CN116095997A

CN116095997A - Intelligent control box for explosion-proof illumination

Info

Publication number: CN116095997A
Application number: CN202211633608.9A
Authority: CN
Inventors: 周祥御
Original assignee: Jiangsu Sunbird Lighting Electrical Appliance Co ltd
Current assignee: Jiangsu Sunbird Lighting Electrical Appliance Co ltd
Priority date: 2022-12-19
Filing date: 2022-12-19
Publication date: 2023-05-09
Anticipated expiration: 2042-12-19
Also published as: CN116095997B

Abstract

The invention provides an intelligent control box for explosion-proof illumination, which belongs to the technical field of control boxes and comprises a box body, wherein the box body is provided with a bottle body through a connecting rod, a connecting part and a screening part are arranged in the bottle body, the tail part of the bottle body is provided with a stop valve, a first communicating hole is reserved on the bottle body, a second communicating hole is reserved on the box body, the first communicating hole and the second communicating hole are connected through a first communicating passage, and a fan is arranged on the box body. The invention solves the problem that the heat dissipation efficiency is poor to meet the heat removal requirement during the heat removal of the ventilation hole by executing the heat removal to the inside of the control box through the ventilation hole, and in the invention, the condition that the operation time of components in the box body is greatly shortened due to heat accumulation is prevented, and the working time of the components is prolonged.

Description

Intelligent control box for explosion-proof illumination

Technical Field

The invention belongs to the technical field of control boxes, and particularly relates to an intelligent control box for explosion-proof illumination.

Background

The explosion-proof lighting control box is used for occasions where electric sparks are not allowed to be generated in some production environments, components are arranged in the explosion-proof lighting control box, and the purpose of explosion prevention is achieved.

The prior control box basically reserves ventilation holes in the control box during the operation period, and carries out the heat removal to the inside of the control box through the ventilation holes, so that the heat dissipation efficiency is poor during the heat removal carried out by the ventilation holes, and the heat removal requirement is difficult to meet, thereby providing an intelligent control box for explosion-proof illumination.

Disclosure of Invention

The invention provides an intelligent control box for explosion-proof illumination, and aims to solve the problem that heat in the control box is dissipated through the fact that the heat dissipation efficiency is poor to meet the heat dissipation requirement during the heat dissipation of a ventilation hole.

The invention provides an intelligent control box for explosion-proof illumination, which comprises a box body, wherein the box body is provided with a bottle body through a connecting rod, a connecting part and a screening part are arranged in the bottle body, a stop valve is arranged at the tail part of the bottle body, a first communicating hole is reserved on the bottle body, a second communicating hole is reserved on the box body, the first communicating hole and the second communicating hole are mutually connected through a first communicating passage, a fan is arranged on the box body, a second communicating passage is connected at an air inlet part of the fan, a third communicating hole is reserved on the bottle body, and the second communicating passage and the third communicating hole are mutually connected.

Further, the second communication passage is connected with a plurality of branch passages, the head of the box body is reserved with a plurality of connecting holes, the branch passages penetrate through the connecting holes, and one end of each branch passage positioned in the box body is provided with a check valve.

Further, the connecting part comprises a rotating opening, a first slewing bearing, a rotating rod, a rotating piece and a blocking piece;

the bottle is characterized in that a rotating opening is reserved in the inner wall of the head of the bottle body, a rotating rod is arranged in the rotating opening through a slewing bearing, a rotating piece is fixedly connected to the tail of the rotating rod, a plurality of blocking pieces are obliquely arranged on Zhou Cewai of the rotating piece, the blocking pieces are inclined from the head to the tail, and reversely rotate during rotation, and the blocking pieces are aligned to a communication hole III.

Further, the screening part comprises a rotating column, a stabilizing ring, a stabilizing rod, a converging passage and a screening cover;

the tail part of the rotating piece is provided with a rotating column, the outer side of the rotating column is hooped with a stabilizing ring, the rotating column is provided with a converging passage through a stabilizing rod, and the stabilizing ring and the converging passage are mutually connected through a screen cover.

Further, the converging passage is ring-shaped, the span between inner ring walls of the converging passage exceeds the span between outer ring walls of the stabilizing ring, the stabilizing ring is positioned at the head of the converging passage, and the screen cover is funnel-shaped.

Further, a shielding part is arranged on the rotating column, the rotating column cooperates with the changing part through the shielding part, and the rotating column drives the shielding part and the changing part to operate.

