CN113606512A

CN113606512A - Industrial lighting lamp

Info

Publication number: CN113606512A
Application number: CN202110954379.XA
Authority: CN
Inventors: 刘国红
Original assignee: Xuchang University
Current assignee: Xuchang University
Priority date: 2021-08-19
Filing date: 2021-08-19
Publication date: 2021-11-05

Abstract

The invention discloses an industrial lighting lamp, which belongs to the technical field of lamps and comprises a casing, wherein an air purification assembly is clamped at a position, corresponding to a port of a drainage pipe, on the inner side wall of the casing, the air purification assembly is used for purifying flowing air, so that the quality of air inside and outside a lighting lamp main body is improved, and a cooling liquid storage tank is further arranged at the bottom of the inner side of the casing. According to the invention, through the mutual matching of the designed structures such as the energy leakage component, the energy storage component, the air purification component, the first gas-liquid separation membrane, the cooling component and the like, on one hand, harmful substances such as bacteria, viruses and the like in air can be effectively removed, on the other hand, the ionized air can neutralize static electricity generated by air flowing friction after entering the interior of the lighting lamp main body, so that the stability of the working environment of a built-in circuit board of the lighting lamp main body can be improved, and the purification treatment of the air in an industrial workshop can be carried out.

Description

Industrial lighting lamp

Technical Field

The invention belongs to the technical field of lamps, and particularly relates to an industrial lighting lamp.

Background

In order to save energy and prolong the service life of industrial lighting lamps, lighting equipment in areas such as factories, squares and the like generally select and use an LED lamp with high functional rate so as to provide sufficient lighting conditions for a large-range working area, while a high-power LED lamp provides convenience for people, brings great influence to the high-power LED lamp, generates a large amount of heat energy, and generally needs to be subjected to heat dissipation treatment in order to ensure normal use of the industrial lighting lamps.

In the process of using the existing industrial lighting lamp, because static electricity is easily generated on the built-in circuit board, the static electricity can not only affect the normal service life of the circuit board, but also adsorb harmful substances such as dust and bacteria in the air on the surface of the circuit board, so that the circuit board is easily corroded by the static electricity and polluted by the bacteria in the air, and the heat dissipation efficiency of the circuit board is seriously affected, therefore, an industrial lighting lamp is urgently needed to solve the problems at the present stage.

Disclosure of Invention

In order to achieve the purpose, the invention adopts the following technical scheme:

an industrial lighting lamp comprises a shell, wherein an air purification assembly is clamped at a position, corresponding to a port of a drainage pipe, on the inner side wall of the shell, and is used for purifying air flowing through, so that the quality of the air inside and outside a lighting lamp body is improved;

a cooling liquid storage tank is further arranged at the bottom of the inner side of the shell, a drainage assembly is further arranged between the cooling liquid storage tank and the air purification assembly, and the drainage assembly is used for converting power and introducing air outside the lighting lamp main body into the interior;

the air purification subassembly is including a pressure release section of thick bamboo, a pressure release section of thick bamboo corresponds the port joint of drainage tube on the inside wall of casing, the inside position department that corresponds the drainage tube of a pressure release section of thick bamboo is provided with the turbine, turbine fixed connection is on the surface of second switching axle, the third support bearing has still been cup jointed on the surface of second switching axle, the third support bearing joint is in the one side that the supporting network panel is close, the embedded connection of supporting network panel is on the inside wall of a pressure release section of thick bamboo, the surface winding that the second switched axle is connected with the winding coil.

As a further description of the above technical solution:

the energy release assembly is clamped at the top of the illuminating lamp main body and is used for keeping constant air pressure intensity and heat content in the illuminating lamp main body and ensuring the sealing performance of the illuminating lamp main body, the rear side end face of the energy release assembly is communicated with the rear side end face of the shell through a drainage tube, the top of the shell is fixedly connected with the bottom of the illuminating lamp main body, an energy storage assembly is further arranged on the drainage tube and is used for storing high-temperature air pressure released by the illuminating lamp main body and carrying out pressurization treatment, the energy release assembly comprises an energy release pipeline which is clamped at the top of the illuminating lamp main body, a bucket body is fixedly connected on the inner side wall of the energy release pipeline, a spherical valve is connected in the bucket body in an embedded manner, and the spherical surface of the spherical valve is fixedly connected with one end close to a threaded rod through an elastic supporting device, the utility model discloses a drainage pipeline, including a threaded rod, a support bearing, an ability pipeline, a drainage tube, a screw thread section of thick bamboo, the surface threaded connection of threaded rod has a screw thread section of thick bamboo, first support bearing has been cup jointed on the surface of a screw thread section of thick bamboo, first support bearing joint is on letting out the inboard terminal surface of ability pipeline, the tip of a screw thread section of thick bamboo still fixedly connected with knob, the arrow point has been seted up on the extrados surface of knob to let out the position department that corresponds the arrow point on ability pipeline surface and still seted up the scale mark, the tip joint of drainage tube is on the surface of letting out the ability pipeline to the port of drainage tube is located the top of globe valve.

As a further description of the above technical solution:

the elastic supporting device comprises a telescopic outer barrel, the end part of the telescopic outer barrel is fixedly connected to the spherical surface of the spherical valve, a telescopic inner shaft is sleeved inside the telescopic outer barrel, the end part of the telescopic inner shaft is fixedly connected with the inner side end surface of the telescopic outer barrel through a first supporting spring, a sliding connecting groove is formed in the inner side wall of the telescopic outer barrel, a sliding connecting seat is connected to the sliding connecting groove in a sliding mode, and the sliding connecting seat is fixedly connected with the inner side surface of the telescopic inner shaft in a sliding mode.

