CN216047535U - Heat insulation structure and lamp - Google Patents

Abstract

The utility model belongs to the technical field of heat dissipation, and provides a heat insulation structure which comprises a first shell, a second shell, a power supply and an electronic component electrically connected with the power supply, wherein the power supply is arranged on the first shell, the electronic component is arranged on the second shell, the first shell and the second shell are covered, a spacing space is arranged between the power supply and the electronic component, the power supply and the electronic component are spaced by using the spacing space to prevent the power supply and the electronic component from conducting heat mutually, the power supply and the electronic component can dissipate heat in the spacing space to avoid the temperature of the power supply and the electronic component from being further increased, the power supply and the electronic component can be effectively protected from being burnt out, and the service life of the power supply and the electronic component is further prolonged.

Description

Heat insulation structure and lamp

Technical Field

The utility model belongs to the technical field of heat dissipation, and particularly relates to a heat insulation structure and a lamp comprising the same.

Background

Electronic components and power can generate heat because of the loss in the course of the work, and this partial loss arouses generate heat, can only improve, can not avoid completely, nevertheless generate heat and can bring a lot of problems, and prior art solves the problem of generating heat, can take the heat dissipation usually, thermal-insulated means improves, if can not be fine improve above-mentioned problem, can cause the damage of power and/or electronic components, the life-span of the electronic product that significantly reduces.

Aiming at the problems, the utility model provides a heat insulation structure which can effectively improve the heat dissipation and heat insulation problems of electronic components and power supplies.

SUMMERY OF THE UTILITY MODEL

In order to overcome the defects of the prior art, the utility model provides the heat insulation structure, the space is arranged between the power supply and the electronic component, the space is utilized to separate the power supply and the electronic component, the heat conduction between the power supply and the electronic component is prevented, the heat dissipation between the power supply and the electronic component can be carried out in the space, the temperature of the power supply and the temperature of the electronic component are prevented from being further increased, the power supply and the electronic component can be effectively protected from being burnt out, and the service life of the power supply and the service life of the electronic component are prolonged.

The technical effect to be achieved by the utility model is realized by the following scheme:

the utility model provides a thermal-insulated structure, including first casing, second casing, power and with the electronic components that the power electricity is connected, the power sets up first casing, first casing with second casing lid closes, electronic components sets up the second casing, the power with be equipped with the interval space between the electronic components.

Further, the electronic component is a light source module, the light source module comprises a plurality of light sources, and the plurality of light sources are arranged on the second shell.

Further, the light source includes that glass presses frame, glass board, lens, PCBA and sets up emitting diode on PCBA, PCBA sets up on the second casing PCBA is equipped with one side of emitting diode, lens with the glass board sets gradually, just glass presses the frame setting to be in week side of glass board to it is fixed with the glass board.

Furthermore, the second casing is provided with an accommodating frame, the electronic component is located the bottom of the accommodating frame, the power supply is in the position of the first casing and the position of the accommodating frame in the second casing correspond to each other, so that the power supply is accommodated in an accommodating cavity formed by covering the first casing and the second casing, and in the accommodating cavity, the power supply and the allowance space between the electronic component form the spacing space.

Further, the heat insulation structure is provided with a breather, and the breather is connected with the separation space.

Further, the receiving frame is provided with a mounting hole, the respirator is arranged in the mounting hole, and the respirator extends from the receiving frame to the second shell.

A luminaire comprising a thermal insulation structure as described above.

The first shell is provided with a through hole, the NEMA seat is arranged in the through hole, the lightning protection device is arranged on one side, facing the second shell, of the first shell, and the short circuit cap is arranged at one end of the NEMA seat and located on one side, facing away from the second shell, of the first shell.

Further, the lamp is provided with a waterproof connector, and the waterproof connector is connected with the power supply.

