CN214198582U - High-power geomantic omen linkage heat dissipation lamps and lanterns - Google Patents

Abstract

The utility model relates to the technical field of lamps, in particular to a high-power wind-water linkage heat dissipation lamp which has reasonable design, simple and convenient operation and high heat dissipation efficiency; the lower end of a lamp panel is fixedly connected with a patch aluminum substrate, glass and a mask are installed at the lower end of the patch aluminum substrate, the lamp panel is electrically connected with a power supply in a power supply bin above the lamp panel, a heat absorption block is arranged on the periphery of the lamp panel, a copper pipe is embedded in the lamp panel, one end of the copper pipe is connected with a water tank, cooling liquid is filled in the water tank, a circulating pump drives the cooling liquid to circulate in the copper pipe, the heat absorption block absorbs the heat of the lamp panel, the heat is transferred to the cooling liquid through the copper pipe, the temperature of the cooling liquid is increased, and the circulating pump drives the cooling liquid to circulate to transfer and disperse the heat; the problem of relatively poor heat dispersion that current high-power lamps and lanterns exist is solved, the life of lamps and lanterns has been prolonged.

Description

High-power geomantic omen linkage heat dissipation lamps and lanterns

Technical Field

The utility model relates to a technical field of lamps and lanterns especially relates to a high-power geomantic omen linkage heat dissipation lamps and lanterns.

Background

In professional lighting lamps, heat dissipation is always an important problem which puzzles product quality, and particularly high-power lamps have the problem of poor heat dissipation performance. At present, most lamps are not provided with a special heat dissipation structure aiming at the heat dissipation problem, so that the temperature of a bulb shell and a shell of the lamp is higher, the service life of the lamp is seriously influenced, and meanwhile, the sealing of the lamp is also influenced because the pressure difference between the inside and the outside of the lamp is larger due to the overhigh temperature of an inner cavity of the lamp.

SUMMERY OF THE UTILITY MODEL

In order to solve the technical problem, the utility model provides a reasonable in design, it is easy and simple to handle, high-power geomantic omen linkage heat dissipation lamps and lanterns that the radiating efficiency is high.

In order to achieve the above purpose, the utility model is realized by adopting the following technical scheme:

the utility model discloses a high-power geomantic omen linkage heat dissipation lamps and lanterns, the aluminium base board of lower extreme fixed connection paster of lamps and lanterns lamp plate, the lower extreme installation glass and the face guard of the aluminium base board of paster, the power electricity in the power storehouse of lamps and lanterns lamp plate rather than top is connected, and the periphery of lamps and lanterns lamp plate sets up the heat absorption piece, the inside of lamps and lanterns lamp plate is inlayed and is installed the copper pipe, and the one end and the water tank of copper pipe are connected, and the water tank intussuseption is filled with the coolant liquid, and the circulating pump drives the coolant liquid and at copper intraductal circulation.

Preferably, a heat radiator is arranged on the outer side of the power supply bin.

Preferably, the radiating fin is installed above the radiating body, the water tank is installed on one side of the radiating fin, the copper pipe is led out from the water tank and penetrates through the power supply bin downwards, is connected with the circulating pump to circulate cooling liquid, is led out from the circulating pump and enters the lamp panel of the lamp, passes through the power supply bin upwards after passing through the heat absorption block, and then passes through the radiating fin and finally is connected with the water tank in a loop mode.

Preferably, the fan is connected to the upper side of the heat sink, the fan is controlled by a first temperature control switch and a second temperature control switch of the temperature control switches on two sides of the heat absorption block, the temperature control switches are turned on when the temperature rises above a set value by sensing the temperature, the fan starts to rotate to blow air to the heat sink to reduce the temperature, the temperature control switches are turned off when the temperature drops above the set value, and the fan stops running.

Compared with the prior art, the beneficial effects of the utility model are that: the heat absorption block absorbs the heat of the lamp panel and transmits the heat to the cooling liquid through the copper pipe, the temperature of the cooling liquid rises, and the circulating pump drives the cooling liquid to circulate so as to transmit and disperse the heat; the copper pipe penetrates through the radiating fins on the power supply bin in a bending mode, so that the radiating area is effectively enlarged, the cooling and radiating effects are better achieved, and the radiating efficiency is improved; the temperature control switch is closed when the temperature rises to exceed a set value by sensing the temperature, the fan starts to rotate to blow air to the radiating fins to reduce the temperature, the temperature control switch is disconnected when the temperature drops to exceed the set value, and the fan stops running; the utility model has the advantages of reasonable design, the relatively poor problem of heat dispersion that has solved current high-power lamps and lanterns and exists has prolonged the life of lamps and lanterns, and the utility model discloses a lamps and lanterns are made simply, and the cost is lower, are favorable to industrialization to promote on a large scale.

Drawings

Fig. 1 is a schematic structural diagram of the present invention;

reference numerals: the lamp comprises a water tank 1, a fan 2, heat radiating fins 3, copper pipes 4, a power supply bin 5, a circulating pump 6, a support 7, a power supply 8, a first temperature control switch 9, a second temperature control switch 10, a lamp panel 11, a heat absorbing block 12, a patch aluminum substrate 13, glass 14, a face shield 15, a heat radiating body 16 and cooling liquid 17.

Detailed Description

The following detailed description of the embodiments of the present invention is provided with reference to the accompanying drawings and examples. The following examples are intended to illustrate the invention, but are not intended to limit the scope of the invention.

