CN116712825A - Factory automation system for dust removal - Google Patents

Abstract

The invention belongs to the technical field of factory automation, and particularly relates to a factory automation system for dust removal, which is characterized in that a movable upper jacking block is arranged in an upper jacking cavity, so that a partition plate can partition a communication hole when a dust collector works, a movable pressure plate is arranged in a limiting cavity, so that the dust collector automatically returns to a working cavity when a storage box is filled with enough dust and water, the dust removal range is wider, the movable upper jacking plate is arranged in the upper jacking cavity, the filter cavity can be cleaned regularly, dust accumulation on the filter screen is avoided, the dust removal effect is influenced, meanwhile, water vapor is sprayed to avoid dust flying, the dust is inhaled by workers, and a driving plate is arranged on the upper end face of the rear side of a stretching pipe in an extending mode, so that the water is stored in the dust collector when the dust collector works, a filter screen in the filter cavity can be cleaned when the dust collector works, and the filter effect is further improved.

Description

Factory automation system for dust removal

Technical Field

The invention relates to the technical field of factory automation, in particular to a dust-removing factory automation system.

Background

Along with the development of industrial economy, people have higher and higher awareness of environmental protection, and the national emission indexes are more and more strict, so that the dust-removing agent is widely applied to dust-removing equipment in industries such as chemical industry, coal kilns and the like which are easy to generate dust, and is an indispensable equipment for automatic matching of factories.

In the prior art, when carrying out dust removal work, the filter screen in the dust collecting equipment absorbs the gas that contains dust particle, and after carrying out long-term use, can adhere impurity on the filter screen for can not obtain timely cleanness for the filter effect of filter screen reduces, thereby makes dust collecting equipment's dust removal effect reduce, and the manual timing is clean comparatively troublesome simultaneously.

Disclosure of Invention

The object of the present invention is to provide a dust-removing factory automation system for overcoming the above-mentioned drawbacks of the prior art.

The invention relates to a factory automation system for dust removal, which comprises a main box body, wherein the left end face of the main box body is provided with a working cavity with a left opening and a U-shaped opening, the right wall of the working cavity is provided with a cleaning switch, the upper wall of the working cavity is internally provided with an lifting cavity, the working cavity is internally provided with a dust collector, the lower end faces of the dust collector are uniformly distributed with movable wheels, the lower end faces of the left side and the right side of the dust collector are symmetrically provided with communicating pipes with downward openings and U-shaped openings, the lower end faces of the left side and the right side of the dust collector are extended and are provided with vent pipes, vent holes are arranged in the vent pipes and are connected with the communicating pipes, the dust collector is internally provided with a dust falling cavity, the upper walls of the left side and the right side of the dust falling cavity are symmetrically provided with filter cavities with downward openings and the U-shaped openings, a sealing cavity is connected between the filter cavities and the communicating pipes, the dust falling cavity is characterized in that the left wall and the right wall of the lower side of the dust falling cavity are provided with limiting cavities which are opened towards the dust falling cavity and are U-shaped openings, the left side of the limiting cavities is provided with a blower, the left side of the limiting cavities is provided with a filter screen between the left wall and the right wall of the filter cavity, the upper wall of the dust falling cavity is provided with a water storage cavity, the right wall of the filter cavity is connected with a sprayer, the upper end surfaces of the left side and the right side of the dust collector are provided with contact cavities which are opened upwards and are U-shaped openings, one side wall of each of the extending cavities far away from the water storage cavity is provided with an upward moving cavity which is opened towards the water storage cavity and is U-shaped openings, the lower wall of each extending cavity is communicated with the filter cavity, a partition cavity is arranged between the two communication holes, the upper wall of the water storage cavity is internally provided with an upper top cavity, the upper top cavity penetrates through the partition cavity, the front end surface of the dust collector is provided with a contact cavity which is opened forwards and is U-shaped opening, the utility model discloses a water storage cavity, including main tank body, contact chamber, floating chamber, connecting chamber, main tank body, floating chamber upper wall, movable ball, floating switch, the connecting chamber is equipped with to the connecting chamber, the connecting chamber is connected before the retaining chamber the contact chamber is equipped with the filler, filler left side upper wall is equipped with the opening and is the whereabouts chamber of U type opening form downwards, be equipped with the opening in the contact chamber upper wall, be equipped with smooth chamber with the contact chamber is equipped with the smooth chamber in the contact chamber upper wall, smooth chamber right side upper wall be equipped with the opening downwards and be the connecting chamber of U type opening form, the connecting chamber with be equipped with between the whereabouts chamber and tighten the chamber, be equipped with in the terminal surface and remove the chamber, the retaining chamber upper wall is equipped with the floating chamber, floating intracavity is equipped with mobilizable floating ball, floating chamber upper wall is fixed and is equipped with floating switch.