Further, the shielding part comprises a displacement ring, a second slewing bearing, a displacement table, a through hole, spiral teeth, a conducting rod, a conducting ring and a silica gel sheet;

the rotary column is provided with a displacement ring, a displacement table is arranged between inner ring walls of the displacement ring through a slewing bearing, a through hole is reserved in the displacement table, the rotary column penetrates through the through hole, the tail of the rotary column is provided with spiral teeth, the through hole and the spiral teeth are in threaded connection with each other, the displacement ring is provided with a conducting ring through a conducting rod, and one end of the conducting ring adjacent to the converging passage is provided with a silica gel sheet.

Further, the changing part comprises a bearing rod, a stabilizing piece, a displacement rod, a displacement hole, a disc spring, a pressing ring, a silica gel sleeve, a linear push rod, a connecting passage, a blocking bead, a traction piece and a discharging hole;

the inner wall of the bottle body is provided with a stabilizing piece through a bearing rod, the stabilizing piece is positioned at the tail part of the rotating column, one surface of the displacement ring adjacent to the stabilizing piece is provided with a displacement rod, a displacement hole is reserved on the stabilizing piece, the displacement rod penetrates through the displacement hole, one end of the displacement rod, which is farther from the displacement ring, is provided with a compression ring, the stabilizing piece and the displacement ring are mutually connected through a disc spring, the compression ring is connected with the stabilizing piece through a silica gel sleeve, one end, farther from the rotating column, of the stabilizing piece is fixedly connected with the linear push rod, the silica gel sleeve is connected with the linear push rod through a connecting passage, a blocking bead is arranged on the movable end of the linear push rod, a traction piece is fixedly connected in the bottle body, the traction piece is positioned at the tail part of the compression ring, and a discharging hole is reserved on the traction piece.

Further, the inner ring wall of the compression ring spans more than the diameter of the blocking bead, and the blocking bead, the compression ring and the centered orientation of the discharge hole are all in 1 straight line.

Further, a bead cavity is reserved in the displacement hole, a bead body is movably arranged in the bead cavity, and displacement rods of the bead body touch each other.

Compared with the prior art, the technical scheme provided by the invention has the following beneficial technical effects:

1. in the invention, when the heat in the box body is needed to be eliminated, the fan is operated to blow the surrounding low-heat wind into the bottle body through the second communication passage, the floating matters in the wind are screened out under the cooperation of the connecting part and the screening part in the bottle body, and then the low-heat wind is flushed into the box body through the first communication passage, so that the heat in the box body can be eliminated efficiently, the condition that the operation time of components in the box body is greatly shortened due to heat accumulation is prevented, and the working time of the components is prolonged.

2. In the invention, during the rapid passing of low-heat wind in the second communication passage, low pressure is generated near the wind flowing at high speed, so that attractive force is generated, the high-heat air in the box body can be led out by the branch passage, the heat in the box body can be eliminated with high efficiency, more excellent heat elimination effect is obtained, the high-heat air led out by the branch passage and the low-heat wind in the second communication passage are mutually fused, liquefied liquid is generated due to the mutual fusion of the high-heat air and the low-heat wind, and floating matters in the wind can be removed due to the touch of the liquefied liquid and the low-heat wind.

3. In the invention, the low-heat wind rapidly floods into the bottle body from the second communication passage, and the rotating rod can rotate in the rotating opening through the slewing bearing, so that the rotating sheet is pulled by the low-heat wind to rotate, the low-heat wind can be pulled to blow out towards the tail part, and when the low-heat wind and the sheet touch each other, the blending area of liquefied liquid in the low-heat wind and floating objects can be enlarged, so that fine floating objects are adhered in the liquefied liquid to accumulate into larger floating objects, and the floating objects can be screened out.

4. In the invention, when the low-heat wind passes through the screen cover, larger floating objects are blocked by the screen cover, and when some liquefied liquid in the low-heat wind passes through the screen cover, the surface layer is formed on the wall surface of the screen cover due to mutual attraction between molecules, so that the screen cover has the advantage of blocking the fine floating objects in the low-heat wind, and can be better screened out.

