CN112439293A - High-efficient environmental protection intelligent dust collector that electrical automation equipment used - Google Patents

Abstract

The invention discloses a high-efficiency environment-friendly intelligent dust removal device for electric automation equipment, which comprises a dust removal device body, wherein a rotary fixing mechanism is arranged in the dust removal device body, the rotary fixing mechanism comprises a motor, the motor is connected with a motor shaft, one end of the motor shaft, which is far away from the motor, is connected with a tray, a sliding fixing groove is formed in the tray, a pair of telescopic rods are arranged in the sliding fixing groove, and the pair of telescopic rods are connected with the tray. According to the invention, through the arrangement of the corresponding mechanism of the dust removal device, the cleaning of the electric automation equipment is greatly enhanced, the secondary adhesion of dust is avoided, the cleaning efficiency is enhanced, the cleaned dust is not discharged into the air, the pollution to the air is greatly reduced, meanwhile, the cleaning of the interior of the electric automation equipment is enhanced, the corrosion of internal components by the dust is avoided, and the damage of the electric automation equipment due to the corrosion of the dust is avoided, so that the loss of a user is reduced.

Description

High-efficient environmental protection intelligent dust collector that electrical automation equipment used

Technical Field

The invention belongs to the technical field of dust removal devices, and particularly relates to a high-efficiency environment-friendly intelligent dust removal device for electric automation equipment.

Background

The electric automation technology is widely applied to the aspects of industry, agriculture, military, scientific research, transportation, commerce, medical treatment, service, families and the like, and equipment adopting the electric automation technology not only can liberate people from heavy physical labor, partial mental labor and severe and dangerous working environments, but also can expand the functions of human organs, greatly improve the labor productivity and enhance the ability of human beings to know the world and transform the world.

At present, electrical automation equipment is closely related to daily life of people and industrial production, the electrical automation equipment is integrated with our life, dust can be slowly accumulated along with the lapse of time in the use process of the electrical automation equipment, the dust can corrode parts in the electrical automation equipment, and the parts are damaged or even damaged, so dust removal processing is required regularly, but the existing dust removal equipment also has the problem that the electrical automation equipment cannot be cleaned completely, the cleaned dust cannot be processed in time in the cleaning process, secondary adhesion of the dust is caused, the cleaning effect is influenced, or the dust is discharged into air to cause air pollution, electrical elements in the electrical automation equipment cannot be cleaned, the cleaning effect and the efficiency are not ideal, and the uncleaned dust can continuously corrode elements, cause the damage to components and parts, the cost of maintaining also can corresponding increase, and long-term so, can cause the appearance of short circuit disconnection scheduling problem, cause the condition of maintenance of shutting down to appear, seriously need change internals even, pay high expense, cause user's loss.

Therefore, in order to solve the above technical problems, it is necessary to provide an efficient, environment-friendly and intelligent dust removing device for an electrical automation apparatus.

Disclosure of Invention

The invention aims to provide an efficient environment-friendly intelligent dust removal device for electrical automation equipment, and aims to solve the problem that the existing dust removal device is not ideal in cleaning effect and efficiency, so that dust corrodes components inside the electrical automation equipment and damages the components.

In order to achieve the above object, an embodiment of the present invention provides the following technical solutions:

the utility model provides an intelligent dust collector of high-efficient environmental protection that electric automation equipment used, includes the dust collector body, this internal rotation type fixed establishment that is equipped with of dust collector, rotation type fixed establishment includes the motor, be connected with motor shaft on the motor, the one end that motor shaft kept away from the motor is connected with the tray, it has the slip fixed slot to cut a hole on the tray, be equipped with a pair of telescopic link in the slip fixed slot, it is a pair of the telescopic link all is connected with the tray, be connected with the collet on the telescopic link, it is connected with the commentaries on classics board, it is a pair of to rotate on the collet be equipped with electric automation equipment between the commentaries on classics board, be connected with the rubber pad between commentaries on classi.

Furthermore, the circulating air cleaning mechanism comprises an air closing block, the air closing block is arranged to prevent gas leakage, the air suction pipe and the air suction opening are communicated, so that the static air suction pipe can perform gas extraction on the air suction opening through the arrangement of the air closing block, a communicating effect is achieved, gas extracted by a plurality of air suction openings is converged into the air closing block and is extracted away by the air suction pipe, a sealing bearing is connected between the air closing block and the motor shaft, the arrangement of the sealing bearing seals a gap between the air closing block and the motor shaft, the possibility of gas leakage of the air closing block is reduced, the sealing performance of the air closing block is enhanced, meanwhile, when the motor shaft rotates, the air closing block can not rotate along with the motor shaft, so that air in the air closing block can completely enter the air suction pipe, a rotating sealing groove matched with the air closing block is drilled on the tray, and the rotating sealing groove enables the air closing block to be deep into the tray, the leakproofness of gas piece is closed in the reinforcing, makes the air that closes in the gas piece can not reveal, makes the extraction dynamics of air pump can be complete extend to the inlet scoop on, close and be connected with the dead lever on the gas piece, the setting up of dead lever makes the gas piece that closes can not follow motor shaft and rotate, makes through the cooperation with the dead lever to close the gas piece and fix on the dust collector body, has prevented the rotation that closes the gas piece when having guaranteed to close the gas piece seal, prevents to close the rotatory aspiration channel that pulls of gas piece and makes the aspiration channel damage, the dead lever is kept away from the one end that closes the gas piece and is connected with the dust collector body.

