CN113048416B

CN113048416B - Air-flow type air-cooled lamp set

Info

Publication number: CN113048416B
Application number: CN201911376607.9A
Authority: CN
Inventors: 林郅燊
Original assignee: Individual
Current assignee: Individual
Priority date: 2019-12-27
Filing date: 2019-12-27
Publication date: 2024-02-02
Anticipated expiration: 2039-12-27
Also published as: CN113048416A

Abstract

The utility model provides an air-cooled banks, include a lamp stand, a light source, a heat radiation fin and a radiating element, this radiating element contains no flabellum fan and has a gas output channel, and at least one air supply motor sets up in this no flabellum fan, this gas output channel all is equipped with a control valve with this air supply motor junction and can make this air-cooled banks reach multistage and the operation of big amount of wind, and can increase of service life, wherein an upper cover sets up in this lamp stand, the junction still presss from both sides and is equipped with waterproof glue ring, can prevent really that sea water and air from corroding and damaging this banks, in addition the user accessible is installed the air current enhancement device and is reached the air current gain more than the secondary, the high temperature in the cooling lamp stand center that can be more suitable and promote radiating efficiency.

Description

Air-flow type air-cooled lamp set

Technical Field

The application relates to an air-cooled lamp set, in particular to an air-cooled lamp set which is arranged on a fishing boat and used for fishing at night and can effectively dissipate heat.

Background

When a fishermen is in sea fishing at night, a light source is arranged to irradiate the sea surface according to the optical rotation tendency of the fish shoals at night, and the brighter places can usually attract more fish shoals, so a large number of light sources are also needed.

The lamp group used for being installed on a fishing boat in the prior art can generate a large amount of heat energy due to a light source, although the lamp group is provided with a heat dissipation device, the service life of the lamp group is short because of being incapable of effectively dissipating heat, and the lamp group is often required to be replaced, and the lamp group is required to be continuously replaced for a fishermen who goes out of sea for a long time, in addition, the conventional heat dissipation device is mainly provided with a general fan blade type fan, and the general fan blade type fan is easy to damage due to inversion or over caused by the wind pressure of strong wind at sea, so that the lamp group is inconvenient for fishermen.

The prior art is used for installing the banks on the fishing boat to lighten the weight, the aluminum alloy metal is adopted to manufacture and the anodic treatment or the spraying protection layer is utilized to achieve the anti-corrosion effect, and finally, the protection layer is destroyed when the screw is locked into the screw hole, so that the banks are easily corroded by seawater and moisture containing salt to cause potential corrosion between the screw and the screw hole to destroy the locking airtight capability of the lamp, thereby causing leakage, moisture absorption and acceleration to reduce the service life of the lamp.

Disclosure of Invention

In view of this, the main object of the present application is to provide an air-cooled lamp set that can be used for night fishing and can effectively dissipate heat.

The application provides an airflow type air-cooled lamp set, which comprises a lamp holder arranged on a mounting seat, wherein the lamp holder is provided with at least one light source and is provided with a radiating fin on one surface opposite to the light source, a radiating unit is arranged on one side of the lamp holder, the radiating unit comprises a flabellum-free fan and is provided with a gas output channel, and at least one gas input device is arranged on the flabellum-free fan, and a control valve is arranged at the joint of the gas output channel and the at least one gas input device, wherein the gas input device is an air supply motor.

The number of the gas input devices is 2, and one sides of the gas input devices far away from the gas output channel are respectively connected with a mounting bracket and positioned on the mounting seat and are arranged on two opposite sides of the flabellum-free fan.

The lamp holder is provided with a plurality of positioning holes, the upper cover is made of insulating materials and provided with a plurality of positioning holes corresponding to the positioning holes, the upper cover is positioned on the lamp holder by screws, and the positioning holes are filled with anti-corrosion adhesive layers.

Preferably, the upper cover is provided with a filter plate which is transparent or has a filter coating film, so that the light source gathers fish shoals close to the fishing boat.

Further, the heat dissipating unit further includes an airflow enhancing device disposed on a side of the bladeless fan away from the heat dissipating fins, and an airflow output of the airflow enhancing device and an airflow output of the bladeless fan face the same direction.

Further, the gas flow enhancement device communicates with one of the gas input devices as a gas input source.