As a further description of the above technical solution:

the energy storage component comprises an energy storage tank, the energy storage tank is arranged on the drainage tube, a bridge-shaped channel opening is further formed in the surface of the energy storage tank corresponding to the drainage tube, a piston seat is sleeved inside the energy storage tank, the top of the piston seat is fixedly connected with the inner side end face of the energy storage tank through a second supporting spring, a driving device is fixedly connected to the bottom of the piston seat, a toothed panel is meshed with the surface of the driving device, a sealing sliding sleeve is sleeved on the surface of the toothed panel, and the sealing sliding sleeve is clamped on the top of the piston seat.

As a further description of the above technical solution:

the driving device comprises a driving frame, the bottom of the insection panel is fixedly connected with a lifting seat, the lifting seat penetrates through a connector arranged on the inner side end face of a sliding groove and is fixedly connected with one face close to a sliding type closure seat, the sliding type closure seat is movably sleeved inside the sliding groove, the sliding groove is arranged in the wall body of the energy storage tank, the bottom of the sliding type closure seat is fixedly connected with the inner side end face of the sliding groove through a third supporting spring, and the sliding type closure seat is located between a drainage tube and a bridge-shaped passage opening.

As a further description of the above technical solution:

the driving device comprises a driving frame, the top of the driving frame is fixedly connected to the bottom of the piston seat, a driving wheel is connected to the inner side of the driving frame in an embedded mode, the driving wheel is fixedly connected to the surface of the first transfer shaft, a second supporting bearing is sleeved on the surface of the first transfer shaft, the second supporting bearing is connected to the end face of the inner side wall of the driving frame, on the inner side of the transfer groove, the end face of the inner side of the transfer groove is fixedly connected with the surface of the first transfer shaft through a torsion spring, the torsion spring is further sleeved on the surface of the first transfer shaft, and the driving wheel is meshed with the opposite face of the toothed panel.

As a further description of the above technical solution:

permanent magnet seats are connected to the positions, corresponding to the winding coils, on the inner side wall of the pressure relief cylinder in an embedded mode, and the magnetic poles of the two opposite permanent magnet seats are opposite.

As a further description of the above technical solution:

the end part of the second transfer shaft is clamped with a first sealing bearing, a first air suction pipe is sleeved in the first sealing bearing, and the first air suction pipe is further clamped on the surface of the machine shell.

As a further description of the above technical solution:

the drainage subassembly includes second sealed bearing, second sealed bearing cup joints the surface at the second switching axle, second sealed bearing joint is in the port of second breathing pipe, the other end of second breathing pipe is linked together with the one side that coolant liquid storage jar is close to second breathing pipe port department's embedded first gas-liquid separation membrane that is connected with of position department that corresponds the coolant liquid storage jar, the inside of pressure release section of thick bamboo still is provided with the wheeler, wheeler fixed connection is on the surface of third switching axle, third sealed bearing has been cup jointed on the surface of third switching axle, third sealed bearing joint is on the pipe wall of second breathing pipe, the surface of third switching axle still fixedly connected with drainage fan, the drainage fan is located the inside of second breathing pipe.

As a further description of the above technical solution:

the cooling assembly is arranged between the cooling liquid storage tank and the lighting lamp body and comprises a first backflow pipe, the first backflow pipe is connected to the rear end face of the machine shell and is communicated with one face, close to the cooling liquid storage tank, of the machine shell, the other end of the first backflow pipe is connected to the top of the lighting lamp body in a clamped mode and is communicated with the top of the heat absorption box, the outer arc face of the heat absorption box is fixedly connected with the top of the inner side of the lighting lamp body, a second gas-liquid separation membrane is connected to one side, far away from the energy release pipeline, of the bottom of the lighting lamp body in an embedded mode, and the side end face of the heat absorption box is communicated with the bottom of the cooling liquid storage tank through a second backflow pipe.

In summary, due to the adoption of the technical scheme, the invention has the beneficial effects that:

1. in the invention, through the mutual matching of the designed structures such as the energy discharge component, the energy storage component, the air purification component, the first gas-liquid separation membrane, the cooling component and the like, the sealing structure of the lighting lamp main body can be prevented from being damaged due to overlarge internal pressure, and external substances can be prevented from entering the lighting lamp main body while the pressure is released, so that the self-protection performance of the lighting lamp main body is effectively ensured, the permanent damage to the sealing structure of the lighting lamp main body is avoided, the risk that the lighting lamp main body is damaged due to the invasion of external humid gas and liquid is reduced, on one hand, harmful substances such as bacteria and viruses in the air can be effectively removed, on the other hand, the ionized air can neutralize the static electricity generated due to the flowing friction of the air after entering the interior of the lighting lamp main body, the stability of the working environment of the built-in circuit board of the lighting lamp main body can be improved, and the purification treatment of the air in an industrial workshop can be carried out.

2. According to the invention, through the designed energy release assembly, the knob is shifted to drive the threaded cylinder to rotate on the surface of the threaded rod, and the scale mark and the pointer are assisted, so that under the combined effect of the torque force and the thread occlusion force, the threaded cylinder can displace on the surface of the threaded rod, and the threaded cylinder is limited by the positioning of the first support bearing, and the spherical valve bears the support effect of the bucket body, so that the initial deformation amount of the first support spring can be regulated and controlled, namely the initial hardness of the first support spring is controlled, further the pressure release can be realized when the air pressure intensity inside the lighting lamp main body is regulated and controlled, the reasonable pressure release frequency is set according to the self construction of the lighting lamp main body and the heat generation amount in unit time, and the sealing performance of the lighting lamp main body is effectively ensured.

