CN116857588A

CN116857588A - Direct-insert type efficient new energy car lamp with operation monitoring and regulating functions

Info

Publication number: CN116857588A
Application number: CN202310929350.5A
Authority: CN
Inventors: 庄翼; 杨芬; 陆蒙蒙; 蒋学峰
Original assignee: CHANGZHOU GUANGMING LIGHT BULB CO LTD
Current assignee: CHANGZHOU GUANGMING LIGHT BULB CO LTD
Priority date: 2023-07-26
Filing date: 2023-07-26
Publication date: 2023-10-10

Abstract

The invention is suitable for the field of direct-insert type high-efficiency new energy vehicle lamps, and provides a direct-insert type high-efficiency new energy vehicle lamp with an operation monitoring regulation function, which comprises an LED lamp holder, wherein the LED lamp holder is electrically connected with a temperature sensor, and the direct-insert type high-efficiency new energy vehicle lamp further comprises: the heat-conducting metal sleeve is fixedly connected with a mounting seat, the mounting seat is connected with a mechanism box, the mechanism box is rotationally connected with a rotary pipe, an air cooling assembly is sleeved outside the rotary pipe, the air cooling assembly is rotationally connected with the inner end surface of the mechanism box, and the rotary pipe and the air cooling assembly are jointly connected with a driving mechanism; according to the direct-insert type high-efficiency new energy vehicle lamp with the operation monitoring and regulating functions, when the temperature of the LED lamp rises to a certain value, the temperature sensor controls the water pump to start through the controller, the water pump absorbs water through the water pipe, the water pipe sucks water flow into the metal fan plate, the metal fan plate cools the water flow, and the problem that the heat dissipation efficiency of the existing direct-insert type high-efficiency new energy vehicle lamp is low is solved.

Description

Direct-insert type efficient new energy car lamp with operation monitoring and regulating functions

Technical Field

The invention belongs to the field of direct-insert type high-efficiency new energy vehicle lamps, and particularly relates to a direct-insert type high-efficiency new energy vehicle lamp with an operation monitoring regulation function.

Background

The direct-insert type LED headlight is novel lighting equipment and is mainly characterized by adopting an LED technology and having the advantages of high brightness, low energy consumption, long service life and the like. Compared with the traditional lamp, the direct-insert type LED headlight is more energy-saving and environment-friendly, and is more economical and practical.

The existing LED car lamp is generally provided with two circuit boards, LED lamp beads are arranged on the surfaces of the two circuit boards, which are opposite to each other, and a radiator is arranged between the two circuit boards for effective heat dissipation, so that the existing heat dissipation device can conduct water cooling by inserting one end of the radiator into water when the lamp body dissipates heat, but the temperature of a water area close to the end of the radiator rises faster, and the water temperature influences the water cooling rate after being heated.

In order to avoid the above technical problems, it is necessary to provide an in-line efficient new energy vehicle lamp with operation monitoring and controlling functions to overcome the defects in the prior art.

Disclosure of Invention

The invention aims to provide a direct-insert type high-efficiency new energy vehicle lamp with an operation monitoring and regulating function, and aims to solve the problems that when an existing heat dissipating device dissipates heat of a lamp body, one end of a heat dissipating body is often inserted into water for water cooling, but the temperature of a water area close to the end of the heat dissipating body rises faster, and the water cooling rate is influenced after the water temperature is heated.

The invention is realized in such a way that the direct-insert type high-efficiency new energy vehicle lamp with the operation monitoring and regulating functions comprises an LED lamp holder, wherein the LED lamp holder is provided with an LED lamp, and the LED lamp holder is electrically connected with a temperature sensor and further comprises:

the heat-conducting metal sleeve is in threaded connection with the LED lamp holder, the mounting seat is fixedly connected with the mounting seat, the mounting seat is connected with the mechanism box, the mechanism box is rotationally connected with a rotating pipe, an air cooling assembly is sleeved outside the rotating pipe, the air cooling assembly is rotationally connected with the inner end face of the mechanism box, the rotating pipe and the air cooling assembly are jointly connected with a driving mechanism, the driving mechanism is used for driving the rotating pipe and the air cooling assembly to reversely rotate, and the driving mechanism is electrically connected with the temperature sensor;

