CN112648543A

CN112648543A - High-power LED bulb lamp

Info

Publication number: CN112648543A
Application number: CN202110018311.0A
Authority: CN
Inventors: 冯嘉善
Original assignee: Zhongshan Yonder System Lighting Industrial Co ltd
Current assignee: Zhongshan Yonder System Lighting Industrial Co ltd
Priority date: 2021-01-07
Filing date: 2021-01-07
Publication date: 2021-04-13

Abstract

The invention relates to the field of bulb lamps, and discloses a high-power LED bulb lamp which comprises a reflecting cover, wherein a central through pipe is arranged in the reflecting cover, a first light-emitting assembly is slidably arranged on the outer side wall of the central through pipe, the top of the central through pipe is connected with a heat-radiating assembly, the top of the heat-radiating assembly is provided with an induction assembly, the bottom of the central through pipe is connected with a locking head, and the bottom of the locking head is provided with a detachable filter screen. This ball bubble lamp's first light-emitting component can remove at the lateral wall of central siphunculus, the focus that has realized below light changes, through setting up response subassembly, can in time respond to the temperature of ball bubble lamp air outlet, judge the operating condition of ball bubble lamp, set up the detachable filter screen bottom ball bubble lamp, filter the large granule material in the air, it has the dust to avoid attaching in the ball bubble lamp, influence the intensity of light, set up the lug at central siphunculus inside wall, the very first time transmits the heat that first light-emitting component produced to the radiator, avoid first light-emitting component high temperature and burn out.

Description

High-power LED bulb lamp

[ technical field ] A method for producing a semiconductor device

The invention relates to the field of bulb lamps, in particular to a high-power LED bulb lamp.

[ background of the invention ]

The bulb lamp has the advantages that the LED lamp beads are selected as the internal light source, the bulb lamp has the advantages of energy conservation, environmental protection, long service life and no stroboflash, incandescent bulbs can be well replaced, the existing bulb lamp cannot adjust the focusing position and height of the light source, the using condition is single, the internal temperature of the existing bulb lamp is not known in the using process, the burning-out condition of the internal LED lamp beads is easily caused under the long-time working condition, in addition, fresh air needs to be extracted from the outside when the existing bulb lamp dissipates heat, certain dust and large-particle impurities can be brought when the air enters the bulb lamp, particularly, the impurities are particularly obvious in severe working environments and can be attached to the light source or the reflecting cover, the irradiation intensity of the bulb lamp is reduced, the internal temperature is not easy to diffuse, the service life of the bulb lamp is shortened, on the other hand, the light source in the existing bulb lamp cannot dissipate heat in time due to the radiator, the condition that the lamp pearl burns out often appears easily.

[ summary of the invention ]

The invention aims to solve the problems and provides a high-power LED bulb lamp which solves the problems that the existing bulb lamp cannot radiate heat timely, cannot adjust a light source, cannot monitor temperature and is easy to enter dust and large granular substances.

In order to achieve the purpose, the invention adopts the following technical scheme:

a high-power LED bulb lamp comprises a reflecting cover, wherein a central through pipe is arranged in the reflecting cover, a first light-emitting assembly is slidably arranged on the outer side wall of the central through pipe, the top of the central through pipe is connected with a heat dissipation assembly, the top of the heat dissipation assembly is provided with an induction assembly, the bottom of the central through pipe is connected with a locking head, and the bottom of the locking head is provided with a detachable filter screen;

the central siphunculus includes the lug, and is a plurality of the lug is located the inside wall of central siphunculus.

Preferably, the central through pipe further comprises a sliding groove and a positioning groove, the sliding groove is formed in the outer side wall of the central through pipe, and the positioning grooves are evenly distributed on two sides of the sliding groove.

Preferably, first light-emitting component includes PCB board, spacing post and lamp pearl, the PCB board is located in the spout, the lamp pearl is located on the PCB board, spacing post is located the both sides of PCB board, just spacing post inserts in the constant head tank.

Preferably, the heat dissipation assembly comprises a radiator and an outer cover, the radiator is connected with the top of the central through pipe, and the outer cover is arranged on the periphery of the central through pipe.

Preferably, the response subassembly includes drive box, temperature sensor and central treater, the drive box is located radiator unit's top, the center of the bottom of drive box is equipped with the through-hole, temperature sensor locates in the through-hole, central treater is located in the drive box, just central treater with temperature sensor connects.

Preferably, the mounting device further comprises a mounting bracket of several types, and the mounting bracket of several types is arranged in the driving box.

Preferably, several types of installing supports include clamping part and main part, the main part runs through the top of drive box, the both ends of main part are connected with the clamping part, the clamping part locate radiator unit with between the drive box, just radiator unit the clamping part with drive box fixed connection.

