CN218130843U - Electromechanical engineering workshop environmental protection dust collector - Google Patents

Electromechanical engineering workshop environmental protection dust collector Download PDF

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Publication number
CN218130843U
CN218130843U CN202221508850.9U CN202221508850U CN218130843U CN 218130843 U CN218130843 U CN 218130843U CN 202221508850 U CN202221508850 U CN 202221508850U CN 218130843 U CN218130843 U CN 218130843U
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dust removal
air inlet
fixed
switch
fixed connection
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CN202221508850.9U
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Chinese (zh)
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邹骜
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Chongqing Pingxin Construction Engineering Co ltd
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Chongqing Pingxin Construction Engineering Co ltd
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    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02ATECHNOLOGIES FOR ADAPTATION TO CLIMATE CHANGE
    • Y02A50/00TECHNOLOGIES FOR ADAPTATION TO CLIMATE CHANGE in human health protection, e.g. against extreme weather
    • Y02A50/20Air quality improvement or preservation, e.g. vehicle emission control or emission reduction by using catalytic converters
    • Y02A50/2351Atmospheric particulate matter [PM], e.g. carbon smoke microparticles, smog, aerosol particles, dust

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Abstract

The utility model relates to a dust removal technical field specifically discloses an electromechanical engineering workshop environmental protection dust collector, including dust removal mechanism and circulation mechanism, circulation mechanism includes the circulating pipe, the circulation case, filter unit, the outlet pipe, water pump and drain pipe, filter unit is including crossing the filter frame, the second filter screen, carriage and activated carbon layer, circulating pipe one end fixed connection dust removal mechanism, other end fixed connection circulation case, the carriage is fixed on circulation incasement surface, it places on the carriage top surface to cross the filter frame, second filter screen and activated carbon layer are all fixed on crossing filter frame internal surface, the activated carbon layer is under the second filter screen, outlet pipe one end fixed connection circulation case side, other end fixed connection water pump, drain pipe fixed connection water pump and dust removal mechanism, the utility model provides a plurality of electromechanical engineering workshop environmental protection dust collector can not utilize the water that adsorbs the dust once more among the prior art and can cause the problem that the practicality descends.