Further, the first casing with the one end hinged joint of second casing, other end buckle is connected, first casing with be equipped with supporting component between the second casing, supporting component is close to the hinge sets up, supporting component includes support frame and bracing piece, the support frame sets up on the first casing, and the support frame is equipped with the sliding tray, bracing piece one end is connected on the second casing, the other end with sliding tray sliding connection.

The utility model provides a heat insulation structure which comprises a first shell, a second shell, a power supply and electronic components electrically connected with the power supply, wherein the power supply is arranged on the first shell, the electronic components are arranged on the second shell, the first shell and the second shell are covered, a spacing space is arranged between the power supply and the electronic components, the power supply and the electronic components are spaced by the spacing space to prevent the power supply and the electronic components from conducting heat mutually, the power supply and the electronic components can radiate heat in the spacing space to avoid the temperature of the power supply and the electronic components from being further increased, the power supply and the electronic components can be effectively protected from being burnt out, and the service lives of the power supply and the electronic components are further prolonged.

The utility model also provides a lamp which comprises the heat insulation structure, the heat insulation structure improves the heat dissipation and heat insulation effects of electronic components and power supplies in the lamp, the power supplies and the electronic components can be effectively protected from being burnt out, and the service life of the lamp is prolonged.

Drawings

FIG. 1 is a first schematic structural diagram of a lamp according to the present invention;

FIG. 2 is a cross-sectional view taken at B-B of FIG. 1 in accordance with the present invention;

FIG. 3 is a first perspective assembly view of the lamp of the present invention;

FIG. 4 is a second perspective assembly view of the lamp of the present invention;

fig. 5 is a second schematic structural diagram of the lamp of the present invention.

Description of the symbols of the drawings: a first housing 1; a second housing 2; an accommodating frame 21; a power supply 3; a power supply hoop 31; a light source module 4; a light source 41; a glass press frame 411; a glass plate 412; a lens 413; PCBA 414; the spacing space 5; a respirator 6; a short circuit cap 7; a NEMA mount 8; a lightning protection device 9; a waterproof joint 10; a support assembly 101; a support bracket 1011; supporting the rod 1012.

Detailed Description

The technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are only a part of the embodiments of the present application, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present application.

An insulation structure of the present invention includes, but is not limited to, the following embodiments:

example one

As shown in fig. 1-2, the heat insulation structure is disposed on the lamp, and the heat insulation structure includes a first housing 1, a second housing 2, a power supply 3, and an electronic component electrically connected to the power supply 3, the power supply 3 is disposed on the first housing 1, the electronic component is disposed on the second housing 2, the first housing 1 and the second housing 2 are covered, and a space 5 is disposed between the power supply 3 and the electronic component. The spacing space means that the power supply and the electronic component have a distance, nothing is left between the power supply and the electronic component, and a proper space is arranged between the power supply and the electronic component to separate the power supply and the electronic component from contact. The interval space 5 separates power 3 and electronic components, because the efficiency of air heat conduction is slow, can avoid both to produce hot back at the course of the work, both carry out heat-conduction each other, and provide the space and dispel the heat for power 3 and electronic components, avoid temperature between them to further rise, can effectual protection power 3 and electronic components not burnt out, and then the life-span of power 3 and electronic components that improve.

In this embodiment, the power supply 3 is a storage battery, the storage battery is fixed on the first casing 1, and two power hoops 31 are used to fix two ends of the storage battery on the first casing 1. Specifically, the two ends of the power anchor ear 31 are connected to the first casing 1 by fasteners, so as to fix the battery to the first casing 1.

Specifically, the electronic component is a light source module 4, the light source module 4 includes a plurality of light sources 41, and the plurality of light sources 41 are arranged on the second housing 2. The plurality of light sources 41 are connected in parallel, the power supply 3 supplies power, and when one light source 41 is broken, the plurality of light sources 41 connected in parallel do not affect the operation of the other light sources 41. When the light source 41 emits light, a large amount of heat is generated, and the heat insulation structure is applied between the light source module 4 and the power supply 3, so that the heat insulation effect and the heat dissipation effect are obvious, and the service lives of the light source module 4 and the power supply 3 can be greatly prolonged. In this embodiment, the light sources 41 are rectangular, and the rectangular light sources 41 are uniformly arranged on the second housing 2 and can emit uniform light. The second housing 2 is provided with a mounting frame, the light source module 4 is embedded in the mounting frame, and the light source 41 emits light in a direction back to the first housing 1.