the LED lamp holder is connected with a plurality of heat conducting rods, the heat conducting rods are inserted into the water tank, a drainage mechanism is arranged between the water tank and the rotating pipe, and the drainage mechanism can enable water flow to circularly flow in the water tank and the rotating pipe and cool the water flow;

the rotary pipe is communicated with two transverse pipes, the transverse pipes are connected with a stirring mechanism in a sliding manner, the stirring mechanism continuously rotates by taking the rotary pipe as a rotation center, the stirring mechanism can slide back and forth relative to the transverse pipes, a spraying mechanism is connected between the transverse pipes and the stirring mechanism, and the spraying mechanism can spray water flow in the rotary pipe outwards;

the mounting seat is externally connected with a circuit box, the circuit box is connected with a socket, and the socket is electrically connected with the LED lamp.

According to a further technical scheme, the air cooling assembly comprises a rotating sleeve, fan blades and an air guide pipe;

the rotary sleeve is rotationally connected with the inner end face of the mechanism box, the rotary sleeve is sleeved outside the rotary pipe, the rotary sleeve is fixedly connected with a plurality of fan blades, and a guide pipe is communicated between the heat conducting metal sleeve and the mechanism box.

According to a further technical scheme, the driving mechanism comprises a motor, a gear transmission pair and a belt transmission pair;

the motor is fixedly connected with the inner end surface of the mechanism box, an output shaft of the motor is in transmission connection with the rotating sleeve through a gear transmission pair, and the belt transmission pair is arranged between the output shaft of the motor and the rotating pipe.

According to a further technical scheme, the drainage mechanism comprises a water pump, a spiral water pipe, a metal fan plate and a water pipe;

the water outlet of the water pump is rotationally connected with one end of the rotating pipe, the water inlet of the water pump is communicated with the spiral water pipe, the spiral water pipe is arranged in the mechanism box, a plurality of metal fan plates are annularly arranged on the side wall of the mounting seat, the inner cavities of the metal fan plates are communicated with the spiral water pipe and the water pipe, the water pipe is arranged in the mounting seat, and the water pump is electrically connected with the temperature sensor.

According to a further technical scheme, the stirring mechanism comprises a jacket, a stirring rod, a one-way air inlet valve, a one-way air outlet valve and a limiting assembly;

the one end fixedly connected with piston of violently managing, overcoat and piston sliding seal connection, the one end of overcoat is provided with one-way admission valve, the overcoat annular is provided with a plurality of one-way air outlet valves, just the overcoat is connected with a plurality of puddlers, spacing subassembly is used for driving the overcoat and reciprocates along violently managing.

According to a further technical scheme, the limiting assembly comprises a spring, a baffle and a ring sleeve;

the outer sleeve is fixedly connected with the baffle plate, the annular sleeve is rotationally connected with the rotating pipe, springs are arranged between the outer sleeve and the annular sleeve, the eccentric ring is arranged outside the rotating pipe, and the baffle plate is abutted to the eccentric ring.

Further technical scheme, spray mechanism includes shower and connecting rod, the shower rotates with the violently pipe to be connected, pass through the rubber tube intercommunication between shower and the violently pipe, the connecting rod rotates to be connected between shower and overcoat.

According to a further technical scheme, the end face of the mechanism box is provided with a plurality of air guide holes, and the air guide holes are all arranged between two adjacent metal fan plates.

According to a further technical scheme, the heat conducting rod is a copper rod.

According to a further technical scheme, a plurality of air guide grooves are formed in one end, close to the heat conducting metal sleeve, of the LED lamp holder.