3. In the invention, through the designed energy storage assembly, high-temperature air in the lighting lamp main body flows into the energy storage tank through the upstream section of the drainage tube, the air pressure intensity above the piston seat is gradually increased along with the accumulation of the high-temperature air, the piston seat moves downwards to the direction close to the lifting seat under the pushing of high-pressure air pressure, when the driving wheel pushes the lifting seat to move downwards, the lifting seat drives the sliding type interception seat to move downwards and apply pressure on the third supporting spring until the downstream part of the drainage tube is in a conduction state with the bridge-shaped channel port, the high-temperature air is released into the pressure release cylinder through the downstream drainage tube, along with the release of the pressure, under the driving of the resetting elasticity of the second supporting spring, because the piston seat moves upwards, the friction force exists between the driving wheel and the insection panel in the descending process of the piston seat, and under the combined action of the thrust force and the friction force, the driving wheel rotates in the second supporting bearing through the first transfer shaft, and because the first rotary shaft can also twist the torsion spring and deform the torsion spring in the rotating process, when the driving wheel moves upwards, the torsion spring releases the elastic force, the lifting seat can be driven to drive the sliding type intercepting seat to continuously keep the opening state, when the driving wheel is separated from the insection panel, the sliding type intercepting seat carries out sealing interception on the bridge-shaped channel opening again under the driving of the resetting elastic force of the third supporting spring, and the sliding type intercepting seat is circulated regularly and has the function of energy storage, converts slow-flow high-temperature air into fast-flow high-temperature air, and enhances the flow force of the high-temperature air.

4. According to the invention, through the designed air purification assembly, on one hand, the fast-flow high-temperature air can be firstly acted on the surface of the turbine after entering the pressure relief cylinder, and the fast-flow high-temperature air can be converted into torsion and acted on the second adapter shaft by utilizing the particularity of the turbine structure, on the other hand, the fast-flow high-temperature air can also be acted on the surface of the wheel vehicle, so that the wheel vehicle rotates in the third sealed bearing through the third adapter shaft and drives the drainage fan to rotate in the second air suction pipe, the air in the second air suction pipe can be driven into the cooling liquid storage tank in the rotating process of the drainage fan, the winding coil is driven by the second adapter shaft to rapidly rotate at the inner side of the permanent magnet seat to cut the magnetic induction lines and generate an electromagnetic field, so that the passing air can be ionized, on the one hand, harmful substances such as bacteria and viruses in the passing air can be effectively removed, on the other hand, the ionized air can neutralize the static electricity generated by air flowing friction after entering the interior of the lighting lamp main body, so that the stability of the working environment of the built-in circuit board of the lighting lamp main body can be improved, and the air in an industrial workshop can be purified.

5. According to the invention, through the designed first gas-liquid separation membrane and the cooling assembly, the air flow entering the cooling liquid storage tank is utilized to drive the cooling liquid to flow, the air flow can also play a cooling effect in the process of flowing inside the cooling liquid, and finally the air flow is sprayed into the lighting lamp main body through the second gas-liquid separation membrane and forms convection with the energy discharge pipeline, so that the heat dissipation performance of the lighting lamp main body is effectively improved, electronic components inside the lighting lamp main body are effectively protected, the waterproof requirement of the lighting lamp main body is met, the structure is simple, the maintenance cost is low, and the cooling device can be suitable for the existing lighting lamp main body.

Drawings

Fig. 1 is a schematic perspective view of an industrial lighting fixture according to the present invention;

fig. 2 is a schematic diagram of a disassembled structure of an energy discharging assembly in an industrial lighting fixture according to the present invention;

FIG. 3 is a schematic view of a disassembled structure of an elastic supporting device of an industrial lighting device according to the present invention;

FIG. 4 is a schematic perspective view of a cooling assembly of an industrial lighting fixture according to the present invention;

FIG. 5 is a schematic diagram of a left-side cross-sectional structure of an energy storage module in an industrial lighting fixture according to the present invention;

FIG. 6 is a schematic diagram of a disassembled structure of a driving device of an industrial lighting device according to the present invention;

FIG. 7 is a schematic view of a disassembled structure of an air purification assembly of an industrial lighting device according to the present invention;

FIG. 8 is a schematic perspective view of a housing of an industrial lighting device according to the present invention;

FIG. 9 is a schematic view of a split structure of a current-guiding assembly of an industrial lighting fixture according to the present invention;

fig. 10 is a schematic perspective view of a pressure relief tube in an industrial lighting fixture according to the present invention.

Illustration of the drawings:

1. a lighting fixture body; 2. a power dissipation assembly; 201. an energy discharge pipeline; 202. a bucket-shaped body; 203. a ball valve; 204. an elastic support device; 2041. a telescopic outer cylinder; 2042. a telescopic inner shaft; 2043. a first support spring; 2044. a sliding connection seat; 2045. sliding connecting grooves; 205. a threaded rod; 206. a threaded barrel; 207. a first support bearing; 208. an arrow; 209. a knob; 210. scale lines; 3. a drainage tube; 4. an energy storage assembly; 401. an energy storage tank; 402. a piston seat; 403. a second support spring; 404. a drive device; 4041. a driving frame; 4042. a drive wheel; 4043. a first transfer shaft; 4044. a second support bearing; 4045. a torsion spring; 4046. a transfer groove; 405. a insection panel; 406. a sealed sliding sleeve; 407. a lifting seat; 408. an interface; 409. a sliding type closure seat; 410. a sliding groove; 411. a third support spring; 412. a bridge-type passage opening; 5. an air purification assembly; 501. a pressure relief cylinder; 502. a turbine; 503. a second transfer shaft; 504. a third support bearing; 505. supporting the mesh panel; 506. a winding coil; 507. a permanent magnet seat; 6. a first sealed bearing; 7. a first inhalation tube; 8. a drainage assembly; 801. a second sealed bearing; 802. a second suction duct; 803. a first gas-liquid separation membrane; 804. a third sealed bearing; 805. a third transfer shaft; 806. a wheeled vehicle; 807. a drainage fan; 9. a coolant storage tank; 10. a housing; 11. a cooling assembly; 111. a first return pipe; 112. a heat absorption box; 113. a second gas-liquid separation membrane; 114. a second return line.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, 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 invention.