Preferably, the LED lamp further comprises a second light-emitting assembly, and the second light-emitting assembly is arranged at the bottom of the heat dissipation assembly.

Preferably, still include the PC lamp shade, the PC lamp shade is located the bottom of reflector, just central siphunculus passes behind the PC lamp shade with the locking head is connected.

The contribution of the invention lies in: the first light-emitting component that ball bubble lamp leads to can remove at the lateral wall of central siphunculus, thereby the focus of below light has been realized and has been changed, be applicable to different occasions, through setting up the response subassembly, can in time respond to the temperature of ball bubble lamp air outlet, be convenient for differentiate the operating condition of ball bubble lamp, bottom through at ball bubble lamp sets up the detachable filter screen, filter the large granule material in the air, it has the dust to adhere to on first light-emitting component and the second light-emitting component in the ball bubble lamp to avoid, it has the dust to adhere to on the bowl to have also avoided being adhered to on the reflector, avoid influencing the intensity of light, through set up the lug at central siphunculus inside wall, the very first time transmits the heat that first light-emitting component produced to the radiator, even use high-.

[ description of the drawings ]

FIG. 1 is a diagram of the effect of the explosion of the present invention;

FIG. 2 is a schematic structural diagram of one embodiment of the present invention;

FIG. 3 is a schematic view of the structure of FIG. 2 at another angle;

FIG. 4 is a schematic structural view of the heart-shaped tube of the present invention;

FIG. 5 is a schematic structural diagram of a first light-emitting assembly according to the present invention;

fig. 6 is a schematic structural diagram of a locking head, a central through pipe, a first light-emitting assembly, a heat dissipation assembly and a sensing assembly according to an embodiment of the present invention;

FIG. 7 is a schematic structural diagram of a central through tube, a heat dissipation assembly, a first light emitting assembly, a mounting bracket of a type I, and a driving box according to an embodiment of the present invention;

FIG. 8 is a schematic structural view of an inductive component of the present invention;

FIG. 9 is a schematic structural view of an induction assembly, mounting bracket of type several and housing of the present invention;

FIG. 10 is a schematic view of a mounting bracket of the present invention;

wherein: the LED lamp comprises a reflecting shade 10, a central through pipe 20, a first light-emitting component 30, a heat dissipation component 40, a sensing component 50, a locking head 60, a filter screen 70, a mounting bracket 80 of a V shape, a second light-emitting component 90 and a PC lamp shade 1 a;

the LED lamp comprises a bump 21, a sliding groove 22, a positioning groove 23, a PCB 31, a limiting column 32, a lamp bead 33, a radiator 41, an outer cover 42, a driving box 51, a through hole 511, a temperature sensor 52, a central processor 53, a clamping part 81 and a main body 82.

[ detailed description ] embodiments

The following examples are further illustrative and supplementary to the present invention and do not limit the present invention in any way.

As shown in fig. 1-10, the high-power LED bulb lamp includes a reflector 10, a central through tube 20 is disposed in the reflector 10, a first light emitting assembly 30 is slidably disposed on an outer side wall of the central through tube 20, a heat dissipating assembly 40 is connected to a top of the central through tube 20, an induction assembly 50 is disposed at a top of the heat dissipating assembly 40, a locking head 60 is connected to a bottom of the central through tube 20, and a detachable filter screen 70 is disposed at a bottom of the locking head 60;

the central through pipe 20 includes a plurality of protrusions 21, and the plurality of protrusions 21 are disposed on an inner sidewall of the central through pipe 20.

High-power (>100w) LED bulb lamp mainly comprises a reflecting shade 10, a central through pipe 20, a first light-emitting component 30, a second light-emitting component 90, a heat dissipation component 40, a sensing component 50, a locking head 60 and a filter screen 70, wherein the central through pipe 20 is arranged in the reflecting shade 10, the reflecting shade 10 is used for emitting light emitted by the first light-emitting component 30 and the second light-emitting component 90 and irradiating the light downwards, the light is prevented from being excessively dispersed, the first light-emitting component 30 is slidably arranged on the outer side wall of the central through pipe 20, so that the adjustment of the light can be realized by adjusting the height position of the first light-emitting component 30, and the irradiation range and the light focusing position of the light below are changed.