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

1. according to the direct-insert type high-efficiency new energy car lamp with the operation monitoring and regulating functions, when the temperature of the LED lamp is increased, tap water in the water tank dissipates heat of the heat conducting rod;

2. according to the direct-insert type high-efficiency new energy vehicle lamp with the operation monitoring and regulating functions, when the temperature of the LED lamp rises to a certain value, the temperature sensor controls the water pump to start through the controller, the water pump absorbs water through the water pipe, the water pipe sucks water flow into the metal fan plate, the metal fan plate cools the water flow, and then the water flow is further cooled through the spiral water pipe;

3. according to the direct-insert type high-efficiency new energy vehicle lamp with the operation monitoring and regulating functions, the temperature sensor is controlled by the controller to start the motor, the motor drives the rotary pipe to rotate through the belt transmission pair, tap water in the rotary pipe enters the spray pipe through the transverse pipe and then is sprayed outwards through the spray pipe, and the water flow heat dissipation rate is increased; meanwhile, under the drive of the outer sleeve, the connecting rod pulls the spray pipe to swing back and forth, so that the water flow spraying range is further increased, and the water flow heat dissipation efficiency is improved;

4. according to the direct-insert type high-efficiency new energy vehicle lamp with the operation monitoring and regulating functions, when the outer sleeve slides outwards along the transverse tube under the action of the eccentric ring, the air pressure in the outer sleeve is reduced, and tap water in the water tank enters the outer sleeve through the one-way air inlet valve; under the action of the tensile force of the spring, the baffle drives the outer sleeve to slide inwards along the transverse pipe, so that the air pressure in the outer sleeve is increased, tap water in the water tank is discharged through the one-way air outlet valve, so that water close to the side wall of the water tank is mixed in the middle, the mixing effect of the tap water in the water tank is further improved, and the heat dissipation rate of the water flow in the water tank is improved;

5. according to the direct-insert type high-efficiency new energy vehicle lamp with the operation monitoring and regulating functions, the rotating tube drives the transverse tube to rotate, the transverse tube drives the outer sleeve to synchronously rotate, and the outer sleeve drives the stirring rod to mix and stir tap water in the water tank, so that the tap water is mixed, and heat dissipation of the heat conducting rod is accelerated;

6. according to the direct-insert type high-efficiency new energy vehicle lamp with the operation monitoring and regulating functions, the output shaft of the motor drives the rotating sleeve to rotate through the gear transmission pair, the rotating sleeve drives the fan blades to rotate, the fan blades generate wind power, and cold air enters the heat-conducting metal sleeve through the air guide pipe, so that air cooling and heat dissipation are carried out on the heat-conducting metal sleeve and the LED lamp holder; meanwhile, the fan blades output wind power through the wind guide holes, so that the metal fan plate is subjected to wind cooling and heat dissipation, and wind power generated by the fan blades is used for carrying out wind cooling and heat dissipation on the spiral water pipe.

Drawings

FIG. 1 is a schematic diagram of the structure of the present invention;

FIG. 2 is a front cross-sectional view of FIG. 1;

FIG. 3 is a cross-sectional view of the mounting base and the mechanism housing;

FIG. 4 is an enlarged schematic view of the area A in FIG. 2;

FIG. 5 is a schematic illustration of the connection of the stirring mechanism and the spraying mechanism;

fig. 6 is a schematic structural view of the stirring mechanism.

In the accompanying drawings: 1. an LED lamp holder; 2. an LED lamp; 3. a thermally conductive metal sleeve; 4. a mounting base; 5. a driving mechanism; 51. a motor; 52. a gear transmission pair; 53. a belt drive pair; 6. a drainage mechanism; 61. a water pump; 62. a spiral water pipe; 63. a metal fan plate; 64. a water pipe; 7. a stirring mechanism; 71. a jacket; 72. a stirring rod; 73. a one-way air inlet valve; 74. a one-way air outlet valve; 75. a limit component; 751. a spring; 752. a baffle; 753. a ring sleeve; 8. a spraying mechanism; 81. a shower pipe; 82. a connecting rod; 9. an air cooling assembly; 91. a rotating sleeve; 92. a fan blade; 93. an air guide pipe; 10. a mechanism box; 11. a rotary pipe; 12. a transverse tube; 13. a water tank; 14. an air guide hole; 15. a heat conduction rod; 16. a circuit box; 17. a socket; 18. an air guide groove.