Further, it has a plurality of evenly distributed's inlet scoop to open on the tray, the inlet scoop with close the gas piece and be linked together, the setting up of inlet scoop makes the gas that gushes out through fast tuber pipe can be absorbed by the inlet scoop, circulate through the air pump, make gas loss's probability reduce, the gas of a plurality of inlet scoops extraction can assemble to closing in the gas piece, extracting by the inlet scoop, make this internal gas of dust collector can get into through a plurality of passageways and close the gas piece, not assembling a department, make the inlet scoop can extract more dust of floating in gas when the extraction, the inside clean degree of reinforcing dust collector body.

Furthermore, close and be connected with the aspiration channel on the gas piece, the setting up of aspiration channel makes the gas in closing the gas piece can be extracted, makes the gas piece of closing can be with the help of aspiration channel connection air filter mechanism, makes the suction in the air pump can be by the complete receipt of inlet scoop, makes the inlet scoop possess the complete suction of air pump, makes this internal gas of dust collector and more entering air filter mechanism of dust, the aspiration channel is connected with air filter mechanism, the dust collector is originally seted up with aspiration channel assorted air duct groove, and the installation that sets up to the aspiration channel in air duct groove provides the space, and the aspiration channel has been fixed to the dust collector body simultaneously, makes the aspiration channel can not remove at will, makes the connection of closing gas piece and aspiration channel inseparabler, has reduced the possibility that the gas was revealed.

Furthermore, the air filtering mechanism comprises a primary filtering sealing block, the primary filtering sealing block is completely attached to the dust removing device body, a closed space is formed inside the primary filtering sealing block, gas can only enter the primary filtering sealing block through an air suction pipe, the possibility of gas leakage is reduced, the possibility that dust in the gas enters an air communicating pipe through the filtration of non-woven fabrics is reduced, the non-woven fabrics are arranged in the primary filtering sealing block and play a role of filtering the gas, the dust in the gas can enter the air communicating pipe through the filtration of the non-woven fabrics, the gas cleanness degree after circulation again is greatly improved, a first filtering groove matched with the primary filtering sealing block is formed in the dust removing device body, and the primary filtering sealing block can be opened and closed through the sliding with the dust removing device body through the cutting of the first filtering groove, make the non-woven fabrics in the prefiltration sealing block can change, make the cleanliness factor of non-woven fabrics obtain promoting, can carry out the change of non-woven fabrics through taking out the prefiltration sealing block after the clean degree of non-woven fabrics descends, the last chisel of prefiltration sealing block has with the first empty pipe seal groove of aspiration channel assorted, the inseparable aspiration channel that has connected of first empty pipe seal groove, makes the interior gas of aspiration channel can not reveal, can only get into and filter through the non-woven fabrics in the prefiltration sealing block.

Furthermore, the preliminary filtering sealing block is provided with a communicating filtering pipe which is communicated with the preliminary filtering sealing block and the deep filtering sealing block, so that the gas primarily filtered by the non-woven fabric can enter the deep filtering sealing block, meanwhile, the deep filtering sealing block is also closed, one end of the communicating filtering pipe, which is far away from the primary filtering sealing block, is connected with the deep filtering sealing block, the arrangement of the deep filtering sealing block reduces the possibility of leakage of primarily filtered gas, the sealed piece of deep filtration is last to cut and to have and communicate the empty tub of seal groove of filter tube assorted second, be equipped with the refill filter core in the sealed piece of deep filtration, prefiltering gas can carry out the second time through the refill filter core and filter the dust that is not filtered completely in the non-woven fabrics completely, makes the gas that gets into in the air communicating pipe become clean, makes gaseous clean degree promote greatly.