As shown in fig. 1, the embodiment of the utility model provides a high-power geomantic omen linkage heat dissipation lamp, the lower extreme fixed connection paster aluminium base board 13 of lamp plate 11, glass 14 and face guard 15 are installed to the lower extreme of paster aluminium base board 13, lamp plate 11 is connected with power 8 electricity in the power storehouse 5 above it, power storehouse 5 is installed on support 7, the periphery of lamp plate 11 sets up heat absorption block 12, copper pipe 4 is installed to the inside of lamp plate 11 is inlayed, one end of copper pipe 4 is connected with water tank 1, fill coolant 17 in water tank 1, circulating pump 6 drives coolant 17 and circulates in copper pipe 4; in order to better enable the heat absorption block 12 to absorb heat, the copper pipe 4 is tightly connected with the heat absorption block 12 without gaps; the lamp is turned on after the lamp is electrified, the lamp panel 11 of the lamp is heated after the lamp is turned on for a period of time, the heat absorption block 12 absorbs the heat of the lamp panel and transmits the heat to the cooling liquid 17 through the copper pipe 4, the temperature of the cooling liquid 17 is raised, and the circulating pump 6 drives the cooling liquid 17 to circulate to transmit and disperse the heat; furthermore, the heat sink 16 is arranged on the outer side of the power supply bin 5, which is beneficial to improving the heat dissipation efficiency; preferably, the radiating fin 3 is installed above the radiating body 16, the water tank 1 is installed on one side of the radiating fin 3, the copper pipe 4 is led out from the water tank 1 and penetrates through the power supply bin 5 downwards, is connected with the circulating pump 6 to circulate cooling liquid, is led out from the circulating pump and enters the lamp panel 11 of the lamp, passes through the power supply bin 5 upwards after passing through the heat absorption block 12, and then passes through the radiating fin 3 in a serpentine shape and finally is connected back to the water tank; the copper pipe 4 is bent to penetrate through the radiating fins 3 on the power supply bin 5, so that the radiating area is effectively enlarged, the cooling and radiating effects are better achieved, and the radiating efficiency is improved; the fan 2 is connected to the upper side of the radiating fin 3 in a buckling mode, the fan 2 is controlled by a first temperature control switch 9 on the left side of the heat absorbing block 12 and a second temperature control switch 10 on the right side of the heat absorbing block, the temperature control switches are closed when the temperature rises to exceed a set value through sensing the temperature, the fan 2 starts rotating to blow air to the radiating fin to reduce the temperature, the temperature control switches are disconnected when the temperature drops to exceed the set value, and the fan 2 stops running.

The utility model discloses high-power geomantic omen linkage heat dissipation lamps and lanterns, it is at the during operation, at first, lamps and lanterns circular telegram back lamps and lanterns are lighted, install in 5 inside circulating pump 6 start operation in power storehouse, coolant liquid 17 start circulation, light a period of time back lamps and lanterns lamp plate 11 and generate heat, heat absorption block 12 absorbs lamps and lanterns lamp plate 11 heat, transmit for coolant liquid 17 through copper pipe 4, coolant liquid 17 temperature risees, after 3 heat dissipation cooling of fin, if fin 3 can't fall the temperature to when appointed temperature, the first temperature detect switch 9 and the second temperature detect switch 10 response work closure of heat absorption block 12 both sides, fan 2 begins to turn to fin 3 soon and bloies the lowering temperature, the temperature begins to descend, the temperature detect switch disconnection when descending appointed temperature, fan bring to rest, from this circulation.

The foregoing is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, a plurality of modifications and variations can be made without departing from the technical principle of the present invention, and these modifications and variations should also be regarded as the protection scope of the present invention.

Claims (4)

1. The utility model provides a high-power geomantic omen linkage heat dissipation lamps and lanterns, the aluminium base board of lower extreme fixed connection paster (13) of lamps and lanterns lamp plate (11), lower extreme installation glass (14) and face guard (15) of the aluminium base board of paster (13), its characterized in that, power (8) electricity in lamp plate (11) and the power storehouse (5) of top are connected, and the periphery of lamps and lanterns lamp plate (11) sets up heat absorption piece (12), installation copper pipe (4) are inlayed to the inside of lamps and lanterns lamp plate (11), and the one end and the water tank (1) of copper pipe (4) are connected, and the intussuseption of water tank (1) is filled with coolant liquid (17), and circulating pump (6) drive coolant liquid (17) are at copper pipe (4) inner loop.

2. The high-power wind-water linkage heat-dissipation lamp as recited in claim 1, wherein a heat sink (16) is disposed outside the power supply bin (5).

3. The high-power wind-water linkage heat dissipation lamp as recited in claim 2, wherein a heat dissipation fin (3) is installed above the heat dissipation body (16), the water tank (1) is installed on one side of the heat dissipation fin (3), the copper pipe (4) is led out from the water tank (1) and penetrates through the power supply bin (5) downwards, is connected with the circulating pump (6) to circulate cooling liquid, is led out from the circulating pump and enters the lamp panel (11) of the lamp, passes through the heat absorption block (12) and then penetrates through the power supply bin (5) upwards, and finally is connected back to the water tank through the heat dissipation fin (3).

4. The high-power wind-water linkage heat-dissipation lamp according to claim 3, wherein the fan (2) is connected to the upper side of the heat-dissipation fin (3), the fan (2) is controlled by temperature-controlled switches on two sides of the heat-absorption block (12), the temperature-controlled switches are turned on when the temperature rises above a set value by sensing the temperature, the fan (2) starts to rotate to blow air to the heat-dissipation fin to reduce the temperature, the temperature-controlled switches are turned off when the temperature drops above the set value, and the fan (2) stops running.

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