Specifically, the outer side wall of the central through tube 20 is provided with the chute 22, the chute 22 is provided with a plurality of positioning slots 23, the first light emitting assembly 30 is provided with the PCB 31 and the limiting posts 32, the PCB 31 is arranged in the chute 22, the length of the chute 22 is greater than that of the PCB 31, the PCB 31 can move in the chute 22, the limiting posts 32 are arranged at two sides of the PCB 31, the limiting posts 32 are used for fixing the position of the PCB 31, the PCB 31 can be fixed at different heights by inserting the limiting posts 32 into the positioning slots 23 at different heights, so that the light emitted by the lamp beads 33 on the PCB 31 changes at the position focused below, further, the positioning slots 23 are made of an elastic material, when the height position of the first light emitting assembly 30 needs to be changed, the PCB 31 only needs to be pulled downwards forcibly, the positioning posts can be separated from the original positioning slots 23 (deformed by being stressed) and fixed in the positioning slots 23 below (the PCB 31 is not pulled normally, the PCB 31 cannot be separated from the positioning groove 23, and the positioning groove 23 can bear the weight of the PCB 31 without deformation), thereby realizing the adjustment of the height of the light source, being applicable to different scenes, and being particularly applicable to areas needing accent lighting.

Induction component 50 locates radiator unit 40's top, induction component 50 has included drive box 51, temperature sensor 52 and central treater 53, temperature sensor 52 locates in the through-hole 511 of drive box 51 bottom, be located the air outlet department of radiator 41 promptly, the temperature of air outlet can be responded to the very first time, with signal transmission to central treater 53 department, in time make the adjustment and send out the police dispatch newspaper, avoid the inside high temperature of ball bubble lamp, lead to first light-emitting component 30 and second light-emitting component 90 to be burnt out, in time inspect out the problem.

Furthermore, central treater 53 among the response subassembly 50 also can with the thing networking electric connection of wisdom illumination, the user can open or close through remote controller control ball bubble lamp, also can be through remote control, realize the control to ball bubble lamp, and with information transfer such as the temperature of ball bubble lamp during operation or current strength to the display screen of remote controller on, the person of facilitating the use is more audio-visual to observe the behavior of ball bubble lamp, and can get into the size of ball bubble lamp current through control, the intensity of the light of first light-emitting subassembly 30 and second light-emitting subassembly 90 is controlled, adjust luminance and handle, satisfy user's demand.

The bottom of the central through pipe 20 is connected with a locking head 60, the bottom of the locking head 60 is provided with a detachable filter screen 70, the filter screen 70 is used for filtering air entering the bulb lamp, so that excessive large-particle substances such as dust and the like are prevented from entering the bulb lamp, impurities can be attached to a lamp bead 33 or a reflector 10, the light irradiation of the bulb lamp is seriously influenced, the temperature inside the bulb lamp is unfavorable for emission, the internal temperature is overhigh, the use of the bulb lamp is influenced, the large-particle impurities in the air can be well filtered by arranging the detachable filter screen 70 at the bottom, the bulb lamp is particularly used in places with poor environment, such as an incineration workshop, the large-particle substances often float in the air, if the large-particle substances enter the bulb lamp, the brightness and the service life of the emitted light are seriously influenced, on the other hand, because the filter screen 70, if the external environment is good, the filter screen 70 may also be removed, and it should be noted that the installation of the filter screen 70 does not affect the flow of air in the upper central duct 20 and the heat sink 41, i.e., the external air entering the bulb lamp is not affected, because the aperture of the filter screen 70 can only intercept large particulate matter, and the aperture of the filter screen 70 is not too small to affect the entering of the external air.

The inner side wall of the central through pipe 20 is provided with the convex block 21, the convex block 21 can well bring heat emitted by the first light emitting assembly 30 to the heat dissipation assembly 40 from the central through pipe 20 at the first time, so that the heat is emitted to the outside through the radiator 41 in the heat dissipation assembly 40, the temperature in the bulb lamp is reduced, and the first light emitting assembly 30 is prevented from being burnt out due to overhigh temperature.

According to the bulb lamp, the first light-emitting component 30 communicated with the bulb lamp can move on the outer side wall of the central through pipe 20, so that the focusing change of light below is realized, the bulb lamp is suitable for different scenes, the temperature of an air outlet of the bulb lamp can be timely sensed by arranging the sensing component 50, the working state of the bulb lamp is convenient to judge, large granular substances in air are filtered by arranging the detachable filter screen 70 at the bottom of the bulb lamp, dust is prevented from being attached to the first light-emitting component 30 and the second light-emitting component 90 in the bulb lamp, dust is prevented from being attached to the reflector 10, the intensity of light is prevented from being influenced, heat generated by the first light-emitting component 30 is transmitted to the radiator 41 at the first time by arranging the convex block 21 on the inner side wall of the central through pipe 20, and the first light-emitting component 30 is.

