CN116146951B - LED industrial and mining lamp with embedded heat dissipation structure - Google Patents

Abstract

The application relates to the technical field of industrial and mining lamps, in particular to an LED industrial and mining lamp with an embedded heat dissipation structure, which comprises a lamp holder, wherein the upper end surface of the lamp holder is provided with a connecting hole in a penetrating way, one side of the inner wall of the connecting hole is fixedly provided with a lamp panel, the lower surface of the lamp panel extends to the outside of the connecting hole and is provided with a plurality of LED lamps, and the lower end of the lamp holder is fixedly provided with a lampshade.

Description

LED industrial and mining lamp with embedded heat dissipation structure

Technical Field

The application relates to the technical field of industrial and mining lamps, in particular to an LED industrial and mining lamp with an embedded heat dissipation structure.

Background

The LED industrial and mining lamp adopts the lamp panel with the LED bulb as the light source main body, the LED industrial and mining lamp is generally used in factories and warehouses, and the temperature of the lamp panel can influence the light efficiency of the LED bulb to a great extent during working, so the heat dissipation design of the LED industrial and mining lamp is very important, the lamp panel is usually dissipated by adding the heat dissipation fins on the surface of a lamp holder in the prior art, the passive heat dissipation mode can influence the heat dissipation effect because hot air cannot be taken away in time in the unsmooth air flowing environment, and when the lamp is used in summer, the lamp light generated by the industrial and mining lamp can attract a plurality of insects, and the insects are easy to be blocked in the adjacent heat dissipation fins when flying around the industrial and mining lamp, so the heat dissipation effect of the heat dissipation fins is adversely affected.

Disclosure of Invention

Aiming at the defects of the prior art, the application provides the LED industrial and mining lamp with the embedded heat dissipation structure, which solves the problems that in the prior art, when facing an environment with unsmooth air flow, the heat dissipation effect is affected because hot air cannot be taken away in time, and in summer, insects are easy to be blocked in adjacent heat dissipation fins to adversely affect the heat dissipation effect of the heat dissipation fins.

In order to achieve the above purpose, the technical scheme adopted by the application is as follows:

the LED industrial and mining lamp with the embedded heat dissipation structure comprises a lamp holder, wherein a connecting hole is formed in the upper end surface of the lamp holder in a penetrating manner, a lamp panel is fixedly arranged on one side of the inner wall of the connecting hole, the lower surface of the lamp panel extends to the outside of the connecting hole and is provided with a plurality of LED lamps, and a lampshade is fixedly arranged at the lower end of the lamp holder;

the LED lamp is characterized in that a sleeve is inserted and matched in the connecting hole, a heat radiating component used for radiating heat of the lamp panel and the LED lamp is installed in the sleeve, a circular plate is fixedly installed at the upper end of the sleeve, a mounting hole is formed in the upper surface of the circular plate in a penetrating mode, and a first filter screen is fixedly installed on one side of the inner wall of the mounting hole.

Preferably, the heat dissipation assembly comprises two brackets, wherein the two brackets are fixedly arranged on the other side of the inner wall of the sleeve, a first motor is movably arranged between the two brackets, and a heat dissipation fan is arranged on the output shaft sleeve of the first motor.

Preferably, the two opposite sides of the support are respectively provided with a rotating shaft in a rotating way, the first motor is fixedly arranged between the two rotating shafts, one rotating shaft body is sleeved with a gear, the upper surface of the support close to the gear is fixedly provided with a support plate, the upper surface of the support plate is provided with a sliding groove, a sliding block is arranged in the sliding groove in a sliding way, the upper surface of the sliding block is fixedly provided with a rack through an installation frame, and the rack is meshed with the gear;

the second motor is fixedly arranged on one side of the supporting plate, the screw rod is rotatably arranged between two sides of the inner wall of the sliding groove, the sliding block is arranged on one side of the screw rod body in a threaded mode, and one end of the screw rod penetrates through the supporting plate and is fixedly connected with an output shaft of the second motor.

Preferably, a guide plate is fixedly installed on the surface of each fan blade of the cooling fan, and each guide plate is obliquely arranged.

Preferably, each guide plate is provided with a first guide hole on one side surface, each first guide hole is provided with a second guide hole in a penetrating mode, and each second guide hole is obliquely arranged.