5. In the invention, during the rotation of the rotating column, the rotating column is connected with the through hole on the displacement table through the spiral teeth on the rotating column, the displacement table is led to draw the displacement ring to perform the displacement towards the head due to the rotation of the rotating column, the displacement ring can draw the displacement ring to displace together through the conducting rod during the displacement, thereby the conducting ring draws the silica gel sheet to block the discharge position of the converging passage during the displacement towards the head, the low-heat wind screened by the screen cover can be prevented from being polluted with floats again, the linear push rod comprises a hollow column body and a movable rod which is arranged in the column body in a displacement way, a piston piece is arranged at one end of the movable rod, the piston piece is attached to the inner wall of the column body, the displacement ring draws the disc spring to stretch towards the head, the displacement ring can draw the compression ring towards the head through the displacement rod, the compression ring is hollow and stores fluid therein, the fluid in the silica gel sleeve is forced into the linear through the connecting passage, thereby the push rod is blocked from displacing towards the tail under the condition of the fluid, the piston piece is blocked from flowing into the straight hole, the low-heat wind can flow from the self-contained chamber is formed, and the low-efficiency wind can flow into the low-induced chamber is communicated with the low-heat surge chamber after the plug is pulled, and the self-contained in the air chamber is filtered.

6. In the invention, after the heat removal in the box body is cooled, the displacement ring can be displaced towards the tail under the effect of the disc spring, the conduction ring is displaced towards the tail, so that the silica gel sheet can be separated from the discharging part of the converging passage, and the accumulated floating objects in the converging passage fall out through the discharging part, the linear push rod comprises a hollow cylinder and a movable rod which is arranged in the cylinder in a displacement way, a piston sheet is arranged at one end of the cylinder, the piston sheet is attached to the inner wall of the cylinder, during the displacement of the displacement ring towards the tail, the pressing ring can pull the silica gel sleeve to reset towards the tail, thereby the silica gel sleeve can pull fluid in the linear push rod out to re-surge into the silica gel sleeve through the connecting passage, and the traction blocking beads are separated from the discharging hole of the traction sheet during the movement end of the linear push rod, so that the cut-off door is opened, and the floating objects falling down in the converging passage are discharged out through the traction sheet, so that the bottle body can discharge the screened floating objects.

Additional features and advantages of the invention will be set forth in the description which follows, and in part will be obvious from the description, or may be learned by practice of the invention. The objectives and other advantages of the invention may be realized and attained by the structure particularly pointed out in the written description and drawings.

Drawings

The accompanying drawings are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate the invention and together with the embodiments of the invention, serve to explain the invention. In the drawings:

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

FIG. 2 is a schematic view of a partially cut-away structure of the present invention;

FIG. 3 is a schematic view of a partially cut-away structure of the present invention;

FIG. 4 is a schematic diagram of a two-in-one communication channel coupling structure according to the present invention;

FIG. 5 is a schematic view of the bottle body structure of the present invention;

FIG. 6 is a schematic view of a screen cover according to the present invention

FIG. 7 is an enlarged schematic view of the structure shown in FIG. 3 c according to the present invention

Fig. 8 is an enlarged schematic view of the structure d in fig. 3 according to the present invention.

Reference numerals: 2. a case body; 3. a connecting rod; 4. a bottle body; 5. a shutter; 6. a first communicating hole; 7. a second communicating hole; 8. a first communication passage; 9. a blower; 10. a second communication passage; 21. a third communicating hole; 22. a coupling hole; 23. a branching path; 24. a check valve; 25. a coupling part; 252. a rotating opening; 253. a first slewing bearing; 254. rotating the rod; 255. a rotating plate; 256. a blocking sheet; 26. a screening part; 262. rotating the column; 263. a stabilizing ring; 264. a stabilizing rod; 265. a converging passage; 266. a screen cover; 27. a shielding part; 272. a displacement ring; 273. a slewing bearing II; 274. a displacement table; 275. a through hole; 276. spiral teeth; 277. a conductive rod; 278. a conductive ring; 279. a silicone sheet; 28. a changing unit; 282. a support bar; 283. a stabilizing sheet; 284. a displacement rod; 285. a displacement hole; 286. a disc spring; 287. a compression ring; 288. a silica gel sleeve; 289. a straight push rod; 2810. a coupling passage; 2821. a blocking bead; 2822. a pulling piece; 2823. discharging the hole; 2824. a bead chamber; 2825. and (3) a bead body.

Detailed Description

In order to make the objects, technical solutions and advantages of the technical solutions of the present invention more clear, the technical solutions of the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings of specific embodiments of the present invention. Like reference numerals in the drawings denote like parts. It should be noted that the described embodiments are some, but not all embodiments of the present invention. All other embodiments, which can be made by a person skilled in the art without creative efforts, based on the described embodiments of the present invention fall within the protection scope of the present invention.