Detailed Description

The present invention 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 invention 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 invention.

Specific implementations of the invention are described in detail below in connection with specific embodiments.

As shown in fig. 1-6, the direct-insert type high-efficiency new energy vehicle lamp with an operation monitoring and regulating function provided by the invention comprises an LED lamp holder 1, wherein an LED lamp 2 is arranged on the LED lamp holder 1, and the LED lamp holder 1 is electrically connected with a temperature sensor, and further comprises:

the heat-conducting metal sleeve 3 is in threaded connection with the LED lamp holder 1, the heat-conducting metal sleeve 3 is fixedly connected with the mounting seat 4, the mounting seat 4 is connected with the mechanism box 10, the mechanism box 10 is rotationally connected with the rotary pipe 11, the air cooling component 9 is sleeved outside the rotary pipe 11, the air cooling component 9 is rotationally connected with the inner end surface of the mechanism box 10, the rotary pipe 11 and the air cooling component 9 are jointly connected with the driving mechanism 5, the driving mechanism 5 is used for driving the rotary pipe 11 to reversely rotate with the air cooling component 9, and the driving mechanism 5 is electrically connected with the temperature sensor;

the LED lamp holder 1 is connected with a plurality of heat conducting rods 15, the heat conducting rods 15 are inserted into the water tank 13, a drainage mechanism 6 is arranged between the water tank 13 and the rotary pipe 11, and the drainage mechanism 6 can enable water flow to circulate in the water tank 13 and the rotary pipe 11 and cool;

the rotary pipe 11 is communicated with two transverse pipes 12, the transverse pipes 12 are connected with the stirring mechanism 7 in a sliding manner, the stirring mechanism 7 continuously rotates by taking the rotary pipe 11 as a rotation center, the stirring mechanism 7 can slide back and forth relative to the transverse pipes 12, a spraying mechanism 8 is connected between the transverse pipes 12 and the stirring mechanism 7, and the spraying mechanism 8 can spray water flow in the rotary pipe 11 outwards;

the mounting seat 4 is externally connected with a circuit box 16, the circuit box 16 is connected with a socket 17, and the socket 17 is electrically connected with the LED lamp 2.

When the LED lamp 2 temperature rises, tap water in the water tank 13 dissipates heat to the heat conducting rod 15, when the LED lamp 2 temperature rises to a certain value, the drainage mechanism 6 can enable water flow to circularly flow in the water tank 13 and the rotary pipe 11 and cool, the temperature sensor controls the driving mechanism 5 to start, the driving mechanism 5 is used for driving the rotary pipe 11 to reversely rotate with the air cooling assembly 9, the spraying mechanism 8 can spray water flow in the rotary pipe 11 outwards, and meanwhile the air cooling assembly 9 conducts air cooling heat dissipation to the heat conducting metal sleeve 3, so that heat dissipation efficiency is improved.

In the embodiment of the present invention, as a preferred embodiment of the present invention, the air cooling assembly 9 includes a rotor 91, fan blades 92, and an air guiding duct 93;

the rotating sleeve 91 is rotatably connected with the inner end surface of the mechanism box 10, the rotating sleeve 91 is sleeved outside the rotating pipe 11, the rotating sleeve 91 is fixedly connected with a plurality of fan blades 92, and an air guide pipe 93 is communicated between the heat conducting metal sleeve 3 and the mechanism box 10;

in the air cooling assembly 9, the rotating sleeve 91 drives the fan blades 92 to rotate, the fan blades 92 generate wind power, and cold air enters the heat conducting metal sleeve 3 through the air guide pipe 93, so that the heat conducting metal sleeve 3 and the LED lamp holder 1 are subjected to air cooling and heat dissipation.