Preferably, the lower surfaces of the two brackets are fixedly provided with connecting rods, and the lower ends of the two connecting rods are fixedly provided with heat-conducting plates together.

Preferably, the upper surface of the heat conducting plate is provided with a plurality of fixing holes in a penetrating mode, and each fixing hole is internally provided with a heat conducting rod.

Preferably, a plurality of heat conducting rods are integrally arranged on one side, close to the lamp panel, of each heat conducting rod body.

Preferably, the surface of the lamp holder is provided with a plurality of first heat dissipation holes in a penetrating mode, the surface of the sleeve is provided with a plurality of second heat dissipation holes, and each second heat dissipation hole is internally and fixedly provided with a second filter screen.

Preferably, through grooves are formed in two sides of the upper surface of the circular plate, moving blocks are slidably matched in the two through grooves, pushing blocks are fixedly arranged on the upper surfaces of the two moving blocks, connecting frames are fixedly arranged on the lower surfaces of the two moving blocks, inserting columns are fixedly arranged on opposite sides of the two connecting frames, two inserting holes are fixedly arranged on the surface of the lamp holder and located at the positions of the two inserting columns, and the two inserting columns are respectively in penetrating fit with the corresponding two inserting holes;

a positioning rod is fixedly arranged between two sides of the inner wall of the through groove, the two moving blocks are respectively arranged on one side of the corresponding positioning rod body in a sliding mode, and springs are sleeved on the other sides of the two positioning rod bodies.

Compared with the prior art, the application has the following beneficial effects:

1. after opening the LED lamp, the staff starts radiating assembly, under radiating assembly's cooperation effect, the heat that lamp plate during operation produced can effectually discharge lamp stand outside, compare with the fin heat dissipation, avoided the condition emergence that influences radiating effect because of the hot air can't be taken away in time under the unsmooth environment of air flow, and, because radiating assembly sets up inside the sleeve, simultaneously because after the sleeve inserts in the connecting hole, its one end opening part is sheltered from by the lamp plate, the other end opening part is sheltered from by first filter screen, prevent external mosquito and radiating assembly to contact, and then avoid radiating assembly's radiating effect to receive the condition emergence of influence.

2. After radiator fan rotates, the staff starts first motor, makes its output shaft drive the lead screw and rotates, and pivoted lead screw makes the slider drive rack along spout direction removal through the mode that the screw precession, under the cooperation effect of rack and gear, first motor and radiator fan use the pivot to swing as the benchmark to radiator fan's heat dissipation scope has been increased, and the exhaust direction is single is avoided, thereby can reach better radiating effect.

3. Through setting up first louvre and second louvre, heat exhaust space has been increased for the heat that lamp plate during operation produced is discharged in the lamp stand more quick, insert respectively after inserting one of them jack at two inserted poles, make the sleeve fix in the connecting hole, prevent the sleeve from receiving the condition that breaks away from in the connecting hole when external force, when coming in winter, the external air temperature is lower, the staff pulls two ejector pads, make two inserted poles break away from in one of them jack that corresponds respectively, the spring atress compression, then the staff rotates the sleeve, when two inserted poles rotate to another jack that corresponds, the spring resets, make the inserted pole insert in another jack that corresponds, the sleeve is fixed in the connecting hole again this moment, and the connecting hole inner wall shelters from the second louvre, thereby come temporarily in winter, reduce the space that external cold air got into the connecting hole, thereby prevent that the radiating component from damaging because of the temperature is too low.

Drawings

FIG. 1 is a schematic diagram of the whole structure of an LED industrial and mining lamp with an embedded heat dissipation structure;

FIG. 2 is a schematic diagram showing the structure of the LED industrial and mining lamp with an embedded heat dissipation structure in a bottom view;

FIG. 3 is a schematic diagram of the front view structure of an LED industrial and mining lamp with an embedded heat dissipation structure;

FIG. 4 is a schematic perspective view of a cross-sectional structure of the LED industrial and mining lamp with an embedded heat dissipation structure in FIG. 2 A-A;

FIG. 5 is a schematic perspective view of the LED industrial and mining lamp with embedded heat dissipation structure in the cross section at the position B-B in FIG. 3;

FIG. 6 is an enlarged schematic view of the LED industrial and mining lamp with the embedded heat dissipation structure in FIG. 4;

FIG. 7 is an enlarged schematic view of the LED industrial and mining lamp with the embedded heat dissipation structure in FIG. 5;

fig. 8 is an enlarged schematic view of the structure of the LED mining lamp with the embedded heat dissipation structure in fig. 5 at C.