As shown in fig. 1-8, the invention provides an intelligent control box for explosion-proof lighting, which comprises a box body 2, wherein the box body 2 is provided with a bottle body 4 through a connecting rod 3, the bottle body 4 is internally provided with a connecting part 25 and a screening part 26, the tail part of the bottle body 4 is provided with a stop valve 5, the bottle body 4 is reserved with a first connecting hole 6, the box body 2 is reserved with a second connecting hole 7, the first connecting hole 6 and the second connecting hole 7 are mutually connected through a first connecting passage 8, the box body 2 is provided with a fan 9, an air inlet part of the fan 9 is connected with a second connecting passage 10, the bottle body 4 is reserved with a third connecting hole 21, the bottle body 4 and the first connecting passage 8 form a first connecting passage 10, when heat in the box body 2 is required to be eliminated, the fan 9 is operated, ambient low-heat wind is blown into the body 4 through the second connecting passage 10 with high efficiency, the air inlet part of the first connecting passage 25 and the second connecting passage 26 are connected with the first connecting passage 2, the heat accumulating time of the box body can be prolonged, and the heat accumulating time can be prolonged.

The second communication passage 10 is connected with a plurality of branch passages 23, the head of the box body 2 is reserved with a plurality of connecting holes 22, the branch passages 23 penetrate through the connecting holes 22, one ends of the branch passages 23 positioned in the box body 2 are provided with check valves 24, low-heat wind in the second communication passage 10 can be prevented from flowing into the box body 2 through the branch passages 23 by the arrangement of the check valves 24, low pressure is generated near the high-speed flowing wind during the rapid passing of the low-heat wind in the second communication passage 10, so that attractive force can lead the high-heat air in the box body 2 out by the branch passages 23, heat in the box body 2 can be eliminated with high efficiency, more excellent heat elimination effect can be obtained, the high-heat air led out by the branch passages 23 and the low-heat wind in the second communication passage 10 are mutually fused, liquefied liquid is generated due to the fact that the liquefied liquid is mutually fused with the low-heat wind, and floating matters in the wind can be removed.

The coupling portion 25 includes a rotating opening 252, a pivoting support 253, a rotating rod 254, a rotating plate 255 and a blocking plate 256;

the rotary opening 252 is reserved on the inner wall of the head of the bottle body 4, the rotary rod 254 is arranged in the rotary opening 252 through the rotary support 253, the rotary plate 255 is fixedly connected to the tail of the rotary rod 254, the plurality of baffle plates 256 are obliquely arranged on the Zhou Cewai of the rotary plate 255, the plurality of baffle plates 256 incline from the head to the tail, and reversely rotate during rotation, the baffle plates 256 are aligned with the communication hole III 21, the rotary rod 254 can rotate in the rotary opening 252 through the rotary support 253 in the second communication passage 10, the pressure impulse is applied to the baffle plates 256 through the low-heat wind, the baffle plates 256 can be led to drag the rotary plate 255 to perform rotation, the low-heat wind can drag the rotary plate 255 to blow out towards the tail, when the low-heat wind and the baffle plates touch each other, the blending area of the liquefied liquid and the floating object in the low-heat wind can be enlarged, and the fine floating object is adhered to the liquefied liquid and accumulated into a large floating object, so as to remove the floating object.

The screening part 26 comprises a rotary column 262, a stabilizing ring 263, a stabilizing rod 264, a converging passage 265 and a screening cover 266;

the tail of the rotating plate 255 is provided with a rotating column 262, the outer side of the rotating column 262 is hooped with a stabilizing ring 263, the rotating column 262 is provided with a convergence passage 265 through a stabilizing rod 264, the stabilizing ring 263 and the convergence passage 265 are connected with each other through a screen cover 266, when low-heat wind passes through the screen cover 266, larger floats are blocked by the screen cover 266, when some liquefied liquid in the low-heat wind passes through the screen cover 266, the surface layer is formed on the wall surface of the screen cover 266 due to the mutual attraction between molecules, the effect of blocking the fine floats in the low-heat wind can be better performed, the rotating plate 255 can draw the rotating opening 252 to rotate together during the rotation of the rotating plate 255, thereby the screen cover 266 can be driven by the stabilizing ring 263 and the convergence passage 265 to perform the rotation, the floats blocked by the screen cover 266 are displaced into the convergence passage 265 due to the rotation inertia, the cleaning of the screen cover 266 becomes simple, and the screen cover 266 can work for a long time.