In a further description, the central through tube 20 further includes a sliding groove 22 and a positioning groove 23, the sliding grooves 22 are disposed on an outer side wall of the central through tube 20, and the positioning grooves 23 are uniformly distributed on two sides of the sliding groove 22.

Further, the first light emitting assembly 30 includes a PCB 31, a position-limiting post 32 and a lamp bead 33, the PCB 31 is disposed in the sliding groove 22, the lamp bead 33 is disposed on the PCB 31, the position-limiting post 32 is disposed on two sides of the PCB 31, and the position-limiting post 32 is inserted into the positioning groove 23.

Through the cooperation of the positioning slot 23 and the position-limiting column 32, the PCB 31 can move in the sliding slot 22, and the height position of the lamp bead 33 is changed, specifically, the position-limiting column 32 is disposed on both sides of the PCB 31, the position-limiting column 32 is used for fixing the position of the PCB 31, the PCB 31 can be fixed at different heights by inserting the position-limiting column 32 into the positioning slots 23 of different heights, so that the position of the light emitted by the lamp bead 33 on the PCB 31 focused below is changed, further, the positioning slot 23 is made of an elastic material, when the height position of the first light-emitting component 30 needs to be changed, the PCB 31 only needs to be pulled downwards forcefully, the positioning column can be separated from the original positioning slot 23 (deformed by stress) and inserted into the positioning slot 23 below for fixing (the PCB 31 is not pulled normally, the PCB 31 cannot be separated from the positioning slot 23, the positioning groove 23 can bear the weight of the PCB 31 without deformation), thereby realizing the adjustment of the height of the light source, and being applicable to different occasions, in particular to the areas needing emphasis on illumination.

On the other hand, if the height position of the first light emitting assembly 30 does not need to be adjusted, that is, the focusing position of light does not need to be adjusted, then the positioning groove 23 and the limiting column 32 are not needed, and only the PCB 31 needs to be fixedly arranged in the sliding groove 22, at this time, the positioning groove 23 is not arranged on the central through pipe 20, and the limiting column 32 is not arranged on the PCB 31.

In a further description, the heat dissipation assembly 40 includes a heat sink 41 and a cover 42, the heat sink 41 is connected to the top of the central through pipe 20, and the cover 42 is disposed on the periphery of the central through pipe 20.

Radiator 41 is used for distributing the heat that first light emitting component 30 and second light emitting component 90 transmitted and come, avoids the high temperature in first light emitting component 30 and the second light emitting component 90 to burn out lamp pearl 33, dustcoat 42 is used for protecting radiator 41 can not take place to collide with the external world, also blocks the gap between dustcoat 42 and drive box 51 simultaneously, avoids in external dust or impurity entering ball bubble lamp.

To be further described, the sensing assembly 50 includes a driving box 51, a temperature sensor 52 and a central processor 53, the driving box 51 is disposed on the top of the heat dissipation assembly 40, a through hole 511 is disposed in the center of the bottom of the driving box 51, the temperature sensor 52 is disposed in the through hole 511, the central processor 53 is disposed in the driving box 51, and the central processor 53 is connected to the temperature sensor 52.

Drive box 51 is used for loading temperature sensor 52 and central processing unit 53, drive box 51 is located radiator unit 40's top, specifically be the top of locating radiator unit 40's dustcoat 42, temperature sensor 52 locates in the through-hole 511 of drive box 51 bottom, can sense the temperature of the gas that comes out from through-hole 511, thereby transmit the temperature signal of perception for central processing unit 53, central processing unit 53 makes the work of judging whether to send out the police dispatch newspaper or stop the ball bubble lamp according to the information that obtains again, avoid the inside lamp pearl 33 of ball bubble lamp to be burnt out.

More specifically, the mounting bracket 80 is of a mounting bracket type, and the mounting bracket 80 is arranged in the drive box 51.

In a further description, the mounting bracket 80 includes a clamping portion 81 and a main body 82, the main body 82 penetrates through the top of the driving box 51, the clamping portion 81 is connected to two ends of the main body 82, the clamping portion 81 is disposed between the heat dissipation assembly 40 and the driving box 51, and the heat dissipation assembly 40, the clamping portion 81 and the driving box 51 are fixedly connected.

Several types of installing support 80 are as long as be used for connecting radiator unit 40 and drive box 51, and is concrete, several types of installing support 80 have included clamping part 81 and main part 82, clamping part 81 locate radiator unit 40 with between the drive box 51, just radiator unit 40 clamping part 81 with drive box 51 fixed connection to realized drive box 51 and radiator unit 40's connection, main part 82 part passes the top of drive box 51, mainly used is connected with external wall or device etc. avoids drive box 51 directly to be connected with the external world, avoids drive box 51 too early emergence type to become or damage, and inside temperature sensor 52 or central treater 53 damage in the time.