Description

Electromechanical engineering workshop environmental protection dust collector
Technical Field
The application relates to the technical field of dust removal, and specifically discloses an environmental protection dust collector for an electromechanical engineering workshop.
Background
In the machine manufacturing industry, the electromechanical engineering shop has a large amount of dust with a diameter of about one micron suspended in air, which causes discomfort and damages to the health of workers, is a main cause of various diseases, and has an influence on the operation of machines.
In order to guarantee the healthy and normal function of machine of workman, need remove dust to electromechanical engineering workshop, can adopt an electromechanical engineering workshop environmental protection dust collector to remove dust, can adopt water to adsorb and subside the dust after inhaling the dust in electromechanical engineering workshop to a large amount of electromechanical engineering workshop environmental protection dust collector now, realize the centralized processing to the inhaled dust, but can directly be discharged after these water adsorb the dust, thereby lead to an electromechanical engineering workshop environmental protection dust collector can not utilize the water of adsorbing the dust once more, can cause the decline of an electromechanical engineering workshop environmental protection dust collector's practicality and the waste of water resource.
In view of this, the inventor provides an environmental protection dust removing device for an electromechanical engineering workshop, so as to solve many of the above problems that the water adsorbing dust cannot be reused by the environmental protection dust removing device for the electromechanical engineering workshop, and the practicability may be reduced.
SUMMERY OF THE UTILITY MODEL
An object of the utility model is to provide an electromechanical engineering workshop environmental protection dust collector to solve a lot of electromechanical engineering workshop environmental protection dust collector among the prior art and can not carry out the problem that reuse may cause the practicality to descend to the water that adsorbs the dust.
In order to achieve the above object, the utility model discloses a basic scheme provides an electromechanical engineering workshop environmental protection dust collector: including dust removal mechanism and circulation mechanism, dust removal mechanism includes the dust removal piece, two intake pipes, first filter screen, suction fan and two water spray units, water spray unit includes the inlet tube, spray pipe and a plurality of first shower nozzle, circulation mechanism includes the circulating pipe, the circulation case, filter unit, the outlet pipe, water pump and drain pipe, filter unit includes the filter frame, the second filter screen, carriage and activated carbon layer, two inlet ports have been seted up on the dust removal piece, be the dust removal chamber and the exhaust hole of V-arrangement, two spray troughs have been seted up on the dust removal chamber top surface, two inlet ports and exhaust hole all communicate the dust removal chamber, two intake pipes are two inlet ports of fixed connection respectively, suction fan and first filter screen are all fixed in the exhaust hole, first filter screen is below the suction fan, two spray pipes are fixed respectively in two spray troughs, and equal fixedly connected with a plurality of first shower nozzles, circulation pipe one end fixed connection dust removal chamber, other end fixed connection circulation case, the carriage is fixed on circulation incasement surface, the filter frame is placed on the carriage top surface, second filter screen and activated carbon layer are all fixed on the filter frame internal surface, the activated carbon layer is under the second filter screen, the other end fixed connection drain pipe, the other end side of the spray pipe, the water pump case side fixed connection drain pipe, the water pump connects the water pump roof.
Compared with the prior art, the utility model discloses an effect: when dust removal is required, a worker firstly moves the environment-friendly dust removal device for the electromechanical engineering workshop to a dust removal place of the electromechanical engineering workshop, starts the water pump, pumps water in the circulation box through the water outlet pipe and sends the water into the two water inlet pipes and the two water spray pipes from the water discharge pipe, then the dust and air are sprayed out from a plurality of spray heads, the suction fan is started by the working personnel, the dust and air in the electromechanical engineering workshop are sucked by the adsorption machine through two air inlet pipes, then the sucked air and dust can enter the two air inlet holes from the two air inlet pipes under the action of the adsorption machine and are sucked into the dust removing cavity from the two air inlet holes, after