Further, be equipped with air communicating pipe on the refill filter core, air communicating pipe set up and has linked up sealed piece of deep filtration and gas tank, make the gas that is purified the dust in the sealed piece of deep filtration get into in the gas tank, one side of air communicating pipe is connected with the air pump, be connected with the water tank on the dust collector body, be equipped with the gas tank in the water tank, the gas tank set up to provide a temporary warehouse for the gas after the cleanness, make gas can assemble in the gas tank, through the air pump to gaseous continuous extraction, gas can fall through hurricane arc, in getting into the inlet scoop, air communicating pipe runs through water tank and gas tank setting.

Furthermore, a hurricane arc is connected to the dust removal device body, the hurricane arc is arranged to enable gas in the gas tank to be provided with a diffusing and discharging opening, so that the gas gathered in the gas tank can rapidly fall down through the suction of the air pump to impact dust on the electric automation equipment, the surface and a part of the interior of the electric automation equipment are cleaned, then the gas with the blown dust enters the air filtering mechanism through the suction opening through the suction of the air pump, the dust is filtered again, a gas circulation is formed, and a blowing groove matched with the hurricane arc is formed in the dust removal device body.

Furthermore, be connected with the fast tuber pipe on the hurricane arc, because the hurricane arc sets up to the arc makes a large amount of gases can compress at the entry of fast tuber pipe, and suction through the air pump and the pressure between the gas accelerate, make gas speed behind the fast tuber pipe fast, wind-force becomes strong, and the dust on the electrical automation equipment that blows off more easily even the extremely strong dust of adhesion also can be blown off under continuous gas, it has the whirlwind groove to cut on the fast tuber pipe inner wall, and the whirlwind groove cooperates the setting of fast tuber pipe to make the gas of quick whereabouts form whirlwind through the water conservancy diversion in whirlwind groove, makes gas can clean the inside of electrical automation equipment, and the wind speed is very fast, also can strengthen the inside cleanliness of electrical automation equipment.

Further, be connected with the speech control case on the lateral wall of dust collector body, speech control case, motor and air pump electric connection, be equipped with the speech system module in the speech control case, the setting of speech control case can control opening and closing of air pump, the speech control case can work through discernment pronunciation, the speech control case includes the pronunciation input module, can take notes user's sound, save through storage module, can compare and make corresponding operation through the speech recognition module to the sound of saving when using next time, speech output module can make the speech control case read out current option, can operate through corresponding option after pronunciation awaken up, for example, it is intelligent clean, or finish cleanly.

Compared with the prior art, the invention has the following advantages:

according to the invention, through the arrangement of the corresponding mechanism of the dust removal device, the cleaning of the electric automation equipment is greatly enhanced, the secondary adhesion of dust is avoided, the cleaning efficiency is enhanced, the cleaned dust is not discharged into the air, the pollution to the air is greatly reduced, meanwhile, the cleaning of the interior of the electric automation equipment is enhanced, the corrosion of internal components by the dust is avoided, and the damage of the electric automation equipment due to the corrosion of the dust is avoided, so that the loss of a user is reduced.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments described in the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

Fig. 1 is a perspective view of an efficient environment-friendly intelligent dust removing device for an electrical automation apparatus according to an embodiment of the present invention;

FIG. 2 is a functional diagram of an operation box according to an embodiment of the present invention;

FIG. 3 is a side view of an efficient, environmentally friendly, and intelligent dust removal device for an electrical automation equipment in accordance with an embodiment of the present invention;

FIG. 4 is a front view of an efficient, environmentally friendly and intelligent dust removing apparatus for an electrical automation device in an embodiment of the present invention;

FIG. 5 is another side view of an exemplary embodiment of an efficient, environmentally friendly and intelligent dust removal device for an electrical automation equipment;

FIG. 6 is a front sectional view of an efficient environmental protection intelligent dust removing device for an electrical automation apparatus in an embodiment of the present invention;

FIG. 7 is a cross-sectional side view of an exemplary embodiment of an efficient, environmentally friendly and intelligent dust removal apparatus for an electrical automation device;

FIG. 8 is a top sectional view of an exemplary high efficiency, environmentally friendly and intelligent dust removal device for use in an electrical automation apparatus;

fig. 9 is a schematic partial structural view of an efficient environment-friendly intelligent dust removing device for an electrical automation apparatus according to an embodiment of the present invention;

FIG. 10 is a schematic diagram of the structure at A in FIG. 6 according to an embodiment of the present invention;

fig. 11 is a schematic structural diagram of a portion B in fig. 7 according to an embodiment of the present invention.