In the present embodiment, the light source 41 includes a glass press frame 411, a glass plate 412, a lens 413, a PCBA414, and light emitting diodes provided on the PCBA414, the PCBA414 is provided on the second housing 2, the lens 413 and the glass plate 412 are provided in this order on the side where the light emitting diodes are provided on the PCBA414, and the glass press frame 411 is provided on the peripheral side of the glass plate 412 to fix the glass plate 412. The PCBA414 controls the light emitting diode to emit light, the lens 413 enhances the light emitting efficiency and the use efficiency of the light emitting diode, the glass plate 412 seals the light source 41 to prevent water from entering the light source 41, and the glass plate 412 is transparent and does not affect the light emitting efficiency and the use rate of the light source 41.

Example two

As shown in fig. 1-2, the heat insulation structure includes a first casing 1, a second casing 2, a power supply 3, and an electronic component electrically connected to the power supply 3, wherein the power supply 3 is disposed on the first casing 1, the electronic component is disposed on the second casing 2, the first casing 1 and the second casing 2 are covered, and a space 5 is disposed between the power supply 3 and the electronic component. The spacing space means that the power supply and the electronic component have a distance, nothing is left between the power supply and the electronic component, and a proper space is arranged between the power supply and the electronic component to separate the power supply and the electronic component from contact. The interval space 5 separates power 3 and electronic components, because the efficiency of air heat conduction is slow, can avoid both to produce hot back at the course of the work, both carry out heat-conduction each other, and provide the space and dispel the heat for power 3 and electronic components, avoid temperature between them to further rise, can effectual protection power 3 and electronic components not burnt out, and then the life-span of power 3 and electronic components that improve.

In this embodiment, the power supply 3 is a storage battery, the storage battery is fixed on the first casing 1, and two power hoops 31 are used to fix two ends of the storage battery on the first casing 1. Specifically, the two ends of the power anchor ear 31 are connected to the first casing 1 by fasteners, so as to fix the battery to the first casing 1. The electronic components comprise resistors, capacitors, inductors, potentiometers, electron tubes, radiators, electromechanical elements, connectors, semiconductor discrete devices, electroacoustic devices, laser devices, electronic display devices, photoelectric devices, sensors, power supplies 3, switches, micro-special motors, electronic transformers, relays, printed circuit boards, integrated circuits, various circuits, piezoelectricity, crystals, quartz, ceramic magnetic materials, base material substrates for printed circuits, special materials for electronic functional processes, electronic adhesive (tape) products, electronic chemical materials, components and the like. The electronic components generate heat under the action of current.

Further, the second housing 2 is provided with an accommodating frame 21, the electronic component is located at the bottom of the accommodating frame 21, the bottom of the accommodating frame 21 refers to one side of the accommodating frame 21, which faces away from the first housing 1, the position of the power supply 3 in the first housing 1 corresponds to the position of the accommodating frame 21 in the second housing 2, so that the power supply 3 is accommodated in an accommodating cavity formed by covering the first housing 1 and the second housing 2, and in the accommodating cavity, a space of a margin between the power supply 3 and the electronic component forms a spacing space 5. Specifically, when the first casing 1 and the second casing 2 are closed, the first casing 1 is also closed on the accommodating frame 21, so that the accommodating frame 21 and the first casing 1 form an accommodating cavity, and the accommodating cavity has a space capable of accommodating the power supply 3 and larger than the power supply 3. The space volume of the accommodating cavity can be set according to actual conditions, and the purpose of the utility model can be achieved. The accommodating cavity can provide a space for accommodating the power supply 3, prevent external water from entering the power supply 3 and electronic components and protect the power supply 3 and the electronic components.