Preferably, the limiting cavity is internally provided with a movable pressure plate, the upper end surface of the pressure plate is provided with a storage box, the upper end surface of the storage box is provided with a storage cavity with an upward opening and a U-shaped opening, a pressure spring is arranged between the lower end surface of the pressure plate and the lower wall of the dust falling cavity, and the lower wall of the dust falling cavity is provided with a return trigger.

Preferably, the movable upper lifting plate is arranged in the upper lifting cavity, the lower wall of the upper lifting cavity is provided with a pressing magnet, an upper lifting spring is arranged between the lower end face of the upper lifting plate and the lower wall of the upper lifting cavity, the lower end face of the upper lifting plate penetrates through the pressing magnet to be extended into the working cavity and provided with a pressing rod, the lower end face of the pressing rod is extended to be provided with a pressing plate, the left end and the right end of the pressing plate are provided with sliding pipes, the lower end face of each sliding pipe is provided with water holes with downward openings and U-shaped openings, water storage tanks are respectively arranged in the left wall and the right wall of the upper lifting cavity, movable sliding plates are arranged in the water holes, connecting pipes are arranged between the upper end faces of the sliding plates, the lower end faces of the sliding plates are provided with water injection ports with downward openings and U-shaped openings, and the water injection ports are connected with the water storage tanks.

Preferably, the lower end of the lower pressing plate extends towards the interior of the upper top cavity and is provided with a lower extending rod, a movable upper top block is arranged in the upper top cavity, an upper top spring is arranged between the lower end face of the upper top block and the lower wall of the upper top cavity, two movable partition plates are symmetrically arranged in the partition cavity, the upper walls on the left side and the right side of the partition cavity are respectively provided with a pressing cavity with a downward opening and a U-shaped opening, the upper end of the partition plate extends towards the interior of the pressing cavity and is provided with a pressing plate, the pressing plate is far away from a side face of the upper top cavity and a side wall of the pressing cavity, which is far away from the pressing cavity, of the sliding tube is provided with a downward moving plate.

Preferably, a movable upward moving plate is arranged in the upward moving cavity, the upward moving plate extends into the extending cavity, an upward moving rod is arranged at the lower end face of the upward moving plate, which extends into the sealing cavity, and an upward moving spring is arranged between the lower end face of the upward moving plate and the lower wall of the upward moving cavity.

Preferably, the water discharge tank is arranged on the front wall of the movable cavity, the water injection magnet is arranged on the rear wall of the movable cavity, the movable extension pipe is arranged in the movable cavity, the translation block is fixedly arranged on the outer circular surface of the front side of the extension pipe, the movable spring is arranged between the rear end surface of the translation block and the rear wall of the movable cavity, the rear end surface of the extension pipe is provided with an opening backwards and a U-shaped opening-shaped extension hole, a movable water discharge plate is arranged in the extension hole, a water discharge pipe is arranged between the front end surface of the water discharge plate and the rear end surface of the water discharge tank, and the rear end surface of the water discharge plate is provided with an opening backwards and a U-shaped opening-shaped water discharge hole.

Preferably, the extension of the upper end face of the rear side of the extension pipe is provided with a driving plate, the smooth cavity is internally provided with a movable moving plate, the lower end face of the moving plate extends towards the contact cavity to be provided with a contact plate, a partition spring is arranged between the rear end face of the moving plate and the rear wall of the smooth cavity, a tightening shaft is rotatably arranged between the upper side of the falling cavity and the left wall and the right wall of the upper side of the smooth cavity, tightening wheels are fixedly arranged on the outer circumferential surface of the tightening shaft, movable falling blocks are arranged in the falling cavity, the upper end face of each falling block is provided with tightening ropes, and the tightening ropes are connected with the front end face of the moving plate through the tightening of the tightening wheels.