Referring to fig. 1-10, the present invention provides a technical solution: an industrial lighting lamp comprises a casing 10, wherein an air purification assembly 5 is clamped at a position, corresponding to a port of a drainage tube 3, on the inner side wall of the casing 10, the air purification assembly 5 is used for purifying air flowing through, and the quality of air inside and outside a lighting lamp body 1 is improved;

a cooling liquid storage tank 9 is further arranged at the bottom of the inner side of the casing 10, a drainage assembly 8 is further arranged between the cooling liquid storage tank 9 and the air purification assembly 5, and the drainage assembly 8 is used for converting power and introducing air outside the lighting lamp main body 1 into the interior;

air purification subassembly 5 is including a pressure release section of thick bamboo 501, a pressure release section of thick bamboo 501 corresponds the port joint of drainage tube 3 on the inside wall of casing 10, the inside position department that corresponds drainage tube 3 of a pressure release section of thick bamboo 501 is provided with turbine 502, turbine 502 fixed connection is on the surface of second switching axle 503, third support bearing 504 has still been cup jointed on the surface of second switching axle 503, third support bearing 504 joint is on the similar one side of support net panel 505, support net panel 505 embedded connection is on the inside wall of a pressure release section of thick bamboo 501, the surface winding of second switching axle 503 is connected with winding coil 506.

Specifically, as shown in fig. 2, an energy releasing assembly 2 is fastened to the top of the lighting fixture body 1, the energy releasing assembly 2 is used for keeping constant the internal air pressure intensity and heat content of the lighting fixture body 1 and ensuring the sealing performance of the lighting fixture body 1, a rear end face of the energy releasing assembly 2 is communicated with a rear end face of the housing 10 through a drainage tube 3, the top of the housing 10 is fixedly connected with the bottom of the lighting fixture body 1, an energy storing assembly 4 is further arranged on the drainage tube 3, the energy storing assembly 4 is used for storing high-temperature air pressure released by the lighting fixture body 1 and performing pressurization treatment, the energy releasing assembly 2 includes an energy releasing pipeline 201, the energy releasing pipeline 201 is fastened to the top of the lighting fixture body 1, a bucket body 202 is fixedly connected to the inner side wall of the energy releasing pipeline 201, and a spherical valve 203 is embedded in the bucket body 202, one end of the spherical surface of the spherical valve 203, which is close to the threaded rod 205 through the elastic supporting device 204, is fixedly connected with the spherical surface of the spherical valve 203, the threaded rod 205 is in threaded connection with the threaded cylinder 206, the first supporting bearing 207 is sleeved on the surface of the threaded cylinder 206, the first supporting bearing 207 is clamped on the end surface of the inner side of the energy release pipeline 201, the end part of the threaded cylinder 206 is also fixedly connected with the knob 209, the outer arc surface of the knob 209 is provided with an arrow 208, the position of the surface of the energy release pipeline 201, which corresponds to the arrow 208, is also provided with a scale mark 210, the end part of the drainage tube 3 is clamped on the surface of the energy release pipeline 201, and the port of the drainage tube 3 is located above the spherical valve 203.

The embodiment specifically includes: when releasing pressure, can also prevent that the foreign matter from entering into the inside of illumination lamps and lanterns main part 1, effectively guaranteed illumination lamps and lanterns main part 1's self-protection performance, avoid forming permanent damage to illumination lamps and lanterns main part 1's sealed structure.

Specifically, as shown in fig. 3, the elastic supporting device 204 includes a telescopic outer cylinder 2041, an end of the telescopic outer cylinder 2041 is fixedly connected to a spherical surface of the ball valve 203, a telescopic inner shaft 2042 is sleeved inside the telescopic outer cylinder 2041, an end of the telescopic inner shaft 2042 is fixedly connected to an inner end surface of the telescopic outer cylinder 2041 through a first supporting spring 2043, a sliding connecting groove 2045 is formed in an inner side wall of the telescopic outer cylinder 2041, a sliding connecting seat 2044 is slidably connected to the sliding connecting groove 2045, and opposite surfaces of the sliding connecting seat 2044 and the telescopic inner shaft 2042 are fixedly connected to each other.

The embodiment specifically includes: the knob 209 is toggled to drive the threaded cylinder 206 to rotate on the surface of the threaded rod 205, and the scale mark 210 and the pointer are used as an auxiliary means, under the combined action effect of the torsion and the thread engagement force, the threaded cylinder 206 will displace on the surface of the threaded rod 205, because the threaded cylinder 206 is limited by the positioning of the first support bearing 207, and the ball valve 203 bears the support effect of the bucket body 202, the initial deformation amount of the first support spring 2043 can be regulated, namely the initial hardness of the first support spring 2043 is controlled, further, the pressure relief can be realized when the internal air pressure intensity of the lighting lamp main body 1 is regulated, according to the self construction of the lighting lamp main body 1 and the heat production amount in unit time, the reasonable pressure relief frequency is set, and the sealing performance of the lighting lamp main body 1 is effectively guaranteed.

Specifically, as shown in fig. 5, the energy storage assembly 4 includes an energy storage tank 401, the energy storage tank 401 is disposed on the drainage tube 3, a bridge-shaped passage port 412 is further formed in a position, corresponding to the drainage tube 3, of the surface of the energy storage tank 401, a piston seat 402 is sleeved inside the energy storage tank 401, the top of the piston seat 402 is fixedly connected to an end surface of the inner side of the energy storage tank 401 through a second support spring 403, a driving device 404 is fixedly connected to the bottom of the piston seat 402, a toothed panel 405 is engaged with the surface of the driving device 404, a sealing sliding sleeve 406 is sleeved on the surface of the toothed panel 405, and the sealing sliding sleeve 406 is clamped to the top of the piston seat 402.