In order to further improve the heat dissipation effect, the heat insulation structure is provided with a breather 6, and the breather 6 is connected with the interval space 5. The respirator 6 is a member having a hole, and is capable of communicating the compartment 5 with the outside, allowing the air of the compartment 5 to flow, dissipating the heat of the compartment 5, and preventing the compartment 5 from expanding by heat. Specifically, the housing frame 21 is provided with a mounting hole, the breather 6 is disposed in the mounting hole, and the breather 6 extends from the housing frame 21 to the outside of the second housing 2. The breather 6 is arranged on the containing frame 21, and the containing frame 21 and the first shell 1 form a containing cavity, namely the breather 6 is communicated with the spacing space 5 formed by the allowance space between the power supply 3 and the electronic component in the containing cavity. The position of the respirator 6 is set according to the actual situation, and the heat dissipation purpose of the utility model can be realized.

EXAMPLE III

As shown in fig. 1-5, the heat insulation structure includes a first casing 1, a second casing 2, a power supply 3, and an electronic component electrically connected to the power supply 3, wherein the power supply 3 is disposed on the first casing 1, the electronic component is disposed on the second casing 2, the first casing 1 and the second casing 2 are covered, and a space 5 is disposed between the power supply 3 and the electronic component. The spacing space means that the power supply and the electronic component have a distance, nothing is left between the power supply and the electronic component, and a proper space is arranged between the power supply and the electronic component to separate the power supply and the electronic component from contact. The interval space 5 separates power 3 and electronic components, because the efficiency of air heat conduction is slow, can avoid both to produce hot back at the course of the work, both carry out heat-conduction each other, and provide the space and dispel the heat for power 3 and electronic components, avoid temperature between them to further rise, can effectual protection power 3 and electronic components not burnt out, and then the life-span of power 3 and electronic components that improve.

In this embodiment, the power supply 3 is a storage battery, the storage battery is fixed on the first casing 1, and two power hoops 31 are used to fix two ends of the storage battery on the first casing 1. Specifically, the two ends of the power anchor ear 31 are connected to the first casing 1 by fasteners, so as to fix the battery to the first casing 1.

Specifically, the electronic component is a light source module 4, the light source module 4 includes a plurality of light sources 41, and the plurality of light sources 41 are arranged on the second housing 2. The plurality of light sources 41 are connected in parallel, the power supply 3 supplies power, and when one light source 41 is broken, the plurality of light sources 41 connected in parallel do not affect the operation of the other light sources 41. When the light source 41 emits light, a large amount of heat is generated, and the heat insulation structure is applied between the light source module 4 and the power supply 3, so that the heat insulation effect and the heat dissipation effect are obvious, and the service lives of the light source module 4 and the power supply 3 can be greatly prolonged. In this embodiment, the light sources 41 are rectangular, and the rectangular light sources 41 are uniformly arranged on the second housing 2 and can emit uniform light. The second housing 2 is provided with a mounting frame, the light source module 4 is embedded in the mounting frame, and the light source 41 emits light in a direction back to the first housing 1.

In the present embodiment, the light source 41 includes a glass press frame 411, a glass plate 412, a lens 413, a PCBA414, and light emitting diodes provided on the PCBA414, the PCBA414 is provided on the second housing 2, the lens 413 and the glass plate 412 are provided in this order on the side where the light emitting diodes are provided on the PCBA414, and the glass press frame 411 is provided on the peripheral side of the glass plate 412 to fix the glass plate 412. The PCBA414 controls the light emitting diode to emit light, the lens 413 enhances the light emitting efficiency and the use efficiency of the light emitting diode, the glass plate 412 seals the light source 41 to prevent water from entering the light source 41, and the glass plate 412 is transparent and does not affect the light emitting efficiency and the use rate of the light source 41.