In the figure: 1. the dust removal device comprises a dust removal device body, 101, a water tank, 102, an air tank, 103, a voice control box, 2, a rotary fixing mechanism, 201, a motor, 202, a motor shaft, 203, a tray, 204, a telescopic rod, 205, a bottom support, 206, a rotating plate, 207, a rubber pad, 3, electric automation equipment, 4, a circulating type air cleaning mechanism, 401, an air mixing block, 402, a sealing bearing, 403, a fixing rod, 404, an air suction opening, 405, an air suction pipe, 406, an air filtering mechanism, 407, a primary filtering sealing block, 408, non-woven fabrics, 409, a filter pipe, 410, a deep filtering sealing block, an air pump 411, a paper core filter element, 412, an air communicating pipe, 413, a clamping block, 414, a hurricane arc, 415, a fast air pipe, 416, a cyclone groove, 5, a circulating type water wall mechanism, 501, a circulating water pump, 502, a clean water communicating pipe, 503, a water dripping hole, 504, a fixing ring, 507. The water immersion type sewage treatment device comprises a water immersion curtain, a 508 impurity filter screen, a 509 clean water, a 510 clean water pipeline, a 511 clean water primary filter block, a 512 acrylic cotton, a 513 clean water filter pipe, a 514 clean water secondary filter block, a 515 active carbon, a 516 hole pipe, a 517 clean water conveying pipe.

Detailed Description

The present invention will be described in detail below with reference to embodiments shown in the drawings. The embodiments are not intended to limit the present invention, and structural, methodological, or functional changes made by those skilled in the art according to the embodiments are included in the scope of the present invention.

The invention discloses a high-efficiency environment-friendly intelligent dust removal device for electric automation equipment, which comprises a dust removal device body 1, wherein a rotary fixing mechanism 2 is arranged in the dust removal device body 1, the arrangement of the dust removal device body 1 greatly improves the protection of the internal structure of the dust removal device body 1, the rotary fixing mechanism 2 comprises a motor 201, the motor 201 provides enough power for the rotation of a motor shaft 202 and a tray 203, so that the tray 203 can drive the electric automation equipment 3 to rotate, the rotation of the tray 203 simultaneously rotates an air suction opening 404 cut in the tray 203, the suction force in the air suction opening 404 ensures that the air rotating in the dust removal device body 1 can tend to be calm after contacting the air driven by the air suction opening 404, the motor shaft 202 is connected on the motor 201, and the arrangement of the motor shaft 202 is communicated with the motor 201 and the tray 203, the tray 203 can rotate more regularly, one end of a motor shaft 202 far away from the motor 201 is connected with the tray 203, the tray 203 is arranged to support the electric automation equipment 3, the electric automation equipment 3 can contact with more rapidly extracted gas, a sliding fixing groove is formed in the tray 203, the sliding fixing groove is arranged to provide an installation position for the telescopic rod 204, a pair of telescopic rods 204 are arranged in the sliding fixing groove, the telescopic rod 204 is arranged to enable the electric automation equipment 3 to slide a bottom support 205 when the electric automation equipment is pressed downwards, the electric automation equipment 3 can drive the bottom support 205 to extrude towards the electric automation equipment 3 through the telescopic rod 204 after being completely arranged, the fixing of the electric automation equipment 3 is enhanced, the electric automation equipment 3 cannot overturn when rotating, the pair of telescopic rods 204 are connected with the tray 203, and the bottom support 204 is connected with the telescopic rod 205, the setting up of collet 205 provides the support for electric automation equipment 3, collet 205 can slide in the slip fixed slot simultaneously, make collet 205 can adapt to the electric automation equipment of more specifications of more models, it has commentaries on classics board 206 to rotate on collet 205, it opens through the pivot to change board 206, the lateral wall can extrude electric automation equipment 3 and can slide collet 205 simultaneously and look for suitable position when receiving electric automation equipment 3 and push down, a pair of commentaries on classics is equipped with electric automation equipment 3 between the board 206, it is connected with rubber pad 207 to change between board 206 and the electric automation equipment 3, the rubber pad 207 that changes the board 206 inner wall after electric automation equipment 3 installs completely can cooperate the extrusion of telescopic link 204 to fix electric automation equipment 3, be connected with circulating fan cleaner mechanism 4 on the motor shaft 202.