In a further description, a second light emitting assembly 90 is further included, and the second light emitting assembly 90 is disposed at the bottom of the heat dissipation assembly 40.

The second light-emitting assembly 90 is arranged at the bottom of the heat dissipation assembly 40, specifically, the second light-emitting assembly 90 is arranged at the bottom of the heat sink 41, the intensity of the irradiation light of the bulb lamp is further increased by the second light-emitting assembly 90, and the second light-emitting assembly 90 is directly connected with the heat sink 41, so that the heat of the second light-emitting assembly 90 can be transmitted to the heat sink 41 for emission at the first time, and the second light-emitting assembly 90 is prevented from being burnt out.

On the other hand, the first light emitting assembly 30 and the second light emitting assembly 90 can be controlled independently, that is, the first light emitting assembly 30 or the second light emitting assembly 90 can be turned on respectively, or both the first light emitting assembly 30 and the second light emitting assembly 90 can be turned on simultaneously, so that three groups of lights with different illumination intensities and color temperatures are realized, and the lighting device is suitable for more scenes.

Further, the reflector further comprises a PC lamp shade 1a, the PC lamp shade 1a is disposed at the bottom of the reflector 10, and the central through pipe 20 passes through the PC lamp shade 1a and then is connected to the locking head 60.

Shine to external environment behind the light passes PC lamp shade 1a, through setting up the dizzy light value that alleviates light that PC lamp shade 1a can be fine for the light of shining out is softer, can not stabbing eyes, and specific PC lamp shade 1a is that the bottom of central siphunculus 20 is located to the cover, and is located the top of locking head 60, and locking head 60 provides the holding power for PC lamp shade 1a, avoids it to drop.

Although the present invention has been described with reference to the above embodiments, the scope of the present invention is not limited thereto, and modifications, substitutions and the like of the above members are intended to fall within the scope of the claims of the present invention without departing from the spirit of the present invention.

Claims

1. A high-power LED bulb lamp is characterized in that: the LED lamp comprises a reflecting cover, wherein a central through pipe is arranged in the reflecting cover, the first light-emitting assembly is slidably arranged on the outer side wall of the central through pipe, the top of the central through pipe is connected with a heat dissipation assembly, the top of the heat dissipation assembly is provided with a sensing assembly, the bottom of the central through pipe is connected with a locking head, and the bottom of the locking head is provided with a detachable filter screen;

2. The high-power LED bulb lamp according to claim 1, characterized in that: the central siphunculus still includes spout and constant head tank, and is a plurality of the spout is located the lateral wall of central siphunculus, it is a plurality of constant head tank evenly distributed in the both sides of spout.

3. The high-power LED bulb lamp according to claim 2, characterized in that: the first light-emitting component comprises a PCB, a limiting column and a lamp bead, the PCB is arranged in the sliding groove, the lamp bead is arranged on the PCB, the limiting column is arranged on two sides of the PCB, and the limiting column is inserted into the positioning groove.

4. The high-power LED bulb lamp according to claim 1, characterized in that: the radiating assembly comprises a radiator and an outer cover, the radiator is connected with the top of the central through pipe, and the outer cover is arranged on the periphery of the central through pipe.

5. The high-power LED bulb lamp according to claim 1, characterized in that: the induction component comprises a driving box, a temperature sensor and a central processor, the driving box is arranged at the top of the heat dissipation component, a through hole is formed in the center of the bottom of the driving box, the temperature sensor is arranged in the through hole, the central processor is arranged in the driving box, and the central processor is connected with the temperature sensor.

6. The high-power LED bulb lamp according to claim 5, wherein: the novel electric motor driving box further comprises a mounting bracket of the same type, and the mounting bracket of the same type is arranged in the driving box.

7. The high-power LED bulb lamp according to claim 6, wherein: the mounting bracket comprises a clamping part and a main body, wherein the main body penetrates through the top of the driving box, the two ends of the main body are connected with the clamping part, the clamping part is arranged between the heat dissipation assembly and the driving box, and the heat dissipation assembly, the clamping part and the driving box are fixedly connected.

8. The high-power LED bulb lamp according to claim 1, characterized in that: the LED lamp further comprises a second light-emitting assembly, and the second light-emitting assembly is arranged at the bottom of the heat dissipation assembly.

9. The high-power LED bulb lamp according to claim 1, characterized in that: still include the PC lamp shade, the PC lamp shade is located the bottom of reflector, just central siphunculus passes behind the PC lamp shade with the locking head is connected.