The beneficial effects of the invention are as follows:

1. according to the invention, the movable pressure plate is arranged in the limiting cavity, so that the dust collector automatically returns to the working cavity when the storage box is filled with enough dust and water, and the dust removing range is wider.

2. According to the invention, the movable lifting plate is arranged in the lifting cavity, so that the interior of the filtering cavity can be cleaned regularly, dust accumulation on the filtering net is avoided, the dust removal effect is influenced, and meanwhile, dust is prevented from flying by spraying water vapor and is inhaled by staff.

3. The invention is provided with the driving plate on the upper end surface of the rear side of the extension pipe, so that the water storage cavity stores water when the dust collector operates, the filter screen in the filter cavity can be cleaned when the dust collector operates, and the filtering effect is further improved.

Drawings

FIG. 1 is a schematic view of the appearance of the present invention;

FIG. 2 is a schematic view of the overall structure of a dust removal plant automation system of the present invention;

FIG. 3 is a schematic illustration of A-A of FIG. 2 in accordance with the present invention;

FIG. 4 is a schematic illustration of B-B of FIG. 3 in accordance with the present invention;

FIG. 5 is an enlarged partial schematic view of the slide plate member of FIG. 2 in accordance with the present invention;

FIG. 6 is an enlarged partial schematic view of the filler neck assembly of FIG. 3 in accordance with the present invention;

fig. 7 is an enlarged view of a portion of the water injection magnet assembly of fig. 3 in accordance with the present invention.

In the figure:

11. a main case; 12. a water storage tank; 13. lifting the spring; 14. an upper lifting plate; 15. pressing down the magnet; 16. a lower pressing plate; 17. a lower extension rod; 18. pressing down a rod; 19. lifting the cavity; 20. a working chamber; 21. moving the cavity upwards; 22. a downward moving plate; 23. a floating box; 24. a compression spring; 25. an upper top cavity; 26. a compacting plate; 27. a compaction chamber; 28. a sliding plate; 29. extending into the cavity; 30. a spring is moved upwards; 31. moving up the plate; 32. a blower; 33. a communicating pipe; 34. a vent hole; 35. a vent pipe; 36. a moving wheel; 37. a pressure plate; 38. a storage chamber; 39. a filter screen; 40. a sprinkler; 41. a filter chamber; 42. isolating the cavity; 43. an upper top block; 44. a partition panel; 45. a communication hole; 46. a top spring; 47. a water storage cavity; 48. a storage box; 49. a backhaul trigger; 50. a pressure spring; 51. a partition spring; 52. a spacing cavity; 53. a dust falling cavity; 54. sealing the cavity; 55. a dust collector; 56. a rod is moved upwards; 57. cleaning a switch; 58. a floating switch; 59. a floating ball; 60. a floating chamber; 61. a filler neck; 62. water injection magnet; 63. a water discharge tank; 64. a moving chamber; 65. tightening the cavity; 66. tightening the rope; 67. a moving plate; 68. a smoothing chamber; 69. a contact cavity; 70. a driving plate; 71. an extending hole; 72. a tube extending into the pipe; 73. a contact plate; 74. a moving spring; 75. a translation block; 76. a drain plate; 77. a water drain hole; 78. a water drain pipe; 79. a connecting cavity; 80. a connecting pipe; 81. a sliding tube; 82. a water filling port; 83. a water through hole; 84. a drop cavity; 85. a falling block; 86. a tightening wheel; 87. and (5) tightening the shaft.

Detailed Description

In the description of the present invention, it should be noted that the positional or positional relationship indicated by the terms such as "upper", "lower", "inner", "outer", "top/bottom", etc. are based on the positional or positional relationship shown in the second drawing, are merely for convenience of describing the present invention and simplifying the description, and do not indicate or imply that the apparatus or element to be referred to must have a specific orientation, be configured and operated in a specific orientation, and thus should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and the like, are used for descriptive purposes only and are not to be construed as indicating or implying relative importance:

referring to fig. 1-7, a factory automation system for dust removal according to an embodiment of the invention comprises a main box 11, wherein a left end face of the main box 11 is provided with a working chamber 20 which is opened leftwards and is shaped like a U, a cleaning switch 57 is arranged on the right wall of the working chamber 20, an upper lifting chamber 19 is arranged in the upper wall of the working chamber 20, a dust collector 55 is arranged in the working chamber 20, movable wheels 36 are uniformly distributed on the lower end face of the dust collector 55, communicating pipes 33 which are opened downwards and are shaped like a U are symmetrically arranged on the lower end faces of the left side and the right side of the dust collector 55, a vent pipe 35 is arranged on the lower end faces of the left side and the right side of the dust collector 55, a vent hole 34 is arranged in the vent pipe 35 and is connected with the communicating pipes 33, a dust falling chamber 53 is arranged in the dust collector 55, filter chambers 41 which are opened downwards and are shaped like a U are symmetrically arranged on the upper walls of the left side and the right side of the dust falling chamber 53, a sealing cavity 54 is connected between the filter cavity 41 and the communicating pipe 33, a limit cavity 52 which is opened to the dust falling cavity 53 and is shaped like a U is arranged on the left and right walls of the lower side of the dust falling cavity 53, a blower 32 is arranged in the left seal cavity 54, a filter screen 39 is arranged between the left and right walls of the filter cavity 41, a water storage cavity 47 is arranged in the upper wall of the dust falling cavity 53, a sprayer 40 is arranged on the right wall of the filter cavity 41 on the left side, an upward extending cavity 29 which is opened upwards and is shaped like a U is arranged on the upper end surfaces of the left and right sides of the dust collector 55, an upward moving cavity 21 which is opened to the water storage cavity 47 and is shaped like a U is arranged on one side wall of the extending cavity 29 which is far away from the water storage cavity 47, a communicating hole 45 is arranged on the lower wall of the extending cavity 29, a partition cavity 42 is connected between the two communicating holes 45, the utility model discloses a dust collector, including the upper chamber of water storage 47, the upper chamber of water storage 25 runs through cut off chamber 42, the preceding terminal surface of dust catcher 55 is equipped with the opening and is the contact chamber 69 of U type opening form, the preceding wall connection of water storage 47 contact chamber 69 is equipped with filler neck 61, filler neck 61 left side upper wall is equipped with the opening and is the whereabouts chamber 84 of U type opening form downwards, be equipped with smooth chamber 68 in the upper wall of contact chamber 69, smooth chamber 68 with contact chamber 69 is connected, smooth chamber 68 right side upper wall is equipped with the opening and is the connection chamber 79 of U type opening form downwards, the connection chamber 79 with connect between whereabouts chamber 84 and be equipped with tight chamber 65, be equipped with in the terminal surface of main tank 11 and remove chamber 64, water storage 47 upper wall is equipped with float case 23, be equipped with float chamber 60 in the float case 23, be equipped with movable float ball 59 in float chamber 60, float chamber 60 upper wall is fixed to be equipped with float switch 58.

In this embodiment, a movable pressure plate 37 is disposed in the limiting cavity 52, a storage box 48 is disposed on an upper end surface of the pressure plate 37, a storage cavity 38 with an upward opening and a U-shaped opening is disposed on an upper end surface of the storage box 48, a pressure spring 50 is disposed between a lower end surface of the pressure plate 37 and a lower wall of the dust falling cavity 53, a return trigger 49 is disposed on a lower wall of the dust falling cavity 53, dust can be filtered through the filter screen 39 when the dust collector 55 is in external operation, and meanwhile, the dust falls into the storage cavity 38, along with accumulation of the dust in the storage cavity 38, the weight of the storage box 48 is increased, and then the storage box 48 is moved downwards, so that the pressure plate 37 is driven to move downwards, and when the pressure plate 37 triggers the return trigger 49, the dust collector 55 returns into the working cavity 20 to clean and replace the storage box 48.