Wherein, the dust collector body 1 is connected with a circulating water wall mechanism 5, the circulating water wall mechanism 5 comprises a circulating water pump 501, the circulating water pump 501 is arranged to provide a pumping force for a clean water pipeline 510, so that the clean water pipeline 510 can continuously pump clean water 509 to be transported towards the water tank 101, the circulating water pump 501 is connected with a clean water communicating pipe 502, the clean water communicating pipe 502 is arranged to enable the clean water 509 pumped by the circulating water pump 501 to be transported into the water tank 101, so that the water tank 101 can have sufficient water source, the clean water communicating pipe 502 is arranged to penetrate through the water tank 101, the dust collector body 1 is provided with a plurality of water dripping holes 503 distributed annularly, the water dripping holes 503 are arranged to enable the clean water 509 in the water tank 101 to drip through the water dripping holes 503, the inner wall of the dust collector body 1 is connected with a fixing ring 504, the fixing ring 504 is arranged to enable the fixing of the clamping, the fixing ring 504 is connected with a clamping block 505, the clamping block 505 is arranged to fix the water-immersed curtain 507, the clamping block 505 is arranged to enhance the stability of the water-immersed curtain 507, the clamping block 505 can be drawn out through a notch at the door after the sealing door of the dust removing device body 1 is opened to clean the water-immersed curtain 507, one surface of the dust removing device body 1 close to the water tank 101 is connected with a flow guide wall 506, the arrangement of the flow guide wall 506 prevents the clean water 509 from touching the electric automation equipment 3, the flow direction of the clean water 509 is guided, the clean water 509 can be rapidly merged into the water-immersed curtain 507 after dropping through the water dropping hole 503, the clamping block 505 is connected with the water-immersed curtain 507, the arrangement of the water-immersed curtain 507 prevents the clean water 509 from dropping into the electric automation equipment 3, meanwhile, dust can be adsorbed on the water-immersed curtain 507 when the gas drives the dust to rapidly rotate, and pollution to the inner wall of the dust removing device body 1 is, the degree of cleanliness in the dust removing device body 1 is greatly increased.

Specifically, an impurity filter screen 508 is arranged on one side of the dust removing device body 1, which is far away from the flow guide wall 506, the impurity filter screen 508 prevents large dirty objects such as hair from entering the clear water pipeline 510, the blockage of the clear water pipeline 510 is avoided, the service life of the clear water pipeline 510 is prolonged, the impurity filter screen 508 is connected with the inner wall of the dust removing device body 1, clear water 509 is arranged in the dust removing device body 1, the adsorption of the clear water 509 on dust can be enhanced, so that the dust in the dust removing device body 1 can be adsorbed on the clear water 509 to enter the clear water pipeline 510, the clear water pipeline 510 is arranged in the dust removing device body 1, a water pipe groove matched with the clear water pipeline 510 is formed in the dust removing device body 1, one end of the clear water pipeline 510, which is far away from the impurity filter screen 508, is connected with a clear water primary filter block 511, the arrangement of the clear, meanwhile, the clear water primary filter block 511 can be pulled open by a handle to clean or replace the acrylic cotton 512, the acrylic cotton 512 is arranged in the clear water primary filter block 511, the acrylic cotton 512 can be used for primarily purifying the clear water 509 to enable the clear water 509 to be cleaner, one end of the clear water primary filter block 511, which is far away from the clear water pipeline 510, is connected with a clear water filter pipe 513, the clear water filter pipe 513 is communicated with the clear water primary filter block 511 and the clear water secondary filter block 514, so that the clear water 509 primarily purified by the acrylic cotton 512 can enter the clear water secondary filter block 514, a first water filtering tank matched with the clear water filter pipe 513 is arranged on the clear water primary filter block 511 in a chiseled mode, one end of the clear water filter pipe 513, which is far away from the clear water primary filter block 511, is connected with the clear water secondary filter block 514, the clear water secondary filter block 514 is completely sealed by the arrangement, the possibility of leakage of the clear water, the clean water purification device comprises an active carbon 515, the active carbon 515 is arranged in a clean water secondary filtering block 514, the active carbon 515 can purify clean water 509 for the second time, the clean water 509 entering a clean water communicating pipe 502 can be cleaner, a hole pipe 516 is connected in the clean water secondary filtering block 514, a plurality of water suction holes which are uniformly distributed are formed in the hole pipe 516, the hole pipe 516 and the water suction holes are arranged in a matched mode, the active carbon 515 is prevented from entering the hole pipe 516, the hole pipe 516 is prevented from being blocked, the hole pipe 516 can be pulled out of the clean water secondary filtering block 514 for maintenance, the service life of the hole pipe 516 is prolonged, one end, far away from the clean water secondary filtering block 514, of the hole pipe 516 is connected with a clean water conveying pipe 517, one end, far away from the clean water secondary filtering block 514, of the clean water conveying pipe 517 is connected with the clean water communicating pipe 502, the clean water conveying pipe 517 is communicated with the hole pipe 516, and the clean water.