In the figure: 1. a lamp holder; 101. a connection hole; 2. a heat dissipation assembly; 201. a bracket; 2011. a rotating shaft; 2012. a gear; 2013. a support plate; 2014. a chute; 2015. a slide block; 2016. a mounting frame; 2017. a rack; 2018. a second motor; 2019. a screw rod; 202. a first motor; 203. a heat radiation fan; 2031. a guide plate; 20311. a first deflector aperture; 20312. a second deflector aperture; 3. a lamp panel; 301. an LED lamp; 4. a lamp shade; 5. a sleeve; 501. a circular plate; 502. a mounting hole; 6. a filter screen; 7. a connecting rod; 701. a heat conductive plate; 7011. a heat conduction rod; 70111. a heat conduction rod; 8. a first heat radiation hole; 801. a second heat radiation hole; 9. a through groove; 901. a moving block; 902. a pushing block; 903. a connecting frame; 904. inserting a column; 905. and a jack.

Detailed Description

The technical solutions of the embodiments of the present application will be clearly and completely described below in conjunction with the embodiments of the present application, and it is apparent that the described embodiments are only some embodiments of the present application, not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the application without making any inventive effort, are intended to be within the scope of the application.

As shown in fig. 1, 2, 3 and 4, the LED industrial and mining lamp with the embedded heat dissipation structure comprises a lamp holder 1, wherein a connecting hole 101 is formed in the upper end surface of the lamp holder 1 in a penetrating manner, a lamp panel 3 is fixedly arranged on one side of the inner wall of the connecting hole 101, the lower surface of the lamp panel 3 extends to the outside of the connecting hole 101 and is provided with a plurality of LED lamps 301, and a lampshade 4 is fixedly arranged at the lower end of the lamp holder 1;

a sleeve 5 is inserted and matched in the connecting hole 101, a heat radiation component 2 for radiating heat of the lamp panel 3 and the LED lamp 301 is installed in the sleeve 5, a circular plate 501 is fixedly installed at the upper end of the sleeve 5, a mounting hole 502 is formed in the upper surface of the circular plate 501 in a penetrating mode, and a first filter screen 6 is fixedly installed on one side of the inner wall of the mounting hole 502.

Through the above technical scheme, during the use, first staff inserts sleeve 5 in connecting hole 101, the laminating of plectane 501 lower surface and lamp stand 1 upper surface, then hoist lamp stand 1 in the working position, afterwards remove the electric wire and make it pass from the opening part of lamp shade 4 lower surface and be connected with lamp plate 3, after the circular telegram, lamp plate 3 supplies power to LED lamp 301, make LED lamp 301 open and carry out the work of illumination, after opening LED lamp 301, staff starts radiator unit 2, under radiator unit 2's cooperation effect, lamp plate 3 during operation heat that produces can effectually discharge lamp stand 1 outside, compare with the fin heat dissipation, avoided the circumstances that can't be taken away in time because of the hot air flow influences the effect of heat dissipation under the unsmooth environment of air flow and take place, and, because radiator unit 2 sets up inside sleeve 5, simultaneously because after sleeve 5 inserts in connecting hole 101, its one end opening part is sheltered from by lamp plate 3, the other end opening part is by first filter screen 6, prevent that the mosquito from contacting with radiator unit 2 from the condition that radiator unit 2 receives the influence takes place.

As shown in fig. 4 and 5, in the present embodiment, the heat dissipation assembly 2 includes two brackets 201, both the two brackets 201 are fixedly mounted on the other side of the inner wall of the sleeve 5, a first motor 202 is movably mounted between the two brackets 201, and a heat dissipation fan 203 is arranged on an output shaft sleeve of the first motor 202. After the LED lamp 301 is turned on, the worker starts the first motor 202 to rotate the heat radiation fan 203 by the output shaft thereof, and the heat radiation fan 203 rotated discharges the heat emitted from the lamp panel 301 when it operates to the outside of the lamp socket 1.