In this embodiment, a movable upper lifting plate 14 is disposed in the lifting cavity 19, a pressing magnet 15 is disposed on the lower wall of the lifting cavity 19, a lifting spring 13 is disposed between the lower end surface of the upper lifting plate 14 and the lower wall of the lifting cavity 19, the lower end surface of the upper lifting plate 14 passes through the pressing magnet 15 and extends into the working cavity 20 to form a pressing rod 18, the lower end surface of the pressing rod 18 extends to form a pressing plate 16, sliding tubes 81 are disposed at the left and right ends of the pressing plate 16, water through holes 83 with downward openings and U-shaped openings are disposed at the lower end surface of the sliding tubes 81, water storage tanks 12 are disposed in the left and right walls of the lifting cavity 19, movable sliding plates 28 are disposed in the water through holes 83, connecting tubes 80 are disposed between the upper end surfaces of the sliding plates 28 and the water storage tanks 12, the lower end surface of the sliding plate 28 is provided with a water injection port 82 with a downward opening and a U-shaped opening, the water injection port 82 is connected with the water storage tank 12, under the normal state, the upper lifting plate 14 moves upwards under the action of the lifting spring 13, and then drives the lower pressing rod 18 to move upwards, and then drives the lower pressing plate 16 to move upwards, and further drives the sliding pipe 81 to move upwards, so that the sliding pipe 81 contracts upwards, and then the dust collector 55 can normally enter and exit the working cavity 20, when the pressing magnet 15 is electrified, the upper lifting plate 14 moves downwards under the action of the pressing magnet 15, and then the lower pressing rod 18 moves downwards, and then the lower pressing plate 16 extends downwards and then drives the sliding pipe 81 to move downwards, so that the sliding pipe 81 passes through the communication hole 45 and stretches into the filtering cavity 41, and dust in the filter chamber 41 can be cleaned through the water injection port 82.

In this embodiment, the lower end of the lower pressing plate 16 extends toward the interior of the upper top cavity 25 and is provided with a lower extending rod 17, a movable upper top block 43 is disposed in the upper top cavity 25, an upper top spring 46 is disposed between the lower end surface of the upper top block 43 and the lower wall of the upper top cavity 25, two movable partition plates 44 are symmetrically disposed in the partition cavity 42, the upper walls on the left and right sides of the partition cavity 42 are respectively provided with a pressing cavity 27 with downward openings and in a U-shaped opening shape, the upper end of the partition plates 44 extends toward the interior of the pressing cavity 27 and is provided with a pressing plate 26, a pressing spring 24 is disposed between one side surface of the upper top cavity 25 and one side wall of the pressing cavity 27, the sliding pipe 81 extends away from the upper top cavity 25 and is provided with a lower moving plate 22, under the action of the upper top spring 46, the partition plates 44 move upward under the action of the upper top spring 46, the upper side wall is further provided with a pressing plate 26 facing away from the upper top cavity 25, the lower side wall of the pressing plate 45 moves toward the lower side wall of the upper top cavity 25, and then the sliding plate 45 moves toward the lower side wall of the upper top cavity 25, and then the pressing plate 45 moves toward the upper top cavity 25, and the upper side wall 45 moves toward the lower side wall of the pressing plate 45, and further moves toward the upper side wall of the upper top cavity 25, and further, and thus the pressing plate 45 moves toward the upper side of the upper pressing plate 45 is further, and the pressing plate is further moves toward the upper pressing plate 45.

In this embodiment, a movable upward moving plate 31 is disposed in the upward moving cavity 21, the upward moving plate 31 extends into the extending cavity 29, an upward moving rod 56 is disposed at a lower end of the upward moving plate 31 facing into the sealing cavity 54, an upward moving spring 30 is disposed between a lower end surface of the upward moving plate 31 and a lower wall of the upward moving cavity 21, under a normal state, the upward moving plate 31 moves upward under the action of the upward moving spring 30, so that the sealing cavity 54 is communicated, when the sliding tube 81 moves downward, the downward moving plate 22 is driven to move downward, and then the upward moving plate 31 is driven to move downward, and then the upward moving rod 56 is driven to move downward, so that the sealing cavity 54 is blocked, and when the filtering cavity 41 is cleaned by the water through holes 83, water and dust do not flow out through the sealing cavity 54, and only flow into the storage cavity 38 to be collected, so that later cleaning is facilitated.