the water sprayed by the plurality of spray heads is adsorbed and settled, the residual dust and air can be filtered at the first filter screen, then the air passes through the first filter screen and is discharged out of the dust removing block from the exhaust hole through the suction fan, the dust adsorbed by the water falls on the bottom surface of the dust removing cavity together with the water under the action of gravity and enters the circulating box through the circulating pipe, then the water absorbing the dust enters the filter frame and is filtered and absorbed by the second filter screen and the active carbon layer, the water absorbing the dust is filtered to remove the absorbed dust and is stored in the circulating box, the filtered and adsorbed water can be subjected to dust removal circulation through the water outlet pipe and the water pump, the water after dust adsorption can be filtered and adsorbed by the environment-friendly dust removal device for the electromechanical engineering workshop by adopting the circulation mechanism, so that the water after dust adsorption can be reused, a plurality of environment-friendly dust removal devices for the electromechanical engineering workshop can be used for reusing the water after dust adsorption, the practicability of the environment-friendly dust removal device for the electromechanical engineering workshop is improved, water resources are saved, and the environment is protected; the dust entering the dust removing cavity can be adsorbed by spraying water by adopting a plurality of spray heads, so that the practicability of the dust removing mechanism is ensured; adopt first filter screen can further carry out filtration treatment to the dust that gets into the dust removal intracavity, improved dust removal mechanism's dust collection efficiency.
Further, dust removal mechanism still includes two units that admit air, the unit that admits air includes the inlet hood, first protection network, air inlet plate and two air inlet portions, air inlet portion is including the threaded rod that admits air, set up female air inlet cylinder, air inlet dish and air inlet seat, four air inlet threaded rods are all fixed on the piece top surface that removes dust, four air inlet cylinders are four air inlet threaded rods of threaded connection respectively, four air inlet dishes are fixed respectively on four air inlet cylinder top surfaces, the air inlet duct has all been seted up to four air inlet seats, the width of air inlet duct top surface and air inlet dish all is greater than the air inlet duct bottom surface, four air inlet dishes rotate respectively at four air inlet ducts, two air inlet plates are all fixed on two air inlet seat top surfaces, two air inlet hoods are fixed respectively on two air inlet plates, two first protection networks are fixed respectively on two air inlet hood internal surfaces, two air inlet pipes are two air inlet hoods of fixed connection respectively.
Compared with the prior art, the utility model discloses an effect: air inlet cover and first protection network can protect the intake pipe, avoid great external debris directly to get into the intraductal jam intake pipe of intake, have guaranteed the practicality of intake pipe, and the height of the air inlet of inlet plate and intake pipe can be adjusted to two inlet portions, is convenient for remove dust to the air of co-mechanical workshop internal difference height, has improved dust removal mechanism's practicality, and the inlet plate can support the intake pipe.
Further, dust removal mechanism still includes two cleaning unit, and cleaning unit includes scavenge pipe and second shower nozzle, two scavenge pipe homogeneous end fixed connection inlet tubes, other end fixed connection second shower nozzle, and two scavenge pipes are all fixed in the dust removal piece.
Compared with the prior art, the utility model discloses an effect: the scavenge pipe can supply water to the second shower nozzle, has guaranteed the practicality of second shower nozzle, and the second shower nozzle can wash first filter screen through the water spray, has avoided first filter screen to receive the jam of dust, has guaranteed the practicality of first filter screen.
Further, dust removal mechanism still includes two cleaning unit, cleaning unit includes the push pedal, the push rod, the cleaning board, the inserted bar, picture peg and stay tube, two cleaning board slide respectively in dust removal chamber both ends, two push rod homogeneous end fixed connection push pedals, the other end passes dust removal chamber lateral wall and fixed connection cleaning board, two stay tubes are fixed respectively on two opposite flanks of dust removal piece, two push rods slide respectively in two stay tubes, first jack has all been seted up on two stay tubes, the second jack has all been seted up on two push rods, two inserted bar homogeneous end fixed connection picture peg bottom surfaces, the other end slides in first jack and second jack, and butt second jack surface.