The embodiment specifically includes: high-temperature air in the lighting lamp main body 1 flows into the energy storage tank 401 through the upstream section of the drainage tube 3, the air pressure intensity above the piston seat 402 is gradually increased along with the accumulation of the high-temperature air, the piston seat 402 moves downwards to the direction close to the lifting seat 407 under the pushing of the high-pressure air pressure, when the driving wheel 4042 pushes the lifting seat 407 to move downwards, the lifting seat 407 drives the sliding type interception seat to move downwards and apply pressure on the third supporting spring 411 until the downstream part of the drainage tube 3 is in a conduction state with the bridge-shaped channel opening 412, the high-temperature air is released into the pressure relief cylinder 501 through the downstream drainage tube 3, along with the release of the pressure, under the driving of the resetting elastic force of the second supporting spring 403, because the piston seat 402 moves upwards, the friction force exists between the driving wheel 4042 and the insection panel 405 in the descending process of the piston seat 402, under the combined action of the pushing force and the friction force, the driving wheel 4042 rotates in the second supporting bearing 4044 through the first adapting shaft 4043, and because the first adapting shaft 4043 also twists the torsion spring 4045 and deforms it in the process of rotating, when the driving wheel 4042 moves upward, the torsion spring 4045 releases the elastic force, so that the lifting seat 407 can be driven to drive the sliding type intercepting seat to continue to keep the opening state, when the driving wheel 4042 is disengaged from the insection panel 405, the sliding type intercepting seat 409 carries out sealed intercepting again on the bridge-shaped channel opening 412 under the driving of the reset elastic force of the third supporting spring 411, so that the circulation is constant and the energy storage function is achieved.

Specifically, as shown in fig. 6, the driving device 404 includes a driving frame 4041, the bottom of the corrugated panel 405 is fixedly connected with a lifting seat 407, the lifting seat 407 passes through a port 408 formed in an end surface of the inner side of the sliding groove 410 and is fixedly connected with a surface close to the sliding type closure seat 409, the sliding type closure seat 409 is further movably sleeved inside the sliding groove 410, the sliding groove 410 is disposed in a wall body of the energy storage tank 401, the bottom of the sliding type closure seat 409 is fixedly connected with an end surface of the inner side of the sliding groove 410 through a third supporting spring 411, and the sliding type closure seat 409 is located between the drainage tube 3 and the bridge-shaped passage opening 412.

The embodiment specifically includes: according to the principle of expansion with heat and contraction with cold, the air pressure intensity inside the lighting lamp main body 1 is gradually increased, when the air pressure intensity is larger than the elastic force intensity of the first supporting spring 2043, the ball valve 203 is separated from the bucket-shaped body 202 under the supporting of the high-temperature air pressure, the closure sealing of the bucket-shaped body 202 is released, the high-temperature air can be released into the energy storage tank 401 along the drainage tube 3, and the pressure relief assembly is additionally arranged on the surface of the lighting lamp main body 1, so that the situation that the lighting lamp main body 1 damages a sealing structure of the lighting lamp main body 1 due to the fact that the internal pressure is too large can be avoided.

Specifically, as shown in fig. 6, the driving device 404 includes a driving rack 4041, the top of the driving rack 4041 is fixedly connected to the bottom of the piston seat 402, a driving wheel 4042 is connected to the inner side of the driving rack 4041 in an embedded manner, the driving wheel 4042 is fixedly connected to the surface of the first adapting shaft 4043, the surface of the first adapting shaft 4043 is sleeved with a second supporting bearing 4044, the second supporting bearing 4044 is clamped on the end surface of the inner side of the adapting groove 4046 formed in the inner side wall of the driving rack 4041, the end surface of the inner side of the adapting groove 4046 is further fixedly connected to the surface of the first adapting shaft 4043 through a torsion spring 4045, and the torsion spring 4045 is further sleeved on the surface of the first adapting shaft 4043, and the opposite surfaces of the driving wheel 4042 and the toothed panel 405 are engaged with each other.

Specifically, as shown in fig. 7, permanent magnet seats 507 are further connected to the inner side wall of the pressure relief cylinder 501 at positions corresponding to the winding coils 506 in an embedded manner, and the magnetic poles of the opposite surfaces of the two permanent magnet seats 507 are opposite.

The embodiment specifically includes: the fast flowing high temperature air also acts on the surface of the wheel vehicle 806, so that the wheel vehicle 806 rotates in the third sealing bearing 804 through the third transfer shaft 805 and drives the flow guiding fan 807 to rotate in the second air suction pipe 802, the air in the second air suction pipe 802 can be driven by the flow guiding fan 807 to enter the cooling liquid storage tank 9 in the rotating process, and the second transfer shaft 503 drives the winding coil 506 to fast rotate on the inner side of the permanent magnet seat 507 to cut magnetic induction lines and generate an electromagnetic field, so that the passing air can be ionized.

Specifically, as shown in fig. 7, a first sealing bearing 6 is clamped at an end portion of the second transfer shaft 503, a first air suction pipe 7 is sleeved in the first sealing bearing 6, and the first air suction pipe 7 is further clamped on the surface of the housing 10.