Other details of the functions and embodiments of the present application are described below with reference to the accompanying drawings.

Drawings

In order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, the drawings that are required to be used in the embodiments or the description of the prior art will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments described in the present application, and other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a schematic illustration of an air-cooled lamp assembly;

FIG. 2 is a side view of an air-cooled lamp unit;

FIG. 3 is a schematic diagram of a motor of an air-cooled lamp unit;

FIG. 4 is a schematic diagram of the insulation and corrosion protection of an air-cooled lamp unit;

FIG. 5 is a schematic view of a second embodiment of an air-cooled lamp assembly;

FIG. 6 is a schematic diagram of a second airflow enhancing device of an airflow type air-cooled lamp set;

FIG. 7 is a schematic diagram of a second airflow enhancing device of an airflow type air-cooled lamp set;

fig. 8 is a schematic diagram of a second airflow enhancing device of the airflow type air-cooled lamp set.

Symbol description

100: air-flow type air-cooled lamp set 502: pipeline type axial flow fan blade fan

10: mounting base 20: lamp base 21: light source

22: heat radiation fins 23: positioning lock hole 30: upper cover

31: the filter plate 33: positioning hole 34: mounting hole

35: screw 36: anticorrosive glue 37: waterproof glue ring

40: bladeless fan 401: gas output channel 41: gas input device

411: control valve 42: mounting bracket 50: airflow enhancing device

501: bladeless fan 503: nozzle 51: mounting rod

Detailed Description

In order to specifically describe the embodiments and achieve the effects of the present application, an example is provided and described below with reference to the drawings.

Referring to fig. 1 to 4, an air-cooled lamp set 100 is shown, which comprises a lamp holder 20 disposed on a mounting base 10, the lamp holder 20 has a plurality of light sources 21 and has a heat dissipation fin 22 disposed on a surface opposite to the light sources 21, wherein a heat dissipation unit is disposed on one side of the lamp holder 20, the heat dissipation unit comprises a flabelleless fan 40 and has an air output channel 401, and at least one air input device 41 is disposed on the flabelleless fan 40, and a control valve 411 is disposed at a connection portion between the air output channel 401 and the at least one air input device 41, wherein the air input device 41 is an air supply motor. One side of the air input devices 41 away from the air output channel 401 is respectively connected with a mounting bracket 42, so that the heat dissipation unit is positioned on the mounting seat 10 and arranged on two opposite sides of the flabellum-free fan 40.

Wherein an upper cover 30 is disposed on the lamp holder 20, the lamp holder 20 has a plurality of positioning holes 23, the upper cover 30 has a plurality of positioning holes 33 corresponding to the positioning holes 23, and the upper cover 30 is positioned on the lamp holder 20 by screws 35, and a waterproof glue ring 37 is further disposed at the junction between the upper cover 30 and the lamp holder 20, so that even if the air-cooled lamp set is used at sea for a long time, seawater and air can be isolated from invading the lamp holder 20, and the probability of spoiling is reduced. The upper cover 30 further has a plurality of mounting holes 34, the mounting base 10 has a plurality of corresponding assembling holes, and screws and nuts are used to mount the upper cover 30 on the mounting base 10, so that the upper cover 30 is more stable. In addition, in the present embodiment, the stainless steel screw is adopted, so that the user can fill the anti-corrosion glue layer 36 in the positioning hole 33 after the screw 35 is positioned, so that the screw 35 is prevented from contacting the outside, and further, the potential corrosion generated between the positioning lock hole 23 and the screw 35 is prevented.

In this embodiment, the upper cover 30 has a light filter 31, the light filter 31 is transparent or is coated with a light filter, and in other embodiments, a user can replace the light filter 31 with another color to induce different fish schools to get close to the light source based on different colors or light emitted by a specific color, and in addition, the upper cover 30 is made of an insulating material or a plastic material instead of a metal material, so as to avoid the contact between the mounting base 10 and the lamp base 20, and reduce the probability of the deterioration of the lamp base 20.

In this embodiment, the bladeless fan 40 has two air supply motors 41, and the connection between the air supply motors 41 and the air output channel 401 of the bladeless fan 401 has a control valve 411, so that a user can open one control valve and close the other control valve or both control valves are opened during use, when the motors are started simultaneously, the operation of multi-stage and large air volume can be achieved, the service life can be prolonged, and the damage of the general fan due to reversion or over rotation caused by the offshore strong wind pressure can be avoided through the small air outlet of the bladeless fan 40.

