ring frame 3012.

In this embodiment: through setting up operation pilot lamp 7, supply power to circuit board 3013 and the effect that reminds when circuit board 3013 normal operating to increase the practicality.

Working principle: firstly, according to the condition that constructors are installed at the tops of walls made of different materials, if the constructors are installed at the tops of concrete walls, holes can be drilled at the tops of the walls, then screws 204 are utilized to penetrate through screw holes 203 on the surfaces of a film-covered adhesive plate 201 and a magnetic plate 202, the film-covered adhesive plate 201 of the magnetic plate 202 is bolted and fixed on the surface of the wall, then subsequent installation operation is carried out, if the constructors encounter the walls such as gypsum boards and aluminum buckle plates, the film on the surface of the film-covered adhesive plate 201 can be directly torn off, the film-covered adhesive plate is directly adhered to the walls such as gypsum boards and aluminum buckle plates and pressed firmly, then after the circuit board 3013, the induction carrier board 3014 and the LED lamp board 3015 are carried and bolted and fixed by the inside of a carrier frame 3012, and after the connecting ring 3021 and the transparent lamp housing 3022 are clamped, the sealing ring 3023 is covered on the outer ring of the top of the transparent lamp housing 3022, sealing treatment when the bottom of the connecting ring 3021 and the carrier ring frame 3012 is bolted is realized, then the carrier ring frame 3012 and the magnetic attraction plate 3011 are bolted, then the magnetic attraction plate 3011 and the magnetic sheet 202 at the bottom of the film-covered adhesive plate 201 are magnetically connected, then the circuit board 3013 is powered, the circuit board 3013 supplies power to the induction carrier plate 3014 and the LED lamp board 3015, and the induction illumination control system 1 of the induction carrier plate 3014 is matched, the optical sensor 102, the infrared sensor 103 and the acoustic control sensor 104 are uniformly controlled through the control terminal 101, when the optical sensor 102 senses that the external light is greater than the threshold value set by the control terminal 101, information is transmitted back to the control terminal 101, the control terminal 101 controls the infrared sensor 103 and the acoustic control sensor 104 to be in a non-operating state, the LED lamp board 3015 does not have illumination conditions, on the contrary, when the light sensor 102 senses that the external light is smaller than the threshold value set by the control terminal 101, the control terminal 101 controls the infrared sensor 103 and the sound control sensor 104 to operate, so that the LED lamp panel 3015 has lighting conditions, and therefore whether people exist around or not is sensed through synchronization of the infrared sensor 103 and the sound control sensor 104 under the condition of no light and power failure, and the subsequent requirement of the LED lamp panel 3015 for providing emergency lighting is controlled.

The foregoing description of the preferred embodiments of the utility model is not intended to be limiting, but rather is intended to cover all modifications, equivalents, and alternatives falling within the spirit and principles of the utility model.

Claims (8)

1. The utility model provides an induction type LED emergency light, includes response lighting control system (1) and optional fixed establishment (2), its characterized in that: the bottom of the optional fixing mechanism (2) is provided with an induction bearing mechanism (3);

the induction bearing mechanism (3) comprises a bearing control assembly (301) and a protection assembly (302), wherein the bearing control assembly (301) is bolted to the bottom of the optional fixing mechanism (2), and the protection assembly (302) is bolted to the bottom of the bearing control assembly (301).

2. The induction LED emergency light of claim 1, wherein: the induction lighting control system (1) comprises a control terminal (101), a light sensor (102), an infrared sensor (103) and an acoustic control sensor (104), wherein the light sensor (102) is in bidirectional electrical connection with the control terminal (101), the infrared sensor (103) is in bidirectional electrical connection with the control terminal (101), the acoustic control sensor (104) is in bidirectional electrical connection with the control terminal (101), and a power supply module (105) is in single-item electrical connection with the induction lighting control system (1).

3. The induction LED emergency light of claim 1, wherein: the optional fixing mechanism (2) comprises a film-coating adhesive plate (201), a magnetic plate (202), a screw hole (203) and a screw (204), wherein the top of the magnetic plate (202) is adhered to the bottom of the film-coating adhesive plate (201), the screw hole (203) is formed in a triangle at the tops of the film-coating adhesive plate (201) and the magnetic plate (202), and the screw (204) penetrates through the screw hole (203) and is movably connected inside the screw hole (203).

4. An induction LED emergency light as set forth in claim 3, wherein: the bearing control assembly (301) comprises a magnetic attraction plate (3011), a carrier ring frame (3012), a circuit board (3013), an induction carrier plate (3014) and an LED lamp plate (3015), wherein the top of the magnetic attraction plate (3011) is magnetically connected with the bottom of a magnetic sheet (202), the top of the carrier ring frame (3012) is bolted with the bottom of the magnetic attraction plate (3011), the circuit board (3013), the induction carrier plate (3014) and the LED lamp plate (3015) are all bolted in the interior of the carrier ring frame (3012), the circuit board (3013) and the induction carrier plate (3014) are electrically connected, the outer side of the induction carrier plate (3014) is in clamping connection with the inner side of the LED lamp plate (3015), and the induction carrier plate (3014) is electrically connected with the LED lamp plate (3015).

5. The induction LED emergency light of claim 4, wherein: the protection assembly (302) comprises a connecting ring (3021), a transparent lamp housing (3022) and a sealing ring (3023), wherein the top of the connecting ring (3021) is bolted to the bottom of the carrier ring frame (3012), the transparent lamp housing (3022) is clamped with the connecting ring (3021), and the sealing ring (3023) is adhered to the outer side of the top of the transparent lamp housing (3022).

6. The induction LED emergency light of claim 4, wherein: the left side of the carrier ring frame (3012) is embedded with a ventilation net (4).

7. The induction LED emergency light of claim 4, wherein: the rear side at circuit board (3013) top electric connection has deposit battery (5), the rear side of carrying circle frame (3012) is embedded to have charge wiring (6), charge wiring (6) and deposit battery (5) electric connection.

8. The induction LED emergency light of claim 4, wherein: the left side electric connection at circuit board (3013) top has operation pilot lamp (7), the left side of operation pilot lamp (7) runs through the inside left side of carrying circle frame (3012).

Images