As shown in fig. 5, 7 and 8, it should be noted that the opposite sides of the two brackets 201 are rotatably provided with rotating shafts 2011, the first motor 202 is fixedly installed between the two rotating shafts 2011, one of the rotating shafts 2011 is sleeved with a gear 2012, a support plate 2013 is fixedly installed on the upper surface of the bracket 201 near the gear 2012, a sliding groove 2014 is formed in the upper surface of the support plate 2013, a sliding block 2015 is slidably arranged in the sliding groove 2014, a rack 2017 is fixedly installed on the upper surface of the sliding block 2015 through a mounting rack 2016, and the rack 2017 is meshed with the gear 2012;

a second motor 2018 is fixedly arranged on one side of the support plate 2013, a screw rod 2019 is rotatably arranged between two sides of the inner wall of the sliding groove 2014, a sliding block 2015 is arranged on one side of a rod body of the screw rod 2019 in a threaded mode, and one end of the screw rod 2019 penetrates through the support plate 2013 and is fixedly connected with an output shaft of the second motor 2018. After the cooling fan 203 rotates, a worker starts the first motor 202, the output shaft of the first motor drives the screw rod 2019 to rotate, the rotating screw rod 2019 enables the sliding block 2015 to drive the rack 2017 to move along the direction of the sliding groove 2014 in a threaded screwing mode, under the matching effect of the rack 2017 and the gear 2012, the first motor 202 and the cooling fan 203 swing by taking the rotating shaft 2011 as a reference, so that the cooling range of the cooling fan 203 is increased, the exhaust direction is prevented from being single, and a better cooling effect can be achieved.

A guide plate 2031 is fixedly arranged on the surface of each fan blade of the cooling fan 203, and each guide plate 2031 is obliquely arranged;

a first diversion hole 20311 is formed in one side surface of each guide plate 2031, a second diversion hole 20312 is formed in the inner wall of each first diversion hole 20311 in a penetrating mode, and each second diversion hole 20312 is obliquely arranged. By arranging the guide plate 2031 on each blade surface of the cooling fan 203 in an inclined manner, when the cooling fan 203 is operated, part of the hot air passing through the blade surfaces of the cooling fan can flow along the direction of the guide plate 2031, so that the flowing direction of the hot air becomes dispersed, the contact range between the dispersed hot air and the air is increased, the temperature reduction rate of the cooling fan is increased, and the cooling effect of the cooling fan 203 is enhanced.

When the guide plate 2031 guides the hot air flow, part of the hot air flow can flow into the first guide hole 20311 and then be discharged from the second guide hole 20312 provided obliquely, which makes the hot air flow more dispersed, and the range of contact with air further increases, further enhancing the heat radiation effect of the heat radiation fan 203.

As shown in fig. 4 and 5, in the specific arrangement, the lower surfaces of the two brackets 201 are fixedly provided with connecting rods 7, and the lower ends of the two connecting rods 7 are fixedly provided with heat-conducting plates 701 together;

the upper surface of the heat conducting plate 701 is provided with a plurality of fixing holes in a penetrating way, and a heat conducting rod 7011 is fixedly arranged in each fixing hole;

a plurality of heat conducting rods 70111 are integrally arranged on one side of each heat conducting rod 7011, close to the lamp panel 3. By providing the heat conductive plate 701, the heat generated when the lamp panel 3 operates can be contacted with the heat conductive plate 701 and quickly transferred to the position of the heat radiation fan 203, thereby increasing the heat radiation efficiency.

By providing the heat conduction rod 7011, the area of the heat conduction plate 701 in contact with heat is greatly increased, and the heat conduction efficiency of the heat conduction plate 701 is increased.

By providing the heat conduction rod 70111 such that the area of the heat conduction plate 701 in contact with the heat increases again, the heat conduction efficiency of the heat conduction plate 701 is further increased.

It can be understood that in the present application, the surface of the lamp holder 1 is provided with a plurality of first heat dissipation holes 8, the surface of the sleeve 5 is provided with a plurality of second heat dissipation holes 801, and a second filter screen is fixedly installed in each second heat dissipation hole 801. Through setting up first louvre 801 and second louvre 801, increased heat exhaust space for the heat that lamp plate 3 during operation produced can be more quick follow lamp stand 1 in the discharge.