In the embodiment of the present invention, as a preferred embodiment of the present invention, the driving mechanism 5 includes a motor 51, a gear pair 52, and a belt pair 53;

the motor 51 is fixedly connected with the inner end surface of the mechanism box 10, the output shaft of the motor 51 is in transmission connection with the rotary sleeve 91 through the gear transmission pair 52, and the belt transmission pair 53 is arranged between the output shaft of the motor 51 and the rotary pipe 11;

in the driving mechanism 5, the temperature sensor is controlled by the controller to start the motor 51, the motor 51 drives the rotary pipe 11 to rotate through the belt transmission pair 53, the rotary pipe 11 drives the transverse pipe 12 and the spraying mechanism 8 to rotate, the transverse pipe 12 drives the stirring mechanism 7 to stir and mix tap water in the water tank 13, the water cooling efficiency of the tap water on the heat conducting rod 15 is improved, and meanwhile, the spraying mechanism 8 can spray water in the rotary pipe 11 outwards, so that the heat dissipation of the tap water is improved; and the output shaft of the motor 51 drives the rotary sleeve 91 to rotate through the gear transmission pair 52.

In the embodiment of the present invention, as a preferred embodiment of the present invention, the drainage mechanism 6 includes a water pump 61, a spiral water pipe 62, a metal fan 63, and a water pipe 64;

the water outlet of the water pump 61 is rotationally connected with one end of the rotary pipe 11, the water inlet of the water pump 61 is communicated with a spiral water pipe 62, the spiral water pipe 62 is arranged in the mechanism box 10, a plurality of metal fan plates 63 are annularly arranged on the side wall of the mounting seat 4, the inner cavities of the metal fan plates 63 are communicated with the spiral water pipe 62 and a water pipe 64, the water pipe 64 is arranged in the mounting seat 4, and the water pump 61 is electrically connected with the temperature sensor;

in drainage mechanism 6, temperature-sensing ware passes through controller control water pump 61 and starts, and water pump 61 absorbs water through water pipe 64, and water pipe 64 absorbs the rivers to metal fan board 63, and metal fan board 63 cools down rivers, and later rivers pass through spiral water pipe 62 and further cool down, and later rivers enter into the commentaries on classics pipe 11, spray mechanism 8 sprays the cooling down to rivers.

In the embodiment of the present invention, as a preferred embodiment of the present invention, the stirring mechanism 7 includes a casing 71, a stirring rod 72, a unidirectional air inlet valve 73, a unidirectional air outlet valve 74 and a limiting assembly 75;

one end of the transverse tube 12 is fixedly connected with a piston 76, the outer sleeve 71 is in sliding sealing connection with the piston 76, one end of the outer sleeve 71 is provided with a one-way air inlet valve 73, the outer sleeve 71 is annularly provided with a plurality of one-way air outlet valves 74, the outer sleeve 71 is connected with a plurality of stirring rods 72, and the limiting assembly 75 is used for driving the outer sleeve 71 to slide back and forth along the transverse tube 12;

in the stirring mechanism 7, the rotary pipe 11 drives the transverse pipe 12 to rotate, at the moment, the transverse pipe 12 drives the outer sleeve 71 to synchronously rotate, and the outer sleeve 71 drives the stirring rod 72 to mix and stir tap water in the water tank 13, so that the tap water is mixed, and the heat dissipation of the heat conducting rod 15 is accelerated;

the limiting component 75 is used for driving the outer sleeve 71 to slide reciprocally along the transverse pipe 12, at this time, the air pressure of the outer sleeve 71 changes, when the outer sleeve 71 slides outwards along the transverse pipe 12, the air pressure in the outer sleeve 71 is reduced, tap water in the water tank 13 enters the outer sleeve 71 through the one-way air inlet valve 73, then the outer sleeve 71 slides inwards along the transverse pipe 12, so that the air pressure in the outer sleeve 71 is increased, tap water in the water tank 13 is discharged through the one-way air outlet valve 74, and water close to the side wall of the water tank 13 is mixed towards the middle, so that the tap water mixing effect in the water tank 13 is further improved.