The converging passage 265 is ring-shaped, the span between the inner walls of the converging passage 265 exceeds the span between the outer walls of the stabilizing ring 263, the stabilizing ring 263 is positioned at the head of the converging passage 265, the screen cover 266 is funnel-shaped, and the floating matters adhered to the wall surface of the screen cover 266 can be displaced into the converging passage 265 along the inclined surface of the screen cover 266 under the effect of the rotation inertia.

The rotating column 262 is provided with a shielding part 27, the rotating column 262 cooperates with the changing part 28 through the shielding part 27, and the rotating column 262 drives the shielding part 27 and the changing part 28 to operate.

The shielding part 27 comprises a displacement ring 272, a second slewing bearing 273, a displacement table 274, a through hole 275, spiral teeth 276, a conducting rod 277, a conducting ring 278 and a silica gel sheet 279;

a displacement ring 272 is arranged on the rotating column 262, a displacement table 274 is arranged between inner walls of the displacement ring 272 through two rotating bearings 273, a through hole 275 is reserved on the displacement table 274, the rotating column 262 penetrates through the through hole 275, spiral teeth 276 are arranged at the tail of the rotating column 262, the through hole 275 and the spiral teeth 276 are connected with each other in a threaded mode, a conducting ring 278 is arranged on the displacement ring 272 through a conducting rod 277, a silica gel sheet 279 is arranged at one end of the conducting ring 278 adjacent to a convergence passage 265, during the rotation of the rotating column 262, the displacement ring 272 is connected with the through hole 275 on the displacement table 274 through the spiral teeth 276 on the rotating column 262, the displacement ring 274 can be led to perform displacement towards the head due to the rotation of the rotating column 274, the displacement ring 272 can be led to the traction 78 together through the conducting rod 277 during the displacement, thereby the conducting ring 278 can block the cover of the convergence passage 265 during the displacement towards the head, the low-heat wind after the screen cover is removed can be prevented from being polluted again, the silica gel sheet 279 can be led out of the convergence passage 265 through the conducting ring 278 after the displacement of the box body 2 towards the rear part 278, and can be led out of the convergence passage 286 towards the convergence plate 286 through the displacement of the guide plate.

The changing portion 28 includes a support rod 282, a fixing plate 283, a displacement rod 284, a displacement hole 285, a disc spring 286, a pressing ring 287, a silica gel sleeve 288, a linear push rod 289, a coupling passage 2810, a blocking bead 2821, a traction piece 2822, and a discharge hole 2823;

the inner wall of the bottle body 4 is provided with a stabilizing sheet 283 through a supporting rod 282, the stabilizing sheet 283 is positioned at the tail part of the rotating column 262, one side of the displacement ring 272 adjacent to the stabilizing sheet 283 is provided with a displacement rod 284, the stabilizing sheet 283 is provided with a displacement hole 285, the displacement rod 284 penetrates through the displacement hole 285, one end of the displacement rod 284, which is farther from the displacement ring 272, is provided with a pressing ring 287, the stabilizing sheet 283 and the displacement ring 272 are mutually connected through a disc spring 286, the pressing ring 287 is connected with the stabilizing sheet 283 through a silica gel sleeve 288, one end of the stabilizing sheet 283, which is farther from the rotating column 262, is fixedly connected with a linear push rod 289 through a connecting passage 2810, the movable end of the linear push rod 289 is provided with a blocking bead 2821, the bottle body 4 is fixedly connected with a traction sheet 2822, the traction sheet 2822 is positioned at the tail part of the pressing ring 287, the traction sheet 2822 is provided with a discharging hole 2823, the linear push rod comprises a hollow column body and a movable rod which is arranged in the column body in a displacement way, a piston sheet is arranged at one end of the movable rod, the piston sheet is jointed with the inner wall of the column body, the displacement ring 272 pulls a disc spring 286 to stretch during the displacement of the displacement ring 272 towards the head, the compression ring 287 can be pulled towards the head together by the displacement rod 284, the compression ring 287 compresses a silica gel sleeve 288 during the displacement towards the head, the silica gel sleeve 288 is hollow and stores fluid therein, the fluid in the silica gel sleeve 288 is forced to rush into the linear push rod 289 by a connecting passage 2810, the linear push rod 289 pulls a blocking bead 2821 towards the tail under the influence of the fluid, the blocking bead 2821 plugs a discharging hole 2823 of the pulling sheet 2822 to form an independent closed chamber, the screened low-heat wind can directly rush into a first communication passage 8, the low-heat wind is efficiently gushed into the box body 2, the linear push rod comprises a hollow cylinder and a movable rod which is arranged in the cylinder in a displacement way, a piston piece is arranged at one end of the movable rod, the piston piece is attached to the inner wall of the cylinder, during the displacement of the displacement ring 272 towards the tail, the pressing ring 287 can pull the silica gel sleeve 288 to reset towards the tail, thereby the silica gel sleeve 288 pulls fluid in the linear push rod 289 out of the silica gel sleeve 288 through the connecting passage 2810, the traction blocking beads 2821 are separated from the discharge holes 2823 of the traction pieces 2822 during the execution of the retraction of the linear push rod 289, and the stop valve 5 is opened, so that the floating objects falling in the converging passage 265 can be discharged from the discharge holes 2823 through the traction pieces 2822, and the screened floating objects can be discharged from the bottle body 4.