As shown in fig. 1, fig. 4, fig. 5 and fig. 6, when in specific arrangement, through grooves 9 are formed on two sides of the upper surface of a circular plate 501, moving blocks 901 are slidably matched in the two through grooves 9, pushing blocks 902 are fixedly arranged on the upper surfaces of the two moving blocks 901, connecting frames 903 are fixedly arranged on the lower surfaces of the two moving blocks 901, inserting columns 904 are fixedly arranged on opposite sides of the two connecting frames 903, two inserting holes 905 are fixedly arranged on the surface of a lamp holder 1 and positioned at the positions of the two inserting columns 904, and the two inserting columns 904 are respectively in penetrating fit with the corresponding two inserting holes 905;

a positioning rod 906 is fixedly arranged between two sides of the inner wall of the through groove 9, the two moving blocks 901 are respectively arranged on one side of a rod body of the corresponding positioning rod 906 in a sliding mode, and springs 907 are sleeved on the other side of the rod body of the positioning rod 906. After the two inserting posts 904 are inserted into one of the corresponding inserting holes 905 respectively, the sleeve 5 is fixed in the connecting hole 101, the sleeve 5 is prevented from being separated from the connecting hole 101 when being subjected to external force, when the outside air temperature is low in winter, a worker pulls the two pushing blocks 902 to separate the two inserting posts from the corresponding inserting holes 905 respectively, the spring 907 is stressed and compressed, then the worker rotates the sleeve 5, when the two inserting posts 904 are rotated to the other corresponding inserting hole 905, the spring 907 is reset, the inserting posts 904 are inserted into the other corresponding inserting hole 905, at the moment, the sleeve 5 is fixed in the connecting hole 101 again, the inner wall of the connecting hole 101 shields the second heat dissipation hole 801, so that the space for entering the connecting hole 101 by outside cold air is temporarily reduced in winter, and the heat dissipation assembly 2 is prevented from being damaged due to the low temperature.

The working principle of the LED industrial and mining lamp with the embedded heat dissipation structure is as follows:

during the use, first, the staff inserts sleeve 5 in connecting hole 101, the laminating of plectane 501 lower surface and lamp stand 1 upper surface, then hoist lamp stand 1 in the working position, afterwards remove the electric wire and make it pass from the opening part of lamp shade 4 lower surface and be connected with lamp plate 3, after the circular telegram, lamp plate 3 supplies power to LED lamp 301, make the LED lamp open and carry out illumination work, after opening the LED lamp, the staff starts radiator unit 2, under radiator unit 2's cooperation effect, the heat that LED lamp plate during operation produced can effectually discharge lamp stand 1 outside, compare with the fin heat dissipation, avoided the condition that influences the radiating effect because of can't be taken away in time under the unsmooth environment of air flow takes place, and, because radiator unit 2 sets up inside sleeve 5, simultaneously because sleeve 5 inserts in connecting hole 101 afterwards, its one end opening part is sheltered from by lamp plate 3, the other end opening part is sheltered from by first filter screen 6, prevent that external mosquito from contacting with radiator unit 2, the condition that radiator unit 2's radiating effect receives the influence takes place.

The foregoing examples of the present application are merely illustrative of the present application and are not intended to limit the embodiments of the present application, and other variations or modifications of various forms may be made by those skilled in the art based on the foregoing description, and it is not intended to be exhaustive of all embodiments, and all obvious variations or modifications that come within the scope of the application are defined by the following claims.

Claims (8)

1. The utility model provides an interior embedded heat radiation structure LED industrial and mining lamp, includes lamp stand (1), its characterized in that: the LED lamp comprises a lamp holder (1), wherein a connecting hole (101) is formed in the upper end surface of the lamp holder (1) in a penetrating manner, a lamp panel (3) is fixedly arranged on one side of the inner wall of the connecting hole (101), the lower surface of the lamp panel (3) extends to the outside of the connecting hole (101) and is provided with a plurality of LED lamps (301), and a lampshade (4) is fixedly arranged at the lower end of the lamp holder (1);