In this embodiment, be equipped with the water drain tank 63 on the removal chamber 64 front wall, be equipped with water injection magnet 62 on the removal chamber 64 back wall, be equipped with mobilizable extension pipe 72 in the removal chamber 64, the fixed translation piece 75 that is equipped with on extension pipe 72 front side excircle face, translation piece 75 rear end face with be equipped with between the removal chamber 64 back wall and move spring 74, extension pipe 72 rear end face is equipped with the opening and is the U type open-ended and stretch into hole 71, be equipped with mobilizable drain plate 76 in the extension hole 71, be equipped with water drain pipe 78 between drain plate 76 front end face and the water drain tank 63 rear end face, drain plate 76 rear end face is equipped with the opening backward and is U type open-ended drain hole 77, under normal condition translation piece 75 is in under the effect of removal spring 74 forward movement, and then drives extension pipe 72 forward movement for extension pipe 72 stretches into in the removal chamber 64, make dust catcher 55 can go out work chamber 20 back face and be equipped with water drain pipe 78, when the extension piece 62 is moved forward, and then the translation piece 75 is moved forward when the water drain hole 47 is stretched into.

In this embodiment, the extension pipe 72 rear side up end extension is equipped with and drives the board 70, be equipped with mobilizable movable board 67 in the smooth chamber 68, the movable board 67 lower extreme face towards extend in the contact chamber 69 and be equipped with the contact plate 73, be equipped with the partition spring 51 between movable board 67 rear end face and the smooth chamber 68 back wall fall down the chamber 84 upside with smooth chamber 68 front side with both walls are rotated about connecting chamber 79 upside and are equipped with and are tightened the axle 87, be equipped with the tight pulley 86 on tightening the outer disc of axle 87, be equipped with mobilizable whereabouts piece 85 in the whereabouts chamber 84, whereabouts piece 85 up end extension is equipped with and tightens the rope 66, the tight rope 66 stretches tightly through three tight pulley 86 with the terminal surface is connected before the movable board 67, under the normal condition the effect of partition spring 51 down the whereabouts piece 85 moves down, and then cuts off the water storage piece 61 the side of being equipped with the tight pulley 85 down, and then the water storage piece 61 is prevented from stretching down into the water storage piece 47 and then is passed through the water storage piece 47 and is made to be connected into the water storage piece 47 and then is stretched into the water storage piece 47 the water storage piece, and then the water storage piece is passed into the hole is made to be connected into the water storage piece(s) and is stretched into the water storage piece(s) after the hole) is stretched into the hole(s) and is passed into the hole(s) by the water).

The invention relates to a dust-removing factory automation system, which comprises the following working procedures:

in operation, the main box 11 is fixed first, the upward moving plate 31 moves upward under the action of the upward moving spring 30 when the dust collector 55 operates, so that the sealing cavity 54 is communicated, the upward pushing block 43 moves upward under the action of the upward pushing spring 46, so that the partition plate 44 moves away from the upward pushing cavity 25, the communication hole 45 is further partitioned, dust in the filter cavity 41 is prevented from running out in the working cavity 20, the moving plate 67 moves forward under the action of the partition spring 51, the falling block 85 moves downward, the filling port 61 is further partitioned, water in the water storage cavity 47 is prevented from flowing out in the operation process of the dust collector 55, the blower 32 is started, the dust-bearing air is sucked into the dust falling cavity 53 through the right air vent 34 in the movement process, the filter screen 39 is used for filtering, the filtered air is discharged rightward through the left air vent 34, and simultaneously blows dust on the ground, so that the dust on the ground is scattered in the air, the air vent 34 on the right side is convenient to inhale, the sprayer 40 can spray water vapor, the filter screen 39 is cleaned, the filtering effect is further improved, the filtered dust and the sprayed water can fall into the storage cavity 38, the weight of the storage box 48 is further increased, the storage box 48 is moved downward, the pressure plate 37 is further moved downward, the dust collector 55 returns into the working cavity 20 when the return trigger 49 is triggered, the cleaning switch 57 is triggered when the dust collector 55 moves into place in the working cavity 20, the pressing magnet 15 is electrified, the lifting plate 14 moves downward under the action of the pressing magnet 15, the pressing rod 18 moves downward, the pressing plate 16 extends downward and the sliding tube 81 moves downward, the sliding tube 81 passes through the communication hole 45 to extend into the filter cavity 41, dust in the filter cavity 41 can be cleaned through the water filling hole 82, the lower extending rod 17 is driven to move downwards, the upper jacking block 43 is driven to move downwards, the compacting plate 26 is driven to move towards the direction close to the upper jacking cavity 25 under the action of the compacting spring 24, the partition plate 44 is driven to move towards the direction close to the upper jacking cavity 25, the communication hole 45 is further driven to be communicated again, the sliding tube 81 can extend into the filter cavity 41, the lower moving plate 22 is driven to move downwards, the upper moving plate 31 is driven to move downwards, the upper moving rod 56 is driven to move downwards, the sealing cavity 54 is blocked, water and dust can not flow out through the sealing cavity 54 when the filter cavity 41 is cleaned through the water through hole 83, and only flow into the storage cavity 38 to be collected, later cleaning is facilitated, simultaneously, the water injection magnet 62 is electrified to further enable the translation block 75 to move backwards, the extension pipe 72 is driven to move backwards, then the translation block extends into the water injection hole 61, meanwhile, the extension pipe 72 moves backwards to drive the driving plate 70 to move backwards, then the contact plate 73 is driven to move backwards, then the moving plate 67 is driven to move backwards, then the falling block 85 moves upwards, then the water injection hole 61 is communicated again, water discharged from the extension hole 71 can flow into the water storage cavity 47 through the water injection hole 61, the floating ball 59 moves upwards and downwards along with the height of the liquid level in the water storage cavity 47, the water discharge tank 63 stops water injection when the floating ball 59 triggers the floating switch 58, meanwhile, the lower pressing magnet 15 is powered off, the upper lifting plate 14 moves upwards under the action of the lifting spring 13, then the lower pressing rod 18 moves upwards, and then the sliding pipe 81 retracts, after the storage tank 48 is replaced, the cleaner 55 can be restarted to remove dust.