Compared with the prior art, the utility model discloses an effect: the clearance board can be cleared up adnexed dust or other debris in the dust removal intracavity, has improved the practicality of dust removal mechanism, and the staff of can being convenient for to the removal of clearance board in push rod and push pedal, stay tube, inserted bar and picture peg can be convenient for the staff to the location of push rod and clearance board position, have improved the practicality of clearance board.
Further, the cycle mechanism still includes the switch unit, the switch unit includes the handle, the switch piece, sealed cell body, a plurality of switch framves, a plurality of switch board and a plurality of switch pole, the switch mouth has been seted up on the circulation case side, the width of switch mouth is greater than the width of crossing the filter frame, sealed cell body is fixed on the switch piece, and sliding connection switch mouth, sealed cell body butt switch mouth surface, a plurality of switch framves are all fixed on circulation case side, a plurality of switch pole homogeneous end fixed connection switch boards, the other end slides in the switch frame and butt switch piece and sealed cell body.
Compared with the prior art, the utility model discloses an effect: the handle can be convenient for the staff to the removal of switch piece, sealed cell body and switch piece can be convenient for prevent that external object from getting into the circulation incasement and destroying the second filter screen, have increased the life of second filter screen, the switch mouth can be convenient for the staff to take out and to the centralized processing of dust on the filter frame of crossing of filter frame, a plurality of switch framves, a plurality of switch boards and a plurality of switch pole can be convenient for the staff to the location of switch piece and sealed cell body.
Further, still include moving mechanism, moving mechanism includes base and four truckles, and circulation case and water pump are all fixed on the base top surface, and four truckles are all fixed on the base bottom surface.
Compared with the prior art, the utility model discloses an effect: circulation case and water pump are all fixed on the base top surface, and four truckles are all fixed on the base bottom surface, can be convenient for remove dust mechanism and circulation mechanism's removal, have improved the convenience that dust mechanism and circulation mechanism removed, have reduced the physical demands that the staff removed dust mechanism and circulation mechanism.
Furthermore, the dust removal mechanism further comprises an auxiliary unit, the auxiliary unit comprises four auxiliary rods and a second protective net, the uniform ends of the four auxiliary rods are fixed on the top surface of the circulating box, the other ends of the four auxiliary rods are fixed on the bottom surface of the dust removal block, and the second protective net is fixed in the exhaust hole and right above the suction fan.
Compared with the prior art, the utility model discloses an effect: the four auxiliary rods can be used for supporting the dust removal block conveniently, the second protective net is fixed in the exhaust hole and right above the suction fan, external sundries can be prevented from entering the exhaust hole and damaging the suction fan conveniently, and the service life of the suction fan is prolonged.
Drawings
In order to more clearly illustrate the technical solutions in the embodiments of the present application, the drawings needed to be used in the description of the embodiments are briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present application, and it is obvious for those skilled in the art to obtain other drawings based on these drawings without creative efforts.
FIG. 1 is a front view of an environmental protection dust removing device for an electromechanical engineering workshop of the present invention;
FIG. 2 is a cross-sectional view of FIG. 1;
FIG. 3 is an enlarged view of a portion A of FIG. 2;
FIG. 4 is a partial enlarged view of portion B of FIG. 2;
FIG. 5 is an enlarged view of a portion C of FIG. 2;
FIG. 6 is an enlarged view of a portion D of FIG. 2;
fig. 7 is a schematic structural view of the drain pipe, the water spray unit and the cleaning unit in fig. 2.
Detailed Description
The technical solutions in the embodiments of the present application will be described clearly and completely with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are only some embodiments of the present application, and not all embodiments. All other embodiments obtained by a person of ordinary skill in the art based on the embodiments in the present application without making any creative effort belong to the protection scope of the present application.
The following is further detailed by the specific embodiments:
reference numerals in the drawings of the specification include: the device comprises a base 1, a water pump 2, a drain pipe 3, a push rod 4, a support pipe 5, an air inlet cover 6, an air inlet pipe 7, an air inlet seat 8, an air inlet cylinder 9, a dust removal block 10, a circulating pipe 11, a circulating box 12, a second filter screen 13, an activated carbon layer 14, a dust removal cavity 15, a second protective screen 16, an exhaust hole 17, a suction fan 18, a cleaning plate 19, an air inlet threaded rod 20, a first protective screen 21, a water spray pipe 22, a first spray head 23, a second spray head 24, a first filter screen 25, a filter frame 26, a sealed groove body 27, a switch frame 28, a switch rod 29, a switch block 30 and an insert rod 31.
The first embodiment is as follows:
the utility model discloses a concrete implementation process: the utility model provides an electromechanical engineering workshop environmental protection dust collector, as shown in figure 1, figure 2, figure 3, figure 4 and figure 7, including dust removal mechanism and circulation mechanism, dust removal mechanism includes dust removal piece 10, two intake pipe 7, first filter screen 25, suction fan 18 and two water spray units, water spray unit includes the inlet tube, spray pipe 22 and a plurality of first shower nozzle 23, circulation mechanism includes circulating pipe 11, circulation case 12, the filter unit, the outlet pipe, water pump 2 and drain pipe 3, the filter unit includes filter frame 26, second filter screen 13, carriage and activated carbon layer 14, dust removal piece 10 has seted up two inlet ports, dust removal chamber 15 and exhaust hole 17 that are the V-arrangement, two water spray tanks have been seted up on the top surface of dust removal chamber 15, two inlet ports and exhaust hole 17 all communicate dust removal chamber 15, two inlet ports 7 respectively fixed connection two inlet ports, suction fan 18 and first filter screen 25 are all fixed in exhaust hole 17, first filter screen 25 is below suction fan 18, two spray pipes 22 are fixed respectively in two water spray tanks, and all fixedly connected with a plurality of first shower nozzle 23, circulation case 14 is fixed connection to the top surface of filter frame 12, the other end fixed connection of filter frame 12, the top surface of filter frame is fixed connection of filter frame, the top surface of filter case 14 is connected to the top surface of filter frame 13, the filter tank 12, the other end fixed connection, the filter tank is connected to the filter tank 14, the filter tank is connected to the filter tank 12, the filter tank is fixed connection, the filter tank.
When dust removal is required, a worker firstly moves the environment-friendly dust removal device for the electromechanical engineering workshop to a dust removal place of the electromechanical engineering workshop, starts the water pump 2, the water pump 2 can pump water in the circulation box 12 through the water outlet pipe, sends the water into the two water inlet pipes and the two water spray pipes 22 from the water outlet pipe 3 and then sprays the water out of the nozzles, the worker then starts the suction fan 18, the adsorption machine starts to suck dust and air in the electromechanical engineering workshop through the two air inlet pipes 7, the sucked air and dust can enter the two air inlet holes from the two air inlet pipes 7 under the action of the adsorption machine and are sucked into the dust removal cavity 15 from the two air inlet holes, and after the water sprayed out of the nozzles is adsorbed and settled, the rest dust and air can be filtered at the first filter screen 25, then the air can pass through the first filter screen 25, and is discharged from the exhaust hole 17 through the suction fan 18 to the dust removal block 10, the dust adsorbed by water can fall on the bottom surface of the dust removal cavity 15 together with water under the action of gravity, and enters the circulation box 12 through the circulating pipe 11, then the water adsorbing the dust can enter the filter frame 26, and is filtered and adsorbed by the second filter screen 13 and the activated carbon layer 14, the water adsorbing the dust can be filtered to remove the adsorbed dust, and is stored in the circulation box 12, then the filtered and adsorbed water can be subjected to dust removal circulation through the water outlet pipe and the water pump 2, the suction fan 18 and the water pump 2 can be externally connected with a power supply, and the first spray nozzles 23 are all atomizing spray nozzles.
Example two:
the difference from the first embodiment is that:
the utility model provides an electromechanical engineering workshop environmental protection dust collector, as figure 1, figure 2 and figure 3 show, dust removal mechanism still includes two units that admit air, the unit that admits air includes air inlet hood 6, first protection network 21, air inlet plate and two portions of admitting air, the portion of admitting air includes air inlet threaded rod 20, set up internal screw thread air inlet tube 9, air inlet dish and air inlet seat 8, four air inlet threaded rod 20 are all fixed on dust removal piece 10 top surface, four air inlet tube 9 are threaded connection four air inlet threaded rod 20 respectively, four air inlet dishes are fixed respectively on four air inlet tube 9 top surfaces, the air inlet duct has all been seted up to four air inlet seats 8, the width of air inlet duct top surface and air inlet dish all is greater than the air inlet duct bottom surface, four air inlet dishes rotate respectively in four air inlet ducts, two air inlet boards are all fixed on two air inlet seat 8 top surfaces, two air inlet hoods 6 are fixed respectively on two air inlet boards, two first protection network 21 are fixed respectively on two air inlet hood 6 internal surfaces, two air inlet pipes 7 are two air inlet hoods 6 of fixed connection respectively.
When the height of the pipe orifice of the air inlet pipe 7 is to be adjusted, a worker firstly grasps the two air inlet cylinders 9 and rotates clockwise, the two air inlet cylinders 9 can drive the two air inlet disks to rotate clockwise, meanwhile, the two air inlet cylinders 9 can rotate relative to the two air inlet threaded rods 20, the two air inlet cylinders 9 can drive the two air inlet disks, the two air inlet seats 8, the air inlet plates and the pipe orifices of the air inlet pipe 7 to move downwards, the two air inlet cylinders 9 rotate anticlockwise simultaneously, and then the two air inlet cylinders 9 can drive the pipe orifices of the air inlet pipe 7 to move upwards together.
Example three:
the difference from the second embodiment is that:
the utility model provides an electromechanical engineering workshop environmental protection dust collector, as shown in fig. 2 and fig. 4, dust removal mechanism still includes two cleaning unit, and cleaning unit includes scavenge pipe and second shower nozzle 24, two scavenge pipe homogeneous end fixed connection inlet tubes, other end fixed connection second shower nozzle 24, and two scavenge pipes are all fixed in dust removal piece 10.
The scavenge pipe can supply water to second shower nozzle 24, has guaranteed second shower nozzle 24's practicality, and second shower nozzle 24 can wash first filter screen 25 through the water spray, has avoided first filter screen 25 to receive the jam of dust, and second shower nozzle 24 can be atomizer.
Example four:
the difference from the third embodiment is that:
the utility model provides an electromechanical engineering workshop environmental protection dust collector, as shown in figure 1, figure 2 and figure 6, dust removal mechanism still includes two clearance units, clearance unit includes the push pedal, push rod 4, clearance board 19, inserted bar 31, picture peg and stay tube 5, two clearance boards 19 slide respectively in dust removal chamber 15 both ends, two push rod 4 homogeneous end fixed connection push pedals, the other end passes dust removal chamber 15 lateral wall and fixed connection clearance board 19, two stay tubes 5 are fixed respectively on 10 two opposite flank of dust removal piece, two push rod 4 slide respectively in two stay tubes 5, first jack has all been seted up on two stay tubes 5, the second jack has all been seted up on two push rod 4, 31 homogeneous end fixed connection picture peg bottom surfaces of two inserted bars, the other end slides in first jack and second jack, and butt second jack surface.
When the dust removing cavity 15 needs to be cleaned, a worker firstly grasps the insertion plate to move upwards, the insertion plate can drive the insertion rod 31 to move upwards together until the insertion rod 31 is completely far away from the second insertion hole, at the moment, the insertion rod 31 is still in the first insertion hole, the worker can push the push plate to move, the push plate can push the push rod 4 and the cleaning plate 19 to move obliquely in the dust removing cavity 15, meanwhile, the cleaning plate 19 can clean and push dust in the dust removing cavity 15, after the dust in the dust removing cavity 15 is cleaned, the worker moves the push plate obliquely upwards, the push plate can pull the push rod 4 and the cleaning plate 19 to move obliquely together until the second insertion hole is aligned with the insertion rod 31, and the worker inserts the insertion rod 31 into the second insertion hole to position the push rod 4 and the cleaning plate 19.
Example five:
the difference from the first embodiment is that:
the utility model provides an electromechanical engineering workshop environmental protection dust collector, as shown in fig. 1, fig. 2 and fig. 5, circulation mechanism still includes the switch unit, the switch unit includes the handle, switch block 30, sealed cell body 27, a plurality of switch frame 28, a plurality of switch board and a plurality of switch pole 29, the switch mouth has been seted up on the circulation case 12 side, the width of switch mouth is greater than the width of filtering frame 26, sealed cell body 27 is fixed on switch block 30, and sliding connection switch mouth, sealed cell body 27 butt switch mouth surface, a plurality of switch frame 28 are all fixed on circulation case 12 side, a plurality of switch pole 29 homogeneous end fixed connection switch board, the other end slides in switch frame 28 and butt switch block 30 and sealed cell body 27.