The inner ring wall of the compression collar 287 spans a distance exceeding the diameter of the blocking bead 2821, and the centered orientation of the blocking bead 2821, compression collar 287 and discharge hole 2823 are all in 1 line, ensuring that the linear pushrod 289 pulls the blocking bead 2821 toward the tail to displace to plug the discharge hole 2823.

A bead cavity 2824 is reserved in the displacement hole 285, a bead 2825 is movably arranged in the bead cavity 2824, the bead 2825 and the displacement rod 284 touch each other, and displacement resistance of the displacement rod 284 in the displacement hole 285 can be reduced through the bead 2825, so that the displacement rod 284 can be displaced fluently in the displacement hole 285.

The implementation mode specifically comprises the following steps: when the heat in the box body 2 is needed to be eliminated, the fan 9 is operated to blow the surrounding low-heat wind into the bottle body 4 through the second communication passage 10, the floating matters in the wind are screened out under the cooperation of the connecting part 25 and the screening part 26 in the bottle body 4, and then the low-heat wind is flushed into the box body 2 through the first communication passage 8, so that the heat in the box body 2 can be eliminated efficiently, the condition that the operation time of components in the box body 2 is greatly shortened due to heat accumulation is prevented, and the working time of the components is prolonged.

During the rapid passing of the low-heat wind in the second communication passage 10, a low pressure is generated near the wind flowing at a high speed, so that attractive force is generated, the high-heat air in the box body 2 can be led out by the branch passage 23, the heat in the box body 2 can be eliminated with high efficiency, a better heat elimination effect is obtained, the high-heat air led out by the branch passage 23 and the low-heat wind in the second communication passage 10 are mutually fused, liquefied liquid is generated due to the mutual fusion of the high-heat air and the low-heat wind, and floating matters in the wind can be removed by screening due to the touch of the liquefied liquid and the low-heat wind.

The low-heat wind rapidly floods into the bottle body 4 from the second communication passage 10, the rotating rod 254 can rotate in the rotating opening 252 through the first slewing bearing 253, the pressing impulse is applied to the blocking piece 256 through the low-heat wind, the blocking piece 256 can drag the rotating piece 255 to rotate, the low-heat wind can be pulled to blow out towards the tail, when the low-heat wind and the blocking piece 256 touch each other, the blending area of liquefied liquid in the low-heat wind and floating objects can be enlarged, and the fine floating objects are adhered in the liquefied liquid and accumulated into larger floating objects, so that the floating objects can be screened out.

When the low-heat wind passes through the screen cover 266, larger floating objects are blocked by the screen cover 266, and when some liquefied liquid in the low-heat wind passes through the screen cover 266, because the surface layer is formed on the wall surface of the screen cover 266 by the mutual attraction between molecules, the advantage of blocking the fine floating objects in the low-heat wind can be better performed, and during the rotation of the rotation piece 255, the rotation piece 255 can draw the rotation opening 252 to rotate together, and the screen cover 266 can rotate under the traction of the stabilizing ring 263 and the converging passage 265, thereby the floating objects blocked by the screen cover 266 are displaced into the converging passage 265 due to the rotation inertia, so that the cleaning of the screen cover 266 is simplified, and the screen cover 266 can work for a long time.