In the embodiment of the present invention, as a preferred embodiment of the present invention, the limiting assembly 75 includes a spring 751, a baffle 752, and a collar 753;

the outer sleeves 71 are fixedly connected with the baffle plates 752, the ring sleeves 753 are rotationally connected with the rotary tube 11, springs 751 are arranged between the outer sleeves 71 and the ring sleeves 753, the eccentric rings 754 are arranged outside the rotary tube 11, and the baffle plates 752 are abutted against the eccentric rings 754;

in the limiting assembly 75, when the outer sleeve 71 slides outwards along the transverse tube 12 under the action of the eccentric ring 754, the air pressure in the outer sleeve 71 is reduced, and tap water in the water tank 13 enters the outer sleeve 71 through the one-way air inlet valve 73; under the action of the tension of the spring 751, the baffle 752 drives the outer sleeve 71 to slide inwards along the transverse pipe 12, so that the air pressure in the outer sleeve 71 is increased, tap water in the water tank 13 is discharged through the one-way air outlet valve 74, and water close to the side wall of the water tank 13 is mixed towards the middle, so that the tap water mixing effect in the water tank 13 is further improved.

In the embodiment of the present invention, as a preferred embodiment of the present invention, the spraying mechanism 8 includes a spraying pipe 81 and a connecting rod 82, the spraying pipe 81 is rotatably connected with the transverse pipe 12, the spraying pipe 81 is communicated with the transverse pipe 12 through a rubber pipe, and the connecting rod 82 is rotatably connected between the spraying pipe 81 and the outer sleeve 71;

in the spraying mechanism 8, tap water in the rotary pipe 11 enters the spraying pipe 81 through the transverse pipe 12, and then is sprayed outwards through the spraying pipe 81, so that the water flow heat dissipation rate is increased; meanwhile, the spray pipe 81 is driven by the outer sleeve 71 to swing in a reciprocating manner by the connecting rod 82, so that the water flow spraying range is further increased, and the water flow heat dissipation efficiency is improved.

In the embodiment of the present invention, as a preferred embodiment of the present invention, the end surface of the mechanism box 10 is provided with a plurality of air guiding holes 14, and the air guiding holes 14 are all arranged between two adjacent metal fan plates 63;

the rotating sleeve 91 drives the fan blades 92 to rotate, the fan blades 92 generate wind power, and the wind power is output through the wind guide holes 14, so that the metal fan plate 63 is subjected to air cooling and heat dissipation.

In the embodiment of the present invention, as a preferred embodiment of the present invention, the heat conducting rod 15 is a copper rod, which has a better heat conducting efficiency.

In the embodiment of the present invention, as a preferred embodiment of the present invention, a plurality of air guiding grooves 18 are provided at one end of the LED lamp holder 1 near the heat conducting metal sleeve 3.

When the LED lamp 2 is used, when the temperature of the LED lamp is increased, tap water in the water tank 13 dissipates heat of the heat conducting rod 15;

when the temperature of the LED lamp 2 rises to a certain value, the temperature sensor controls the water pump 61 to start through the controller, the water pump 61 absorbs water through the water pipe 64, the water pipe 64 absorbs water flow to the metal fan plate 63, the metal fan plate 63 cools down the water flow, then the water flow is further cooled down through the spiral water pipe 62, and then the water flow enters the rotary pipe 11;

the temperature sensor is controlled by the controller to start the motor 51, the motor 51 drives the rotary pipe 11 to rotate through the belt transmission pair 53, tap water in the rotary pipe 11 enters the spray pipe 81 through the transverse pipe 12 and is sprayed outwards through the spray pipe 81, and the water flow heat dissipation rate is increased; meanwhile, under the drive of the outer sleeve 71, the connecting rod 82 pulls the spray pipe 81 to swing reciprocally, so that the water flow spraying range is further increased, and the water flow heat dissipation efficiency is improved;