When taking out the filter frame 26, the staff moves a plurality of switch boards upwards together earlier, and a plurality of switch boards can take a plurality of switch poles 29 upwards together, until a plurality of switch poles 29 all keep away from the switch frame 28 completely, can stimulate the handle and keep away from the circulation case 12, and the handle can take switch block 30 and sealed cell body 27 to keep away from the pass together, and the staff can take out the filter frame 26 on the carriage, and the material of sealed cell body 27 can be butyl rubber, and a plurality of switch frames 28 all are the U-shaped.
Example six:
the difference from the first embodiment is that:
the utility model provides an electromechanical engineering workshop environmental protection dust collector, as shown in figure 1 and figure 2, still includes moving mechanism, and moving mechanism includes base 1 and four truckles, and circulation box 12 and water pump 2 are all fixed on base 1 top surface, and four truckles are all fixed on base 1 bottom surface.
Circulation case 12 and water pump 2 are all fixed on base 1 top surface, and four truckles are all fixed on base 1 bottom surface, can be convenient for dust removal mechanism and circulation mechanism's removal, have reduced the staff and have removed dust removal mechanism and circulation mechanism's physical demands.
Example seven:
the difference from the first embodiment is that:
the utility model provides an electromechanical engineering workshop environmental protection dust collector, as shown in fig. 1 and fig. 2, dust removal mechanism still includes auxiliary unit, and auxiliary unit includes four auxiliary rods and second protection network 16, and four auxiliary rod homogeneous ends are fixed on circulation case 12 top surface, and the other end is fixed on dust removal piece 10 bottom surface, and second protection network 16 is fixed in exhaust hole 17, and directly over suction fan 18.
The four auxiliary rods can be used for supporting the dust removal block 10 conveniently, the second protective net 16 is fixed in the exhaust hole 17 and right above the suction fan 18, so that external sundries can be prevented from entering the exhaust hole 17 and damaging the suction fan 18 conveniently, and the second protective net 16 can be made of stainless steel.
When the environment-friendly dust removal device for the electromechanical engineering workshop works, a worker firstly moves the environment-friendly dust removal device for the electromechanical engineering workshop to a dust removal place of the electromechanical engineering workshop, starts the water pump 2, pumps water in the circulation box 12 through the water outlet pipe, sends the water into the two water inlet pipes and the two water spray pipes 22 from the water outlet pipe 3, then sprays the water out of the plurality of spray heads, then starts the suction fan 18, the adsorption machine starts to suck dust and air in the electromechanical engineering workshop through the two air inlet pipes 7, the sucked air and dust enter the two air inlet holes from the two air inlet pipes 7 under the action of the adsorption machine and are sucked into the dust removal cavity 15 from the two air inlet holes, and after the water sprayed out of the plurality of spray heads is adsorbed and settled, the rest dust and air can be filtered at the first filter screen 25, then the air can pass through the first filter screen 25, and is discharged from the exhaust hole 17 through the suction fan 18 to the dust removal block 10, the dust adsorbed by water can fall on the bottom surface of the dust removal cavity 15 together with water under the action of gravity, and enters the circulation box 12 through the circulating pipe 11, then the water adsorbing the dust can enter the filter frame 26, and is filtered and adsorbed by the second filter screen 13 and the activated carbon layer 14, the water adsorbing the dust can be filtered to remove the adsorbed dust, and is stored in the circulation box 12, then the filtered and adsorbed water can be subjected to dust removal circulation through the water outlet pipe and the water pump 2, the suction fan 18 and the water pump 2 can be externally connected with a power supply, and the first spray nozzles 23 are all atomizing spray nozzles.
Finally, it should be noted that: the above embodiments are only used to illustrate the technical solutions of the present application, and not to limit the same; although the present application has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; such modifications and substitutions do not necessarily depart from the spirit and scope of the corresponding technical solutions in the embodiments of the present application.