In the present embodiment, the light source 21 is a light emitting diode or other energy-saving light source, instead of a general halogen lamp, so that energy can be saved and the service life can be prolonged.

In this embodiment, the heat sink fins 22 extend vertically to define a horizontal line (i.e. the extending direction of the mounting bracket 42 in fig. 4), and the air outlet direction of the bladeless fan 40 is inclined at an angle of 15 ° to the horizontal line and faces the heat sink fins 22. This arrangement is to make the wind energy exhausted from the bladeless fan 40 blow more uniformly to the heat dissipation fins 22 to achieve more efficient heat dissipation, in other embodiments, the bladeless fan 40 may be arranged with the wind direction along a horizontal line and directed to the heat dissipation fins 22, or any angle may be used to direct the bladeless fan 40 to the heat dissipation fins 22.

Referring to fig. 5 to 8, in other embodiments of the present application, a user may install an airflow enhancing device 50 on a side of the bladeless fan 40 away from the heat sink, the airflow output of the airflow enhancing device 50 and the airflow output of the bladeless fan 40 are in the same direction, and the airflow output of the airflow enhancing device 50 is located in the airflow field of the bladeless fan 40. The airflow enhancing device 50 can be a bladeless fan 501 or a general duct type axial fan 502 (see fig. 5-7), or a nozzle 503 (see fig. 8) can be installed by a user, so that the airflow rate and the flow rate of the airflow outputted by the heat dissipating unit can be increased and the central air strength can be enhanced, so that the flow rate of the airflow flowing into the heat dissipating fins 22 is increased, the heat dissipation is faster, and the central high temperature of the lamp holder 20 can be cooled more appropriately and the heat dissipation is achieved with high efficiency. The air flow enhancing device 50 may be connected to one of the blower motors 41 as an air input source, or the air flow enhancing device 50 is provided with at least one motor and is mounted on the mounting bracket 42 by a mounting rod 51.

The above examples and/or embodiments are merely for illustrating the preferred examples and/or embodiments for implementing the technology of the present application, and are not limited in any way to the implementation of the technology of the present application, and any person skilled in the art should be able to make some changes or modifications to other equivalent examples without departing from the scope of the technical means disclosed in the present application, but should still consider the technology or examples substantially identical to the present application.

Claims

1. An air-cooled lamp assembly comprising: the lamp holder is arranged on the mounting seat, is provided with at least one light source and is provided with a radiating fin on one surface opposite to the light source, and is characterized in that:

the heat dissipation unit is positioned at one side of the lamp holder, the heat dissipation unit comprises a flabellum-free fan and is provided with a gas output channel, at least one gas input device is arranged on the flabellum-free fan, the heat dissipation unit further comprises a gas flow enhancement device which is arranged at one side of the flabellum-free fan away from the heat dissipation fins, the gas flow output by the gas flow enhancement device is positioned in a gas flow field of the flabellum-free fan, and the gas flow enhancement device is provided with a nozzle.

2. The gas-cooled lamp assembly of claim 1, wherein the gas output channel and the at least one gas input device are each provided with a control valve.

3. The air-cooled lamp assembly of claim 1, wherein the at least one air input device is 2 in number and disposed on opposite sides of the bladeless fan, and a side of the air input device remote from the air output channel is respectively connected to a mounting bracket and positioned on the mounting base.

4. The air-cooled lamp assembly of claim 3, wherein the air input device is a blower motor.

5. The air-cooled lamp set of claim 1, comprising an upper cover disposed on the lamp base, wherein the upper cover is made of an insulating material and has a plurality of positioning holes.

6. The air-cooled lamp assembly of claim 5, wherein the cover has a filter.

7. The air-cooled lamp assembly of claim 5, wherein the locating hole is filled with an anti-corrosive glue layer.

8. The air-cooled lamp assembly of claim 1, wherein the air flow enhancement device communicates with one of the gas input devices.

9. The air-cooled lamp assembly of claim 1, wherein the airflow output of the airflow enhancing device is oriented in the same direction as the airflow output of the bladeless fan.