During the rotation of the rotating column 262, the rotating column 262 is connected with the through hole 275 on the displacement table 274 through the spiral teeth 276, the displacement table 274 can be led to drive the displacement ring 272 to move towards the head due to the rotation of the rotating column 262, the displacement ring 272 can be led to move together through the traction 78 of the conducting rod 284 during the displacement, thereby the conducting ring 278 can be led to drive the silica gel sheet 279 to block the discharge position of the converging passage 265 during the displacement towards the head, the low-heat wind screened by the screen cover 266 can be prevented from being polluted with floating materials again, the linear push rod comprises a hollow column and a movable rod which is arranged in the column in a displacement way, one end of the movable rod is provided with a piston piece, the piston piece is attached with the inner wall of the column, the displacement ring 272 can be led to move towards the head through the traction disc 286 together through the displacement rod 284, the compression ring 287 can be led to move towards the head through the compression ring 284, the silica gel sleeve 288 is driven by the compression ring 287 during the displacement towards the head, the silica gel sleeve 288 is hollow and stores fluid therein, the fluid in the silica gel sleeve 288 is prevented from being compressed by the coupling passage 2810, thereby the linear push rod 28921 can be blocked from moving towards the tail 2822 by the low-heat wind, and the bead 282 is led to the flow in the linear push rod 2821 is blocked from moving towards the low-heat and the hollow cavity 2822, and the bead 282 is independently and can be blocked from moving upwards and upwards in the hollow cavity 2821.

After the heat removal in the tank body 2 has been completed, the displacement ring 272 is displaced towards the tail by the disc spring 286, the conducting ring 278 is displaced towards the tail, thereby the silica gel sheet 279 is separated from the discharging position of the converging passage 265, so that the floating objects accumulated in the converging passage 265 fall out through the discharging position, the linear push rod comprises a hollow cylinder and a movable rod arranged in the cylinder in a displacement way, a piston sheet is arranged at one end of the movable rod, the piston sheet is attached to the inner wall of the cylinder, during the displacement of the displacement ring 272 towards the tail, the pressing ring 287 can pull the silica gel sleeve 288 to return towards the tail, thereby the silica gel sleeve 288 can pull the fluid in the linear push rod 289 into the silica gel sleeve 288 again through the connecting passage 2810, and the traction blocking beads 2821 are separated from the discharging holes 2823 of the traction sheet 2822 during the movement end of the linear push rod 289, so that the floating objects falling in the converging passage 265 are discharged out of the sieve 2823 through the traction sheet 2822, so that the floating objects in the converging passage can be removed from the body 4 through the discharging holes of the traction sheet 2822.

The foregoing has shown and described the basic principles and main features of the present invention and the advantages of the present invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, and that the above embodiments and descriptions are merely illustrative of the principles of the present invention, and various changes and modifications may be made without departing from the spirit and scope of the invention, which is defined in the appended claims. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims

1. An intelligent control box for explosion-proof illumination is characterized by comprising a box body (2), wherein a bottle body (4) is arranged in the box body (2) through a connecting rod (3), a connecting part (25) and a screening part (26) are arranged in the bottle body (4), a stop valve (5) is arranged at the tail part of the bottle body (4), a first communicating hole (6) is reserved on the bottle body (4), a second communicating hole (7) is reserved on the box body (2), the first communicating hole (6) and the second communicating hole (7) are mutually connected through a first communicating passage (8), a fan (9) is arranged on the box body (2), a second communicating passage (10) is connected at an air inlet part of the fan (9), a third communicating hole (21) is reserved on the bottle body (4), and the second communicating passage (10) and the third communicating hole (21) are mutually connected.

2. An intelligent control box for explosion-proof lighting as set forth in claim 1, wherein: the second communication passage (10) is connected with a plurality of branch passages (23), the head of the box body (2) is reserved with a plurality of connecting holes (22), the branch passages (23) penetrate through the connecting holes (22), and one end of the branch passages (23) positioned in the box body (2) is provided with a check valve (24).