Claims (7)

1. The utility model provides an electromechanical engineering workshop environmental protection dust collector which characterized in that: including dust removal mechanism and circulation mechanism, dust removal mechanism includes the dust removal piece, two intake pipes, first filter screen, suction fan and two water spray units, water spray unit includes the inlet tube, spray pipe and a plurality of first shower nozzle, circulation mechanism includes the circulating pipe, the circulation case, filter unit, the outlet pipe, water pump and drain pipe, filter unit includes the filter frame, the second filter screen, carriage and activated carbon layer, two inlet ports have been seted up on the dust removal piece, be the dust removal chamber and the exhaust hole of V-arrangement, two spray troughs have been seted up on the dust removal chamber top surface, two inlet ports and exhaust hole all communicate the dust removal chamber, two intake pipes are two inlet ports of fixed connection respectively, suction fan and first filter screen are all fixed in the exhaust hole, first filter screen is below the suction fan, two spray pipes are fixed respectively in two spray troughs, and equal fixedly connected with a plurality of first shower nozzles, circulation pipe one end fixed connection dust removal chamber, other end fixed connection circulation case, the carriage is fixed on circulation incasement surface, the filter frame is placed on the carriage top surface, second filter screen and activated carbon layer are all fixed on the filter frame internal surface, the activated carbon layer is under the second filter screen, the other end fixed connection drain pipe, the other end side of the spray pipe, the water pump case side fixed connection drain pipe, the water pump connects the water pump roof.
2. The environment-friendly dust removal device for the electromechanical engineering workshop, which is characterized in that: dust removal mechanism still includes two air inlet units, the unit of admitting air includes the inlet cowling, first protection network, inlet manifold and two air inlet portions, the air inlet portion is including the threaded rod that admits air, set up female screw inlet section of thick bamboo, air inlet dish and air inlet seat, four air inlet threaded rods are all fixed on dust removal piece top surface, four air inlet section of thick bamboo is four threaded connection threaded rods that admit air respectively, four air inlet dishes are fixed respectively on four air inlet dish top surfaces, the air inlet duct has all been seted up to four air inlet seats, the width of air inlet duct top surface and air inlet dish all is greater than the air inlet duct bottom surface, four air inlet dishes rotate respectively in four air inlet ducts, two air inlet boards are all fixed on two air inlet seat top surfaces, two air inlet cowls are fixed respectively on two air inlet boards, two first protection networks are fixed respectively on two air inlet cowls internal surfaces, two air inlet pipes are two air inlet cowls of fixed connection respectively.
3. The environment-friendly dust removal device for the electromechanical engineering workshop as claimed in claim 2, wherein: the dust removal mechanism further comprises two cleaning units, each cleaning unit comprises a cleaning pipe and a second nozzle, the two cleaning pipes are fixedly connected with the water inlet pipe at one end, the other ends of the cleaning pipes are fixedly connected with the second nozzles, and the two cleaning pipes are fixed in the dust removal block.
4. The environment-friendly dust removal device for the electromechanical engineering workshop as claimed in claim 3, wherein: dust removal mechanism still includes two clearance units, clearance unit includes the push pedal, the push rod, the clearance board, the inserted bar, picture peg and stay tube, two clearance boards slide respectively in dust removal chamber both ends, two push rod homogeneous end fixed connection push pedals, the other end passes dust removal chamber lateral wall and fixed connection clearance board, two stay tubes are fixed respectively on two opposite flank of piece that removes dust, two push rods slide respectively in two stay tubes, first jack has all been seted up on two stay tubes, the second jack has all been seted up on two push rods, two inserted bar homogeneous end fixed connection picture peg bottom surfaces, the other end slides in first jack and second jack, and butt second jack surface.
5. The environment-friendly dust removal device for the electromechanical engineering workshop, which is characterized in that: circulation mechanism still includes the switch unit, the switch unit includes the handle, the switch piece, sealed cell body, a plurality of switch framves, a plurality of switch board and a plurality of switch pole, the switch mouth has been seted up on the circulation case side, the width of switch mouth is greater than the width of filter frame, sealed cell body is fixed on the switch piece, and sliding connection switch mouth, sealed cell body butt switch mouth surface, a plurality of switch framves are all fixed on the circulation case side, a plurality of switch pole homogeneous end fixed connection switch boards, the other end slides in the switch frame and butt switch piece and sealed cell body.
6. The environment-friendly dust removal device for the electromechanical engineering workshop, which is characterized in that: still include moving mechanism, moving mechanism includes base and four truckles, and circulation case and water pump are all fixed on the base top surface, and four truckles are all fixed on the base bottom surface.
7. The environment-friendly dust removal device for the electromechanical engineering workshop as claimed in claim 1, wherein: the dust removal mechanism further comprises an auxiliary unit, the auxiliary unit comprises four auxiliary rods and a second protective net, the uniform ends of the four auxiliary rods are fixed to the top surface of the circulating box, the other ends of the four auxiliary rods are fixed to the bottom surface of the dust removal block, and the second protective net is fixed in the exhaust hole and directly above the suction fan.
CN202221508850.9U 2022-06-17 2022-06-17 Electromechanical engineering workshop environmental protection dust collector Active CN218130843U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN202221508850.9U CN218130843U (en) 2022-06-17 2022-06-17 Electromechanical engineering workshop environmental protection dust collector

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN202221508850.9U CN218130843U (en) 2022-06-17 2022-06-17 Electromechanical engineering workshop environmental protection dust collector

Publications (1)

Publication Number Publication Date
CN218130843U true CN218130843U (en) 2022-12-27

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Family Applications (1)

Application Number Title Priority Date Filing Date
CN202221508850.9U Active CN218130843U (en) 2022-06-17 2022-06-17 Electromechanical engineering workshop environmental protection dust collector

Country Status (1)

Country Link
CN (1) CN218130843U (en)

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