Specifically, as shown in fig. 9, the drainage assembly 8 includes a second sealing bearing 801, the second sealing bearing 801 is sleeved on the surface of the second adapter shaft 503, the second sealing bearing 801 is clamped in the port of the second air suction pipe 802, the other end of the second air suction pipe 802 is communicated with one surface close to the cooling liquid storage tank 9, and a first gas-liquid separation membrane 803 is connected in an embedded manner at the position of the port of the second gas suction pipe 802 corresponding to the cooling liquid storage tank 9, a wheel vehicle 806 is further arranged in the pressure relief cylinder 501, the wheel vehicle 806 is fixedly connected to the surface of the third transfer shaft 805, a third sealing bearing 804 is sleeved on the surface of the third transfer shaft 805, the third sealing bearing 804 is clamped on the pipe wall of the second air suction pipe 802, a flow guiding fan 807 is fixedly connected to the surface of the third transfer shaft 805, and the flow guiding fan 807 is located inside the second air suction pipe 802.

The embodiment specifically includes: utilize the air current that enters into in the coolant liquid storage jar 9 to drive the coolant liquid and flow, and the air current can also play the cooling effect at the inside in-process that flows of coolant liquid, spray the inside of illumination lamps and lanterns main part 1 through second gas-liquid separation membrane 113 at last, and form the convection current with the energy release pipeline 201, the heat dispersion of illumination lamps and lanterns main part 1 has effectively been improved, the inside electronic components of illumination lamps and lanterns main part 1 has effectively been protected, the waterproof demand of illumination lamps and lanterns main part 1 has been satisfied, moreover, the steam generator is simple in structure, the maintenance cost is low, and can be applicable to on the current illumination lamps and lanterns main part 1.

Specifically, as shown in fig. 4, a cooling assembly 11 is further disposed between the cooling liquid storage tank 9 and the lighting fixture main body 1, the cooling assembly 11 includes a first return pipe 111, the first return pipe 111 is clamped on a rear end face of the housing 10 and is communicated with a face close to the cooling liquid storage tank 9, the other end of the first return pipe 111 is clamped on a top of the lighting fixture main body 1 and is communicated with a top of the heat absorption box 112, an outer arc face of the heat absorption box 112 is fixedly connected with a top of an inner side of the lighting fixture main body 1, a side of the bottom of the lighting fixture main body 1, which is far away from the energy release pipeline 201, is connected with a second gas-liquid separation membrane 113 in an embedded manner, and a side end face of the heat absorption box 112 is communicated with a bottom of the cooling liquid storage tank 9 through a second return pipe 114.

The embodiment specifically includes: the industrial lighting lamp main body 1 can release a large amount of heat energy in the using process, part of the heat energy can be released to the surrounding air through the heat dissipation fins arranged on the surface of the industrial lighting lamp main body, the residual heat energy is gathered in the lighting lamp main body 1 because of not being dissipated in time, and the air pressure intensity in the lighting lamp main body 1 is gradually increased along with the gathering of the large amount of heat energy according to the principle of expansion with heat and contraction with cold.

The working principle is as follows: when the industrial lighting lamp main body 1 is used, a large amount of heat energy can be released in the using process of the industrial lighting lamp main body 1, part of the heat energy can be released into the surrounding air through the radiating fins arranged on the surface of the industrial lighting lamp main body, the residual heat energy is gathered in the lighting lamp main body 1 because of not being timely radiated, the air pressure intensity in the lighting lamp main body 1 is gradually increased along with the gathering of a large amount of heat energy according to the principle of thermal expansion and cold contraction, when the air pressure intensity is larger than the elastic intensity of the first supporting spring 2043, the spherical valve 203 is separated from the bucket-shaped body 202 under the supporting of the high-temperature air pressure and the interception seal of the bucket-shaped body 202 is released, the high-temperature air can be released into the energy storage tank 401 along the drainage tube 3, through the additionally arranging the pressure release component on the surface of the lighting lamp main body 1, the situation that the sealing structure of the lighting lamp main body 1 is damaged due to the overlarge internal pressure can be avoided, and when the pressure is released, the self-protection performance of the lighting lamp main body 1 is effectively guaranteed, permanent damage to a sealing structure of the lighting lamp main body 1 is avoided, the risk that the lighting lamp main body 1 is damaged by external humid gas and liquid is reduced, the poking knob 209 drives the threaded cylinder 206 to rotate on the surface of the threaded rod 205 and is supplemented with the scale lines 210 and the pointer, under the combined effect of the torsion force and the thread biting force, the threaded cylinder 206 will displace on the surface of the threaded rod 205, as the threaded cylinder 206 is limited by the positioning of the first support bearing 207 and the spherical valve 203 bears the supporting effect of the bucket-shaped body 202, the initial deformation amount of the first support spring 2043 can be regulated, namely the initial hardness of the first support spring 2043 is controlled, and further the pressure intensity value inside the lighting lamp main body 1 can be regulated and controlled to release pressure, according to the self construction of the lighting lamp main body 1 and the heat generation amount in unit time, a reasonable pressure relief frequency is set, the sealing performance of the lighting lamp main body 1 is effectively ensured, high-temperature air in the lighting lamp main body 1 flows into the energy storage tank 401 through the upstream section of the drainage tube 3, the air pressure intensity above the piston seat 402 is gradually increased along with the accumulation of the high-temperature air, the piston seat 402 moves downwards to the direction close to the lifting seat 407 under the pushing of the high-pressure air pressure, when the driving wheel 4042 pushes the lifting seat 407 to move downwards, the lifting seat 407 drives the sliding type intercepting seat to move downwards and apply pressure on the third supporting spring 411 until the downstream section of the drainage tube 3 and the bridge-shaped channel opening 412 are in a conduction state, the high-temperature air is released into the pressure relief cylinder 501 through the downstream drainage tube 3, along with the release of the pressure, under the driving of the reset elasticity of the second supporting spring 403, because the piston seat 402 ascends, and friction exists between the driving wheel 4042 and the insection panel 405 in the descending process of the piston seat 402, under the combined action of thrust and friction, the driving wheel 4042 rotates in the second supporting bearing 4044 through the first transfer shaft 4043, and because the first transfer shaft 4043 also twists and deforms the torsion spring 4045 in the rotating process, when the driving wheel 4042 ascends, the torsion spring 4045 releases the elastic force, so that the lifting seat 407 can be driven to drive the sliding type interception seat to continuously keep the opening state, when the driving wheel 4042 is separated from the insection panel 405, under the driving of the reset elastic force of the third supporting spring 411, the sliding type interception seat 409 carries out sealing interception on the bridge-shaped channel opening 412 again, so that the regular circulation is not stopped, the energy storage function is realized, the slow-flowing high-temperature air is converted into fast-flowing high-temperature air, and the flowing force of the high-temperature air is enhanced, on one hand, after entering the interior of the pressure relief cylinder 501, the fast-flowing high-temperature air first acts on the surface of the turbine 502, and by utilizing the structural particularity of the turbine 502, the fast-flowing high-temperature air can be converted into a torsion force and acts on the second transfer shaft 503, on the other hand, the fast-flowing high-temperature air also acts on the surface of the wheel vehicle 806, so that the wheel vehicle 806 rotates in the third sealed bearing 804 through the third transfer shaft 805 and drives the drainage fan 807 to rotate in the second air suction pipe 802, the drainage fan can drive the air in the second air suction pipe 802 to enter the cooling liquid storage tank 9 during the rotation process, and the second transfer shaft 503 drives the winding coil 506 to rapidly rotate in the inner side of the permanent magnet seat 507 to cut the magnetic induction lines and generate an electromagnetic field, so that the passing air can be ionized, on the one hand, harmful substances such as bacteria, viruses and the like in the passing air can be effectively removed, on the other hand, the ionized air can neutralize the static electricity generated by the flowing friction of the air after entering the lighting lamp main body 1, not only can improve the stability of the working environment of the built-in circuit board of the lighting lamp main body 1, but also can purify the air in the industrial workshop, utilizes the air flow entering the cooling liquid storage tank 9 to drive the cooling liquid to flow, and the air flow can also play a role of cooling in the process of flowing in the cooling liquid, and finally is sprayed into the lighting lamp body 1 through the second gas-liquid separation film 113, and forms convection with the energy release pipeline 201, effectively improves the heat dissipation performance of the lighting lamp main body 1, effectively protects electronic components inside the lighting lamp main body 1, meets the waterproof requirement of the lighting lamp main body 1, has a simple structure and low maintenance cost, and can be applied to the existing lighting lamp main body 1.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and the technical solutions and the inventive concepts thereof according to the present invention should be equivalent or changed within the scope of the present invention.