3. An intelligent control box for explosion-proof lighting as set forth in claim 1, wherein: the connecting part (25) comprises a rotating opening (252), a first slewing bearing (253), a rotating rod (254), a rotating piece (255) and a blocking piece (256);

the bottle is characterized in that a rotating opening (252) is reserved in the inner wall of the head of the bottle body (4), a rotating rod (254) is arranged in the rotating opening (252) through a slewing bearing I (253), the tail of the rotating rod (254) is fixedly connected with a rotating piece (255), a plurality of blocking pieces (256) are obliquely arranged on Zhou Cewai of the rotating piece (255), the blocking pieces (256) are inclined from the head to the tail, and reversely rotate during rotation, and the blocking pieces (256) are aligned with a communication hole III (21).

4. An intelligent control box for explosion-proof lighting as set forth in claim 3, wherein: the screening part (26) comprises a rotating column (262), a stabilizing ring (263), a stabilizing rod (264), a converging passage (265) and a screening cover (266);

the tail part of the rotating piece (255) is provided with a rotating column (262), the outer side of the rotating column (262) is hooped with a stabilizing ring (263), the rotating column (262) is provided with a converging passage (265) through a stabilizing rod (264), and the stabilizing ring (263) and the converging passage (265) are connected with each other through a sieve cover (266).

5. An intelligent control box for explosion-proof lighting as set forth in claim 4, wherein: the converging passage (265) is ring-shaped, the span between inner ring walls of the converging passage (265) exceeds the span between outer ring walls of the stabilizing ring (263), the stabilizing ring (263) is positioned at the head of the converging passage (265), and the screen cover (266) is funnel-shaped.

6. An intelligent control box for explosion-proof lighting as set forth in claim 4, wherein: the rotating column (262) is provided with a shielding part (27), the rotating column (262) cooperates with the changing part (28) through the shielding part (27), and the rotating column (262) drives the shielding part (27) and the changing part (28) to operate.

7. An intelligent control box for explosion-proof lighting as set forth in claim 6, wherein: the shielding part (27) comprises a displacement ring (272), a slewing bearing II (273), a displacement table (274), a through hole (275), spiral teeth (276), a conducting rod (277), a conducting ring (278) and a silica gel sheet (279);

the rotary column (262) is provided with a displacement ring (272), a displacement table (274) is arranged between inner ring walls of the displacement ring (272) through a second slewing bearing (273), a through hole (275) is reserved in the displacement table (274), the rotary column (262) penetrates through the through hole (275), the tail of the rotary column (262) is provided with a spiral tooth (276), the through hole (275) and the spiral tooth (276) are connected with each other in a threaded mode, the displacement ring (272) is provided with a conducting ring (278) through a conducting rod (277), and one end, adjacent to the converging passage (265), of the conducting ring (278) is provided with a silica gel sheet (279).

8. An intelligent control box for explosion-proof lighting as set forth in claim 6, wherein: the changing part (28) comprises a bearing rod (282), a stabilizing sheet (283), a displacement rod (284), a displacement hole (285), a disc spring (286), a pressing ring (287), a silica gel sleeve (288), a linear push rod (289), a connecting passage (2810), a blocking bead (2821), a traction sheet (2822) and a discharge hole (2823);

the utility model provides a bottle, including bottle body (4) and pulling out piece, firm piece (283) are installed via back-up bar (282), firm piece (283) are in the afterbody of rotating post (262), displacement bar (284) are installed to the one side that displacement piece (272) is adjacent firm piece (283), reserve displacement hole (285) on firm piece (283), displacement bar (284) pierces through displacement hole (285), and compression circle (287) are installed to the one end that displacement bar (284) are farther from displacement circle (272), firm piece (283) and displacement circle (272) are linked each other via disc spring (286), compression circle (287) are in the connection with firm piece (283) via silica gel cover (288), straight line push rod (289) are being linked to the one end that firm piece (283) is farther from rotating post (262), silica gel cover (288) are linked with straight line push rod (289) via connecting passageway (2810), block pearl (2821) are installed on the movable end of straight line (289), pull out piece (22) are being in the body (4) and pulling out piece (2823) are being in the reservation and pulling out piece (2823).

9. An intelligent control box for explosion-proof lighting as set forth in claim 8, wherein: the inner ring wall of the compression ring (287) spans more than the diameter of the blocking bead (2821), and the centered orientation of the blocking bead (2821), the compression ring (287) and the discharge hole (2823) are all on 1 straight line.

10. An intelligent control box for explosion-proof lighting as set forth in claim 8, wherein: a bead cavity (2824) is reserved in the displacement hole (285), a bead body (2825) is movably arranged in the bead cavity (2824), and the bead bodies (2825) and the displacement rods (284) touch each other.