when the outer sleeve 71 slides outwards along the transverse tube 12 under the action of the eccentric ring 754, the air pressure in the outer sleeve 71 is reduced, and tap water in the water tank 13 enters the outer sleeve 71 through the one-way air inlet valve 73; under the action of the tension of the spring 751, the baffle 752 drives the outer sleeve 71 to slide inwards along the transverse pipe 12, so that the air pressure in the outer sleeve 71 is increased, tap water in the water tank 13 is discharged through the one-way air outlet valve 74, so that water close to the side wall of the water tank 13 is mixed towards the middle, the mixing effect of the tap water in the water tank 13 is further improved, and the water flow heat dissipation rate of the water tank 13 is improved;

the rotary pipe 11 drives the transverse pipe 12 to rotate, at the moment, the transverse pipe 12 drives the outer sleeve 71 to synchronously rotate, and the outer sleeve 71 drives the stirring rod 72 to mix and stir tap water in the water tank 13, so that the tap water is mixed, and the heat dissipation of the heat conducting rod 15 is accelerated;

the output shaft of the motor 51 drives the rotating sleeve 91 to rotate through the gear transmission pair 52, the rotating sleeve 91 drives the fan blades 92 to rotate, the fan blades 92 generate wind power, and cold wind enters the heat-conducting metal sleeve 3 through the air guide pipe 93, so that the heat-conducting metal sleeve 3 and the LED lamp holder 1 are subjected to air cooling and heat dissipation; meanwhile, the fan blades 92 output wind power through the wind guide holes 14, so that the metal fan plate 63 is subjected to air cooling and heat dissipation, and the fan blades 92 generate wind power to perform air cooling and heat dissipation on the spiral water pipe 62.

The foregoing description of the preferred embodiments of the invention 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 invention.

Furthermore, it should be understood that although the present disclosure describes embodiments, not every embodiment is provided with a separate embodiment, and that this description is provided for clarity only, and that the disclosure is not limited to the embodiments described in detail below, and that the embodiments described in the examples may be combined as appropriate to form other embodiments that will be apparent to those skilled in the art.

Claims

1. Direct-insert type high-efficiency new energy vehicle lamp with operation monitoring regulation function, comprising an LED lamp holder (1), wherein the LED lamp holder is electrically connected with a temperature sensor, and the LED lamp holder (1) is provided with an LED lamp (2), and is characterized by further comprising:

the LED lamp comprises a heat conduction metal sleeve (3) which is in threaded connection with an LED lamp holder (1), wherein the heat conduction metal sleeve (3) is fixedly connected with a mounting seat (4), the mounting seat (4) is connected with a mechanism box (10), the mechanism box (10) is rotationally connected with a rotating pipe (11), an air cooling assembly (9) is sleeved outside the rotating pipe (11), the air cooling assembly (9) is rotationally connected with the inner end surface of the mechanism box (10), the rotating pipe (11) and the air cooling assembly (9) are jointly connected with a driving mechanism (5), the driving mechanism (5) is used for driving the rotating pipe (11) and the air cooling assembly (9) to reversely rotate, and the driving mechanism (5) is electrically connected with a temperature sensor;

a water tank (13) is arranged in the mounting seat (4), the LED lamp holder (1) is connected with a plurality of heat conducting rods (15), the heat conducting rods (15) are inserted in the water tank (13), a drainage mechanism (6) is arranged between the water tank (13) and the rotating pipe (11), and the drainage mechanism (6) can enable water flow to circularly flow in the water tank (13) and the rotating pipe (11) and cool;

the rotary pipe (11) is communicated with two transverse pipes (12), the transverse pipes (12) are connected with the stirring mechanism (7) in a sliding mode, the stirring mechanism (7) continuously rotates by taking the rotary pipe (11) as a rotation center, the stirring mechanism (7) can slide back and forth relative to the transverse pipes (12), a spraying mechanism (8) is connected between the transverse pipes (12) and the stirring mechanism (7), and the spraying mechanism (8) can spray water flow in the rotary pipe (11) outwards.