It will be apparent to those skilled in the art that various modifications to the above embodiments may be made without departing from the general spirit and concepts of the invention. Which fall within the scope of the present invention. The protection scheme of the invention is subject to the appended claims.

Claims (7)

1. A plant automation system for dust removal comprising (a main tank (11)), characterized in that: the dust collector is characterized in that a left end face of the main box body (11) is provided with a left working cavity (20) with an opening, a cleaning switch (57) is arranged on the right wall of the working cavity (20), an upper lifting cavity (19) is arranged in the upper wall of the working cavity (20), dust collectors (55) are arranged in the working cavity (20), movable wheels (36) are uniformly distributed on the lower end face of the dust collectors (55), communicating pipes (33) with downward openings are symmetrically arranged on the left and right lower end faces of the dust collectors (55), vent holes (34) are arranged in the left and right lower end faces of the dust collectors (55) and are connected with the communicating pipes (57), dust falling cavities (53) are arranged in the dust collectors (55), filter cavities (41) with downward openings are symmetrically arranged on the left and right upper walls of the dust falling cavities (53), sealing cavities (54) are arranged between the lower left and right walls of the dust falling cavities (53), dust falling cavities (53) are provided with left and right walls (32) between the left and right walls of the dust falling cavities (53), the left side the connection on the right wall of filter chamber (41) retaining chamber (47) is equipped with sprinkler (40), the upper end face of dust catcher (55) left and right sides is equipped with the ascending chamber (29) that stretches into of opening, stretch into chamber (29) and keep away from a side wall of retaining chamber (47) is equipped with the opening to retaining chamber (47) shifts up chamber (21), stretch into chamber (29) lower wall intercommunication filter chamber (41) are equipped with intercommunicating pore (45), two connect between intercommunicating pore (45) and be equipped with partition chamber (42), be equipped with in retaining chamber (47) upper wall and go up top chamber (25), go up top chamber (25) and run through partition chamber (42), dust catcher (55) front end face is equipped with opening forward contact chamber (69), contact chamber (69) are connected to retaining chamber (47) front wall is equipped with and is added mouth (61), it is equipped with opening decurrent whereabouts chamber (84) to stretch out mouth (69), contact chamber (69) upper wall is equipped with smooth chamber (68), be connected between the connection (68) and the downtake down chamber (68), the novel water storage box is characterized in that a movable cavity (64) is arranged in the front end face of the main box body (11), a floating box (23) is arranged on the upper wall of the water storage cavity (47), a floating cavity (60) is arranged in the floating box (23), a movable floating ball (59) is arranged in the floating cavity (60), and a floating switch (58) is fixedly arranged on the upper wall of the floating cavity (60).