Referring to fig. 2-4, the circulating air cleaning mechanism 4 includes an air-mixing block 401, the air-mixing block 401 is disposed to prevent air leakage, and is connected to an air suction pipe 405 and an air suction port 404, so that the air suction pipe 405 can suck air from the air suction port 404 through the air-mixing block 401, and plays a role of communication, the air sucked from a plurality of air suction ports 404 is collected to the air-mixing block 401 and is sucked away by the air suction pipe 405, a sealing bearing 402 is connected between the air-mixing block 401 and the motor shaft 202, the sealing bearing 402 seals a gap between the air-mixing block 401 and the motor shaft 202, thereby reducing the possibility of air leakage of the air-mixing block 401, enhancing the sealing performance of the air-mixing block 401, and simultaneously, when the motor shaft 202 rotates, the air-mixing block 401 can not rotate along with the motor shaft 202, so that the air in the air-mixing block 401 can completely enter the air suction pipe 405, a rotating sealing groove matched with the air-mixing block 401 is drilled on the tray 203, the sealing groove is rotated to enable the air-closing block 401 to be deep into the tray 203, the sealing performance of the air-closing block 401 is enhanced, air in the air-closing block 401 cannot be leaked, the drawing force of the air pump 413 can completely extend to the air suction opening 404, the air-closing block 401 is connected with the fixing rod 403, the air-closing block 401 cannot rotate along with the motor shaft 202 due to the arrangement of the fixing rod 403, the air-closing block 401 is fixed on the dust removal device body 1 through the matching with the fixing rod 403, the rotation of the air-closing block 401 is prevented while the sealing performance of the air-closing block 401 is ensured, the air suction pipe 405 is prevented from being pulled by the rotation of the air-closing block 401 to damage the air suction pipe 405, and one end, far away from the air-closing block 401, of the fixing rod is connected with.

Referring to fig. 4-6, a plurality of uniformly distributed air suction ports 404 are drilled on the tray 203, the air suction ports 404 are communicated with the air-mixing block 401, the air suction ports 404 are arranged so that air gushed through the fast air pipe 415 can be absorbed by the air suction ports 404, the air pump 413 is used for circulating so that the probability of air loss is reduced, the air extracted by the air suction ports 404 can be collected into the air-mixing block 401, the air is extracted by the air suction pipes 405, the air in the dust removing device body 1 can enter the air-mixing block 401 through a plurality of channels and is not collected at one position, so that more dust floating in the air can be extracted by the air suction ports 404 during extraction, and the cleanness degree of the interior of the dust removing device body 1 is enhanced.

Referring to fig. 6-8, an air suction pipe 405 is connected to the air-combining block 401, the air suction pipe 405 is disposed to enable air in the air-combining block 401 to be extracted, the air-combining block 401 can be connected to the air filtering mechanism 406 by means of the air suction pipe 405, so that the suction force in the air pump 413 can be completely received by the air suction port 404, the air suction port 404 has the complete suction force of the air pump 413, so that more air and dust in the dust removing device body 1 enter the air filtering mechanism 406, the air suction pipe 405 is connected to the air filtering mechanism 406, an air suction pipe groove matched with the air suction pipe 405 is formed in the dust removing device body 1, the air suction pipe 405 is disposed to provide a space, and the air suction pipe 405 is fixed to the dust removing device body 1, so that the air suction pipe 405 cannot move freely, the air-combining block 401 and the air suction pipe 405 are connected more tightly, and the possibility of gas leakage is reduced.

Referring to fig. 8-10, the air filter mechanism 406 includes a primary filter sealing block 407, the primary filter sealing block 407 is completely attached to the dust collector body 1, so that a sealed space is formed inside the primary filter sealing block 407, and the air can enter the primary filter sealing block 407 only through the air suction pipe 405, thereby reducing the possibility of air leakage, and reducing the possibility of dust in the air entering the air communication pipe 412 after being filtered by the non-woven fabric 408, the non-woven fabric 408 is provided in the primary filter sealing block 407, the non-woven fabric 408 has the function of filtering the air, so that the dust in the air can enter the air communication pipe 412 after being filtered by the non-woven fabric 408, thereby greatly improving the cleanliness of the air which is circulated again, the dust collector body 1 is provided with a first filter groove matched with the primary filter sealing block 407, the first filter groove is cut so that the primary filter sealing block 407 can be opened and closed by sliding with the dust collector body 1, the non-woven fabric 408 in the primary filter sealing block 407 can be replaced, so that the cleanness of the non-woven fabric 408 is improved, the non-woven fabric 408 can be replaced by drawing out the primary filter sealing block 407 after the cleanness of the non-woven fabric 408 is reduced, a first hollow pipe sealing groove matched with the air suction pipe 405 is formed in the primary filter sealing block 407, the air suction pipe 405 is tightly connected with the first hollow pipe sealing groove, and therefore gas in the air suction pipe 405 cannot leak and can only enter the primary filter sealing block 407 to be filtered through the non-woven fabric 408.