Further, the second housing 2 is provided with an accommodating frame 21, the light source module 4 is located at the bottom of the accommodating frame 21, the bottom of the accommodating frame 21 refers to one side of the accommodating frame 21 facing away from the first housing 1, the power supply 3 is located at the first housing 1 and corresponds to the accommodating frame 21 at the second housing 2, so that the power supply 3 is accommodated in an accommodating cavity formed by covering the first housing 1 and the second housing 2, and in the accommodating cavity, a space 5 is formed between the power supply 3 and the light source module 4. Specifically, when the first casing 1 and the second casing 2 are closed, the first casing 1 is also closed on the accommodating frame 21, so that the accommodating frame 21 and the first casing 1 form an accommodating cavity, and the accommodating cavity has a space capable of accommodating the power supply 3 and larger than the power supply 3. The space volume of the accommodating cavity can be set according to actual conditions, and the purpose of the utility model can be achieved. The holding cavity can provide a space for holding the power supply 3, and can also prevent external water from entering the power supply 3 and the light source module 4, so that the power supply 3 and the light source module 4 are protected.

In order to further improve the heat dissipation effect, the heat insulation structure is provided with a breather 6, and the breather 6 is connected with the interval space 5. The respirator 6 is a member having a hole, and is capable of communicating the compartment 5 with the outside, allowing the air of the compartment 5 to flow, dissipating the heat of the compartment 5, and preventing the compartment 5 from expanding by heat. Specifically, the housing frame 21 is provided with a mounting hole, the breather 6 is disposed in the mounting hole, and the breather 6 extends from the housing frame 21 to the outside of the second housing 2. The respirator 6 is arranged on the accommodating frame 21, and the accommodating frame 21 and the first shell 1 form an accommodating cavity, namely the respirator 6 is communicated with an interval space 5 formed by a margin space between the power supply 3 and the light source module 4 in the accommodating cavity. The position of the respirator 6 is set according to the actual situation, and the heat dissipation purpose of the utility model can be realized.

The lamp comprises any one of the heat insulation structures of the first embodiment, the second embodiment and the third embodiment, and the lamp comprises but is not limited to the following embodiments:

example four

As shown in fig. 1-5, the lamp includes a short circuit cap 7, a NEMA socket 8, and a lightning arrester 9, the first housing 1 has a through hole, the NEMA socket 8 is disposed in the through hole, the lightning arrester 9 is disposed on a side of the first housing 1 facing the second housing 2, the short circuit cap 7 is disposed on an end of the NEMA socket 8 and is located on a side of the first housing 1 facing away from the second housing 2. When the light control switch is not needed, the shorting cap 7 will be used to cover the NEMA socket 8 position, allowing the fixture to remain on at all times unless the lamp is manually turned off. Lightning protection device 9 can prevent that the circuit of lamps and lanterns is destroyed by the heavy current that the thunder and lightning produced in thunder and rain weather, and lightning protection device 9 can avoid destroying the circuit of lamp with the heavy current introduction underground that the thunder and lightning produced.

In order to improve the use safety and the service life of the lamp, the lamp is further provided with a waterproof connector 10, and the waterproof connector 10 is connected with the power supply 3. When lamps and lanterns used under open-air environment, prevent that the rainwater in rainy day from causing the influence to the circuit, the joint that power 3 connects is water joint 10, guarantees the security of charging for power 3, also prevents that the rainwater from causing the short circuit of circuit.