2. The direct-insert type high-efficiency new energy vehicle lamp with the operation monitoring and regulating function according to claim 1, wherein the air cooling assembly (9) comprises a rotating sleeve (91), fan blades (92) and an air guide pipe (93);

the rotary sleeve (91) is rotationally connected with the inner end face of the mechanism box (10), the rotary sleeve (91) is sleeved outside the rotary pipe (11), the rotary pipe (91) is fixedly connected with a plurality of fan blades (92), and an air guide pipe (93) is communicated between the heat conducting metal sleeve (3) and the mechanism box (10).

3. The in-line high-efficiency new energy vehicle lamp with the operation monitoring and control function according to claim 2, wherein the driving mechanism (5) comprises a motor (51), a gear transmission pair (52) and a belt transmission pair (53);

the motor (51) is fixedly connected with the inner end surface of the mechanism box (10), an output shaft of the motor (51) is in transmission connection with the rotary sleeve (91) through a gear transmission pair (52), and the belt transmission pair (53) is arranged between the output shaft of the motor (51) and the rotary tube (11).

4. The direct-insert type high-efficiency new energy vehicle lamp with the operation monitoring and regulating function according to claim 1, wherein the drainage mechanism (6) comprises a water pump (61), a spiral water pipe (62), a metal fan plate (63) and a water pipe (64);

the water outlet of water pump (61) rotates with the one end of changeing pipe (11) and is connected, the water inlet and the spiral water pipe (62) of water pump (61) communicate, spiral water pipe (62) set up in mechanism case (10), the lateral wall annular of mount pad (4) is provided with a plurality of metal fan boards (63), the inside cavity of metal fan board (63) all communicates with spiral water pipe (62) and water pipe (64), water pipe (64) all set up in mount pad (4).

5. The direct-insert type efficient new energy vehicle lamp with the operation monitoring and regulating function according to claim 1, wherein the stirring mechanism (7) comprises a jacket (71), a stirring rod (72), a one-way air inlet valve (73), a one-way air outlet valve (74) and a limiting assembly (75);

one end fixedly connected with piston (76) of violently managing (12), overcoat (71) and piston (76) sliding seal connect, one end of overcoat (71) is provided with one-way admission valve (73), overcoat (71) annular is provided with a plurality of one-way air outlet valves (74), just overcoat (71) are connected with a plurality of puddlers (72), spacing subassembly (75) are used for driving overcoat (71) along violently managing (12) reciprocal slip.

6. The in-line high-efficiency new energy vehicle lamp with the operation monitoring and regulating function according to claim 5, wherein the limiting assembly (75) comprises a spring (751), a baffle (752) and a loop (753);

the outer sleeve (71) is fixedly connected with the baffle (752), the annular sleeve (753) is rotationally connected with the rotary pipe (11), springs (751) are arranged between the outer sleeve (71) and the annular sleeve (753), the eccentric ring (754) is arranged outside the rotary pipe (11), and the baffle (752) is abutted to the eccentric ring (754).

7. The direct-insert type high-efficiency new energy vehicle lamp with the operation monitoring and regulating function according to claim 5, wherein the spraying mechanism (8) comprises a spraying pipe (81) and a connecting rod (82), the spraying pipe (81) is rotationally connected with a transverse pipe (12), the spraying pipe (81) is communicated with the transverse pipe (12) through a rubber pipe, and the connecting rod (82) is rotationally connected between the spraying pipe (81) and a jacket (71).

8. The direct-insert type high-efficiency new energy vehicle lamp with the operation monitoring and regulating function according to claim 4, wherein a plurality of air guide holes (14) are formed in the end face of the mechanism box (10), and the air guide holes (14) are formed between two adjacent metal fan plates (63).

9. The direct-insert type high-efficiency new energy vehicle lamp with the operation monitoring and regulating function according to claim 1, wherein the heat conducting rod (15) is a copper rod.

10. The direct-insert type high-efficiency new energy vehicle lamp with the operation monitoring and regulating function according to claim 1, wherein a plurality of air guide grooves (18) are formed in one end, close to the heat conducting metal sleeve (3), of the LED lamp holder (1).