Claims

1. An industrial lighting lamp comprises a casing (10), and is characterized in that an air purification assembly (5) is clamped at a position, corresponding to a port of a drainage tube (3), on the inner side wall of the casing (10), wherein the air purification assembly (5) is used for purifying air flowing through, so that the quality of the air inside and outside a lighting lamp main body (1) is improved;

a cooling liquid storage tank (9) is further arranged at the bottom of the inner side of the machine shell (10), a drainage assembly (8) is further arranged between the cooling liquid storage tank (9) and the air purification assembly (5), and the drainage assembly (8) is used for converting power and introducing air outside the lighting lamp main body (1) into the interior;

air purification subassembly (5) are including a pressure release section of thick bamboo (501), a pressure release section of thick bamboo (501) corresponds the port joint of drainage tube (3) on the inside wall of casing (10), the inside position department that corresponds drainage tube (3) of a pressure release section of thick bamboo (501) is provided with turbine (502), turbine (502) fixed connection is on the surface of second switching axle (503), third support bearing (504) have still been cup jointed on the surface of second switching axle (503), third support bearing (504) joint is on the one side that support screen panel (505) are close, support screen panel (505) embedded connection is on the inside wall of a pressure release section of thick bamboo (501), the surface winding of second switching axle (503) is connected with winding coil (506).

2. The industrial lighting fixture according to claim 1, wherein the top of the lighting fixture body (1) is fastened with an energy releasing component (2), the energy releasing component (2) is used for keeping constant the air pressure intensity and heat content inside the lighting fixture body (1) and ensuring the sealing performance of the lighting fixture body (1), the rear end face of the energy releasing component (2) is communicated with the rear end face of the casing (10) through a drainage tube (3), the top of the casing (10) is fixedly connected with the bottom of the lighting fixture body (1), the drainage tube (3) is further provided with an energy storing component (4), the energy storing component (4) is used for storing the high-temperature air pressure released by the lighting fixture body (1) and performing pressurization treatment, the energy releasing component (2) comprises an energy releasing pipeline (201), and the energy releasing pipeline (201) is fastened on the top of the lighting fixture body (1), the energy release pipeline is characterized in that a bucket body (202) is fixedly connected to the inner side wall of the energy release pipeline (201), a spherical valve (203) is embedded in the bucket body (202), one end of the spherical valve (203), close to a threaded rod (205), is fixedly connected to the spherical surface of the spherical valve (204), a threaded cylinder (206) is connected to the surface of the threaded rod (205) in a threaded manner, a first supporting bearing (207) is sleeved on the surface of the threaded cylinder (206), the first supporting bearing (207) is clamped to the end surface of the inner side of the energy release pipeline (201), a knob (209) is fixedly connected to the end of the threaded cylinder (206), an arrow (208) is arranged on the outer arc surface of the knob (209), a scale mark (210) is arranged at the position, corresponding to the arrow (208), of the surface of the energy release pipeline (201), and the end of the drainage tube (3) is clamped to the surface of the energy release pipeline (201), and the port of the drainage tube (3) is positioned above the ball valve (203).