Referring to fig. 1-5, a communicating filter tube 409 is disposed on the primary filter sealing block 407, the communicating filter tube 409 communicates the primary filter sealing block 407 and the deep filter sealing block 410, so that the gas primarily filtered by the non-woven fabric 408 can enter the deep filter sealing block 410, the deep filter sealing block 410 is also sealed, one end of the communicating filter tube 409, which is far away from the primary filter sealing block 407, is connected with the deep filter sealing block 410, the arrangement of the deep filter sealing block 410 reduces the possibility of leakage of the primarily filtered gas, a second empty tube sealing groove matched with the communicating filter tube 409 is formed in the deep filter sealing block 410, a paper core filter element 411 is disposed in the deep filter sealing block 410, the primarily filtered gas is secondarily filtered by the paper core filter element 411, dust which is not completely filtered in the non-woven fabric 408 is completely filtered, so that the gas entering the air communicating tube 412 is cleaned, the cleaning degree of the gas is greatly improved.

Referring to fig. 5-10, an air communicating pipe 412 is disposed on a paper core filter element 411, the air communicating pipe 412 is disposed to communicate a deep filtering sealing block 410 and an air tank 102, so that the air purified from dust in the deep filtering sealing block 410 enters the air tank 102, an air pump 413 is connected to one side of the air communicating pipe 412, a water tank 101 is connected to the dust removing device body 1, the air tank 102 is disposed in the water tank 101, the air tank 102 is disposed to provide a temporary storage for the cleaned air, so that the air can be collected in the air tank 102, the air is continuously pumped by the air pump 413, the air falls through a hurricane arc 414, and the air communicating pipe 412 is disposed to penetrate through the water tank 101 and the air tank 102 in the air suction inlet 404.

Referring to fig. 1 to 10, a hurricane arc 414 is connected to the dust removing device body 1, the hurricane arc 414 is arranged to provide a vent for the gas in the gas box 102, so that the gas collected in the gas box 102 can rapidly fall down by the suction of the air pump 413 to impact the dust on the electric automation equipment 3, the surface and a part of the interior of the electric automation equipment 3 are cleaned, then the gas with the blown dust enters the air filtering mechanism 406 through the suction opening 404 by the suction of the air pump 413 to be filtered again, a gas circulation is formed, and a blowing groove matched with the hurricane arc 414 is formed in the dust removing device body 1.

Referring to fig. 1 to 10, a fast air pipe 415 is connected to the hurricane arc 414, since the hurricane arc 414 is set to be arc-shaped, a large amount of air can be compressed at an inlet of the fast air pipe 415, the air is accelerated by suction force of the air pump 413 and pressure between the air, so that the speed of the air after passing through the fast air pipe 415 is increased, the wind power is increased, dust on the electric automation equipment 3 can be more easily blown down, even if the dust with strong adhesion is blown down by continuous gas, a cyclone groove 416 is drilled on an inner wall of the fast air pipe 415, the cyclone groove 416 is matched with the fast air pipe 415 to guide the fast falling air to form cyclone through the cyclone groove 416, so that the air can be cleaned inside the electric automation equipment 3, and if the wind speed is high, the cleanness inside the electric automation equipment 3 can be enhanced.

Specifically, the side wall of the dust removing device body 1 is connected with the voice control box 103, the water circulating pump 501, the motor 201 and the air pump 413 are electrically connected, a voice system module is arranged in the voice control box 103, the setting of the voice control box 103 can control the opening and closing of the air pump 413, the voice control box 103 can work by recognizing voice, the voice system module comprises a voice recording module, the voice recording module can record the voice of a user, the voice is stored by the storage module, the stored voice can be compared by the voice recognition module when the voice control box is used next time and corresponding operation is performed, the voice output module can enable the voice control box 103 to read out current options, the voice control box can operate by corresponding options after being awakened by voice, such as intelligent cleaning or cleaning ending, the setting of the voice control box 103 can control the motor 201, the, The circulating water pump 501 and the air pump 413 are started and closed, the model number of the motor 201 is Y315L2-10, the power is 75KW, the model number of the air pump 413 is 001-.

Specifically, the electric automation equipment 3 is placed on the tray 203, the electric automation equipment 3 is fixed by the telescopic rod 204, the rotating plate 206 and the bottom support 205, then the dust removing device body 1 is started by voice through the voice control box 103, time, wind speed, rotating speed and the like are set, or the dust removing device is cleaned intelligently, then the air pump 413, the circulating water pump 501 and the motor 201 are operated along with instructions, the electric automation equipment 3 is fixed by the rotary fixing mechanism 2 and is driven to rotate by the rotary fixing mechanism 2, so that the electric automation equipment 3 can be cleaned by gas at more angles, then the circulating air cleaning mechanism 4 can circulate the gas and generate cyclone, then the wind with dust is filtered and blown to the electric automation equipment 3 again, the circulating water wall mechanism 5 can circulate clean water 509, the wetting water curtain 507 prevents the inner wall of the dust removing device body 1 from being polluted by the dust and can adsorb more dust at the same time, then filtered, and the dust is sucked back by the clean water communicating pipe 502 again.