a sleeve (5) is inserted and matched in the connecting hole (101), a heat radiating component (2) for radiating heat of the lamp panel (3) and the LED lamp (301) is installed in the sleeve (5), a circular plate (501) is fixedly installed at the upper end of the sleeve (5), a mounting hole (502) is formed in the upper surface of the circular plate (501) in a penetrating mode, and a first filter screen (6) is fixedly installed on one side of the inner wall of the mounting hole (502);

a plurality of first radiating holes (8) are formed in the surface of the lamp holder (1) in a penetrating manner, a plurality of second radiating holes (801) are formed in the surface of the sleeve (5), and a second filter screen is fixedly arranged in each second radiating hole (801);

through grooves (9) are formed in two sides of the upper surface of the circular plate (501), moving blocks (901) are slidably matched in the two through grooves (9), pushing blocks (902) are fixedly arranged on the upper surfaces of the two moving blocks (901), connecting frames (903) are fixedly arranged on the lower surfaces of the two moving blocks (901), inserting columns (904) are fixedly arranged on the opposite sides of the two connecting frames (903), two inserting columns (905) are fixedly arranged on the surface of the lamp holder (1) and located at the positions of the two inserting columns (904), and the two inserting columns (904) are respectively matched with the corresponding two inserting columns (905) in a penetrating mode;

a positioning rod (906) is fixedly arranged between two sides of the inner wall of the through groove (9), the two moving blocks (901) are respectively arranged on one side of a rod body of the corresponding positioning rod (906) in a sliding mode, and springs (907) are sleeved on the other side of the rod body of the positioning rod (906).

2. The LED industrial and mining lamp with an embedded heat dissipation structure according to claim 1, wherein: the heat dissipation assembly (2) comprises two supports (201), the two supports (201) are fixedly arranged on the other side of the inner wall of the sleeve (5), a first motor (202) is movably arranged between the two supports (201), and a heat dissipation fan (203) is arranged on an output shaft sleeve of the first motor (202).

3. The LED industrial and mining lamp with the embedded heat dissipation structure as set forth in claim 2, wherein: the two supports (201) are rotatably mounted on opposite sides of the two supports (201), the first motor (202) is fixedly mounted between the two shafts (2011), a gear (2012) is sleeved on one shaft body of the shaft (2011), a support plate (2013) is fixedly mounted on the upper surface of the support (201) close to the gear (2012), a sliding groove (2014) is formed in the upper surface of the support plate (2013), a sliding block (2015) is arranged in the sliding groove (2014) in a sliding mode, a rack (2017) is fixedly mounted on the upper surface of the sliding block (2015) through a mounting frame (2016), and the rack (2017) is meshed with the gear (2012);

a second motor (2018) is fixedly arranged on one side of the supporting plate (2013), a screw rod (2019) is rotatably arranged between two sides of the inner wall of the sliding groove (2014), the threads of the sliding block (2015) are arranged on one side of a shaft body of the screw rod (2019), and one end of the screw rod (2019) penetrates through the supporting plate (2013) and is fixedly connected with an output shaft of the second motor (2018).

4. The LED industrial and mining lamp with the embedded heat dissipation structure as set forth in claim 2, wherein: guide plates (2031) are fixedly arranged on the surfaces of all fan blades of the cooling fan (203), and each guide plate (2031) is obliquely arranged.

5. The LED industrial and mining lamp with the embedded heat dissipation structure as set forth in claim 4, wherein: first guide holes (20311) are formed in one side surface of each guide plate (2031), second guide holes (20312) are formed in the inner wall of each first guide hole (20311) in a penetrating mode, and each second guide hole (20312) is obliquely arranged.

6. The LED industrial and mining lamp with the embedded heat dissipation structure as set forth in claim 2, wherein: the lower surfaces of the two brackets (201) are fixedly provided with connecting rods (7), and the lower ends of the two connecting rods (7) are fixedly provided with heat-conducting plates (701) together.

7. The LED industrial and mining lamp with the embedded heat dissipation structure as set forth in claim 6, wherein: the upper surface of the heat conduction plate (701) is provided with a plurality of fixing holes in a penetrating mode, and a heat conduction rod (7011) is fixedly installed in each fixing hole.

8. The LED industrial and mining lamp with the embedded heat dissipation structure as set forth in claim 7, wherein: and a plurality of heat conducting rods (70111) are integrally arranged on one side, close to the lamp panel (3), of each heat conducting rod (7011).