In order to facilitate the detection of the circuit condition inside the lamp, the first housing 1 is connected with one end of the second housing 2 through a hinge, the other end of the second housing is connected through a buckle, a supporting component 101 is arranged between the first housing 1 and the second housing 2, the supporting component 101 is close to the hinge, the supporting component 101 comprises a supporting frame 1011 and a supporting rod 1012, the supporting frame 1011 is arranged on the first housing 1, the supporting frame 1011 is provided with a sliding groove, one end of the supporting rod 1012 is connected to the second housing 2, and the other end of the supporting rod is connected with the sliding groove in a sliding manner. The buckle can be repeatedly opened and connected, so that the first shell 1 and the second shell 2 can be repeatedly closed and opened, the circuit condition in the lamp can be conveniently detected, and particularly when individual electronic components are burnt out, the first shell 1 and the second shell 2 can be conveniently opened for maintenance. The supporting member 101 may maintain the opened state of the first and second housings 1 and 2 when the first and second housings 1 and 2 are opened, and the supporting rod 1012 slides in the sliding groove, and when the supporting rod 1012 stops at a place of the sliding groove, the first and second housings 1 and 2 may maintain the degree of opening and closing therebetween. Furthermore, the sliding groove may be provided with a bayonet for conveniently clamping the supporting rod 1012 at a fixed position, so that the opening and closing state of the first casing 1 and the second casing 2 can be maintained. So design, the people just need not go to maintain the state that opens and shuts of first casing 1 and second casing 2 with the hand after opening first casing 1 and second casing 2, and the both hands of being convenient for go to maintain lamps and lanterns.

Finally, it should be noted that the above embodiments are only used for illustrating the technical solutions of the embodiments of the present invention and not for limiting the same, and although the embodiments of the present invention are described in detail with reference to the preferred embodiments, it should be understood by those skilled in the art that modifications or equivalent substitutions can be made on the technical solutions of the embodiments of the present invention, and these modifications or equivalent substitutions cannot make the modified technical solutions depart from the scope of the technical solutions of the embodiments of the present invention.

Claims (10)

1. The utility model provides a thermal-insulated structure, its characterized in that, including first casing, second casing, power and with the electronic components that the power electricity is connected, the power sets up first casing, electronic components sets up the second casing, first casing with second casing lid closes, the power with be equipped with the interval space between the electronic components.

2. The thermal insulation structure of claim 1, wherein the electronic component is a light source module, the light source module includes a plurality of light sources, and the plurality of light sources are arranged on the second housing.

3. The heat insulating structure according to claim 2, wherein the light source includes a glass press frame, a glass plate, a lens, a PCBA, and a light emitting diode provided on the PCBA, the PCBA is provided on the second case, a side on which the light emitting diode is provided on the PCBA, the lens and the glass plate are provided in this order, and the glass press frame is provided on a peripheral side of the glass plate to fix the glass plate.

4. The heat insulation structure according to claim 1, wherein the second casing is provided with a receiving frame, the electronic component is located at a bottom of the receiving frame, a position of the power supply in the first casing and a position of the receiving frame in the second casing correspond to each other, so that the power supply is received in a receiving cavity formed by covering the first casing and the second casing, and an allowance space between the power supply and the electronic component in the receiving cavity forms the spacing space.

5. The insulation structure of claim 4, wherein the insulation structure is provided with a breather, the breather being connected to the spaced space.

6. The insulating structure of claim 5, wherein the receiving frame is provided with a mounting hole, the breather is provided in the mounting hole, and the breather extends from the receiving frame to the second housing.

7. A luminaire comprising the thermal insulation structure of any one of claims 1 to 6.

8. The lamp of claim 7, further comprising a shorting cap, a NEMA socket, and a lightning arrester, wherein the first housing defines a through hole, the NEMA socket is disposed in the through hole, the lightning arrester is disposed on a side of the first housing facing the second housing, and the shorting cap is disposed at an end of the NEMA socket and on a side of the first housing facing away from the second housing.

9. A light fixture as recited in claim 7, wherein said light fixture is provided with a watertight connector, said watertight connector being connected to said power source.

10. The lamp according to claim 7, wherein one end of the first casing and one end of the second casing are hinged and the other end of the first casing and the second casing are connected by a snap, a support assembly is disposed between the first casing and the second casing and is disposed close to the hinge, the support assembly comprises a support frame and a support rod, the support frame is disposed on the first casing and is provided with a sliding groove, one end of the support rod is connected to the second casing, and the other end of the support rod is connected with the sliding groove in a sliding manner.

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