3. The industrial lighting lamp as claimed in claim 2, wherein the resilient supporting device (204) comprises a telescopic outer cylinder (2041), an end of the telescopic outer cylinder (2041) is fixedly connected to the spherical surface of the ball valve (203), a telescopic inner shaft (2042) is sleeved inside the telescopic outer cylinder (2041), an end of the telescopic inner shaft (2042) is fixedly connected to an end surface of the inner side of the telescopic outer cylinder (2041) through a first supporting spring (2043), a sliding connecting groove (2045) is formed in an inner side wall of the telescopic outer cylinder (2041), a sliding connecting seat (2044) is slidably connected to the sliding connecting groove (2045), and opposite surfaces of the sliding connecting seat (2044) and the telescopic inner shaft (2042) are fixedly connected.

4. An industrial lighting fixture as claimed in claim 3, characterized in that the energy storage assembly (4) comprises an energy storage tank (401), the energy storage tank (401) being arranged on the drain tube (3), and the surface of the energy storage tank (401) is also provided with a bridge-shaped passage opening (412) at the position corresponding to the drainage tube (3), a piston seat (402) is sleeved in the energy storage tank (401), the top of the piston seat (402) is fixedly connected with the end surface of the inner side of the energy storage tank (401) through a second supporting spring (403), the bottom of the piston seat (402) is fixedly connected with a driving device (404), the surface of the driving device (404) is engaged with a toothed panel (405), the surface of the insection panel (405) is sleeved with a sealed sliding sleeve (406), the sealed sliding sleeve (406) is clamped at the top of the piston seat (402).

5. The industrial lighting lamp as claimed in claim 4, wherein the driving device (404) comprises a driving frame (4041), the bottom of the corrugated panel (405) is fixedly connected with a lifting seat (407), the lifting seat (407) passes through a port (408) formed in an end surface of an inner side of a sliding groove (410) and is fixedly connected with a surface close to a sliding type interception seat (409), the sliding type interception seat (409) is further movably sleeved inside the sliding groove (410), the sliding groove (410) is arranged in a wall body of the energy storage tank (401), the bottom of the interception sliding type seat (409) is fixedly connected with an end surface of the inner side of the sliding groove (410) through a third supporting spring (411), and the sliding type interception seat (409) is located between the drainage tube (3) and the bridge-shaped passage port (412).

6. An industrial light fixture as claimed in claim 5, characterized in that the drive means (404) comprise a drive rack (4041), the top of the driving frame (4041) is fixedly connected with the bottom of the piston seat (402), the inner side of the driving frame (4041) is connected with a driving wheel (4042) in an embedded manner, the driving wheel (4042) is fixedly connected to the surface of the first transfer shaft (4043), the surface of the first transfer shaft (4043) is sleeved with a second supporting bearing (4044), the second supporting bearing (4044) is clamped on the end surface of the inner side of the switching groove (4046) arranged on the inner side wall of the driving frame (4041), the end surface of the inner side of the transfer groove (4046) is fixedly connected with the surface of the first transfer shaft (4043) through a torsion spring (4045), and the torsion spring (4045) is sleeved on the surface of the first transfer shaft (4043), the opposing faces of the drive wheel (4042) and the toothed panel (405) intermesh.

7. An industrial lighting fixture as claimed in claim 6, wherein permanent magnet bases (507) are embedded in the inner side wall of the pressure relief cylinder (501) at positions corresponding to the winding coils (506), and the magnetic poles of the opposite surfaces of the two permanent magnet bases (507) are opposite.

8. An industrial lighting fixture as claimed in claim 7, characterized in that the end of the second adapter shaft (503) is clamped with a first sealing bearing (6), a first air suction pipe (7) is sleeved in the first sealing bearing (6), and the first air suction pipe (7) is also clamped on the surface of the housing (10).

9. An industrial lighting fixture as claimed in claim 8, wherein the flow guiding assembly (8) comprises a second sealing bearing (801), the second sealing bearing (801) is sleeved on the surface of the second adapting shaft (503), the second sealing bearing (801) is clamped in the port of the second air suction pipe (802), the other end of the second air suction pipe (802) is communicated with the side close to the coolant storage tank (9), the port of the second air suction pipe (802) is connected with a first gas-liquid separation membrane (803) in an embedded manner at the position corresponding to the coolant storage tank (9), the pressure relief cylinder (501) is further provided with a wheel vehicle (806) inside, the wheel vehicle (806) is fixedly connected on the surface of a third adapting shaft (805), the surface of the third adapting shaft (805) is sleeved with a third sealing bearing (804), the third sealing bearing (804) is clamped on the pipe wall of the second air suction pipe (802), the surface of the third transfer shaft (805) is also fixedly connected with a flow guiding fan (807), and the flow guiding fan (807) is positioned inside the second air suction pipe (802).

10. An industrial lighting fixture as claimed in claim 9, characterized in that a cooling assembly (11) is further arranged between the cooling fluid storage tank (9) and the lighting fixture body (1), the cooling component (11) comprises a first return pipe (111), the first return pipe (111) is clamped on the end face of the rear side of the machine shell (10) and is communicated with one face close to the cooling liquid storage tank (9), the other end of the first reflux pipe (111) is clamped at the top of the lighting lamp body (1) and communicated with the top of the heat absorption box (112), the outer cambered surface of the heat absorption box (112) is fixedly connected with the top of the inner side of the lighting lamp main body (1), a second gas-liquid separation membrane (113) is connected to one side of the bottom of the lighting lamp main body (1) far away from the energy discharge pipeline (201) in an embedded manner, the side end surface of the heat absorption box (112) is communicated with the bottom of the cooling liquid storage tank (9) through a second return pipe (114).