2. A dust-removing factory automation system as set forth in claim 1, wherein: the utility model discloses a dust fall device, including spacing chamber (52) and dust fall chamber (53), be equipped with mobilizable pressure plate (37) in spacing chamber (52), pressure plate (37) up end is equipped with storage case (48), storage case (48) up end is equipped with ascending storage chamber (38) of opening, pressure plate (37) lower terminal surface with be equipped with pressure spring (50) between dust fall chamber (53) lower wall, dust fall chamber (53) lower wall is equipped with return stroke trigger (49).

3. A dust-removing factory automation system as set forth in claim 1, wherein: be equipped with mobilizable lifting plate (14) in lifting chamber (19), be equipped with down on lifting chamber (19) the lower wall magnet (15), upward be equipped with lifting spring (13) between lifting chamber (19) the lower terminal surface with upward lifting chamber (14) the lower wall, upward lifting plate (14) the lower terminal surface passes down magnet (15) to extend in working chamber (20) and be equipped with depression bar (18), the terminal surface extension is equipped with holding down plate (16) down in depression bar (18), both ends are equipped with sliding tube (81) about holding down plate (16), the terminal surface is equipped with decurrent water hole (83) of opening under sliding tube (81), be equipped with water tank (12) in both sides wall about lifting chamber (19) respectively, be equipped with mobilizable sliding plate (28) in water hole (83), sliding plate (28) up end connection be equipped with between water tank (12), the terminal surface is equipped with down clamp plate (16) down opening (82), water injection mouth (82) are connected with water tank (12).

4. A dust extraction plant automation system according to claim 3, wherein: the utility model discloses a lower clamp plate (16) lower extreme face extend in last top chamber (25) and be equipped with down extension rod (17), upward be equipped with mobilizable top piece (43) in top chamber (25), upward be equipped with top spring (46) between top piece (43) lower terminal surface with go up top chamber (25) lower wall, the symmetry is equipped with two mobilizable partition panel (44) in partition chamber (42), partition chamber (42) left and right sides upper wall is equipped with opening decurrent clamp chamber (27) respectively, partition panel (44) upper end face extend in clamp chamber (27) and are equipped with clamp plate (26), clamp plate (26) are kept away from a side of top chamber (25) with be equipped with clamp spring (24) between the side of clamp chamber (27) kept away from, slide tube (81) are kept away from a side of top chamber (25) extend and are equipped with down shifting plate (22).

5. A dust-removing factory automation system as set forth in claim 1, wherein: the movable upward moving plate (31) is arranged in the upward moving cavity (21), the upward moving plate (31) extends into the extending cavity (29), an upward moving rod (56) is arranged at the lower end of the upward moving plate (31) facing the sealing cavity (54), and an upward moving spring (30) is arranged between the lower end face of the upward moving plate (31) and the lower wall of the upward moving cavity (21).

6. A dust-removing factory automation system as set forth in claim 1, wherein: be equipped with on the front wall of removal chamber (64) and release tank (63), be equipped with water injection magnet (62) on the back wall of removal chamber (64), be equipped with mobilizable pipe (72) that stretches into in removal chamber (64), it is equipped with translation piece (75) to stretch into on the front side excircle face of pipe (72), translation piece (75) rear end face with be equipped with between the back wall of removal chamber (64) and remove spring (74), stretch into pipe (72) rear end face and be equipped with opening backward stretch into hole (71), stretch into and be equipped with mobilizable drain board (76) in hole (71), drain board (76) front end face with be equipped with drain pipe (78) between the terminal surface behind drain board (63), drain board (76) rear end face is equipped with opening backward hole (77).

7. A dust extraction plant automation system in accordance with claim 6, wherein: the utility model discloses a stretch into pipe (72) rear side up end and extend and be equipped with drive board (70), be equipped with mobilizable movable board (67) in smooth chamber (68), movable board (67) lower extreme face in contact chamber (69) are extended and are equipped with contact plate (73), be equipped with partition spring (51) between movable board (67) rear end face and smooth chamber (68) rear wall fall between chamber (84) upside with smooth chamber (68) front side with connecting chamber (79) upside left and right sides wall rotate and be equipped with tight axle (87), be equipped with tight pulley (86) on the outer disc of tight axle (87), be equipped with mobilizable whereabouts piece (85) in whereabouts chamber (84), whereabouts piece (85) up end is extended and is equipped with tight rope (66), tight rope (66) are strained through three tight pulley (86) and are connected with movable board (67) front end face.