According to the technical scheme, the invention has the following beneficial effects:

according to the invention, through the arrangement of the corresponding mechanism of the dust removal device, the cleaning of the electric automation equipment is greatly enhanced, the secondary adhesion of dust is avoided, the cleaning efficiency is enhanced, the cleaned dust is not discharged into the air, the pollution to the air is greatly reduced, meanwhile, the cleaning of the interior of the electric automation equipment is enhanced, the corrosion of internal components by the dust is avoided, and the damage of the electric automation equipment due to the corrosion of the dust is avoided, so that the loss of a user is reduced.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims (10)

1. The utility model provides an efficient environmental protection intelligent dust collector for electric automation equipment, includes dust collector body (1), its characterized in that, be equipped with rotation type fixed establishment (2) in dust collector body (1), rotation type fixed establishment (2) include motor (201), be connected with motor shaft (202) on motor (201), motor shaft (202) keep away from the one end of motor (201) and be connected with tray (203), the slip fixed slot has been dug on tray (203), be equipped with a pair of telescopic link (204) in the slip fixed slot, it is a pair of telescopic link (204) all are connected with tray (203), be connected with collet (205) on telescopic link (204), it is connected with commentaries on classics board (206) to rotate on collet (205), it is a pair of be equipped with electric automation equipment (3) between commentaries on classics board (206), be connected with rubber pad (207) between commentaries on classics board (206) and electric automation equipment (3), and a circulating type air cleaning mechanism (4) is connected to the motor shaft (202).

2. The efficient environment-friendly intelligent dust removal device for the electrical automation equipment as claimed in claim 1, wherein the circulating air cleaning mechanism (4) comprises an air closing block (401), a sealing bearing (402) is connected between the air closing block (401) and a motor shaft (202), a rotary sealing groove matched with the air closing block (401) is formed in the tray (203), a fixing rod (403) is connected to the air closing block (401), and one end, far away from the air closing block (401), of the fixing rod (403) is connected with the dust removal device body (1).

3. The efficient environment-friendly intelligent dust removing device for the electric automation equipment as claimed in claim 1, wherein a plurality of uniformly distributed air suction openings (404) are cut on the tray (203), and the air suction openings (404) are communicated with the air-closing block (401).

4. The efficient environment-friendly intelligent dust removal device for the electrical automation equipment as claimed in claim 2, wherein the air-closing block (401) is connected with an air suction pipe (405), the air suction pipe (405) is connected with an air filtering mechanism (406), and an air pipe groove matched with the air suction pipe (405) is formed in the dust removal device body (1) in a chiseled mode.

5. The efficient environment-friendly intelligent dust removal device for the electrical automation equipment as claimed in claim 4, wherein the air filtering mechanism (406) comprises a primary filtering sealing block (407), a non-woven fabric (408) is arranged in the primary filtering sealing block (407), a first filtering groove matched with the primary filtering sealing block (407) is formed in the dust removal device body (1), and a first hollow pipe sealing groove matched with the air suction pipe (405) is formed in the primary filtering sealing block (407).

6. The efficient environment-friendly intelligent dust removal device for the electrical automation equipment as claimed in claim 5, wherein a communication filter pipe (409) is arranged on the primary filter sealing block (407), one end of the communication filter pipe (409) far away from the primary filter sealing block (407) is connected with a deep filter sealing block (410), a second hollow pipe sealing groove matched with the communication filter pipe (409) is formed in the deep filter sealing block (410), and a paper core filter element (411) is arranged in the deep filter sealing block (410).

7. The efficient environment-friendly intelligent dust removal device for the electric automation equipment as claimed in claim 6, wherein an air communication pipe (412) is arranged on the paper core filter element (411), an air pump (413) is connected to one side of the air communication pipe (412), a water tank (101) is connected to the dust removal device body (1), an air tank (102) is arranged in the water tank (101), and the air communication pipe (412) penetrates through the water tank (101) and the air tank (102).

8. The intelligent dust collector for the electrical automation equipment in claim 1, wherein a hurricane arc (414) is connected to the dust collector body (1), and a blast groove matched with the hurricane arc (414) is chiseled on the dust collector body (1).

9. The dust removing apparatus of claim 8, wherein a cyclone (415) is connected to the cyclone arc (414), and a cyclone groove (416) is cut on the inner wall of the cyclone (415).

10. The efficient environment-friendly intelligent dust removal device for the electrical automation equipment as claimed in claim 1, wherein a voice control box (103) is connected to a side wall of the dust removal device body (1), the voice control box (103), the motor (201) and the air pump (413) are electrically connected, and a voice system module is arranged in the voice control box (103).

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