CN114578771A - Automatic control equipment for metallurgical mechanical equipment - Google Patents

Abstract

The invention provides automatic control equipment for metallurgical mechanical equipment, and relates to the technical field of metallurgy. This automatic control equipment for metallurgical machinery equipment, which comprises an outer shell, the shell outside is equipped with first clearance mechanism, be equipped with second clearance mechanism in the shell, first clearance mechanism is including setting up the clearance frame in the shell outside, even fixedly connected with spring coupling spare on the inboard left and right sides of clearance frame, fixedly connected with cleaning plate on the spring coupling spare opposite side, second clearance mechanism is including setting up the arc slip return bend that is close to on the shell on the left and right sides, sliding connection has the sliding ball on the arc slip return bend, be equipped with the promotion bag pipe in the arc slip return bend, rotating connection elastic connection pipe on the sliding ball left and right sides, the problem of having a large amount of dusts to adhere to the radiating effect who influences equipment in the metallurgical plant workshop has been solved.

Description

Automatic control equipment for metallurgical mechanical equipment

Technical Field

The invention relates to the technical field of metallurgy, in particular to an automatic control device for metallurgical mechanical equipment.

Background

Metallurgy refers to the process and technology of extracting metals or metal compounds from minerals and making metals into metallic materials with certain properties by various processing methods.

When metallurgical process is controlled metallurgical equipment through automatic control equipment, because there is a large amount of dust in the metallurgical plant workshop to make the dust adhere to on the controlgear surface, along with the dust on the extension controlgear of time increases gradually, thereby a large amount of dust is piled up and is influenced the radiating effect of equipment on the controlgear surface seriously and make equipment excessively generate heat and influence normal work and the control effect to metallurgical equipment of controlgear.

Disclosure of Invention

Technical problem to be solved

Aiming at the defects of the prior art, the invention provides automatic control equipment for metallurgical mechanical equipment, which solves the problem that a large amount of dust is attached to the surface of the control equipment in a workshop of a metallurgical plant to influence the heat dissipation effect of the equipment.

(II) technical scheme

In order to achieve the purpose, the invention is realized by the following technical scheme: an automatic control device for metallurgical mechanical equipment comprises a shell, a first cleaning mechanism is arranged outside the shell, a second cleaning mechanism is arranged in the shell,

the first cleaning mechanism comprises a cleaning frame arranged on the outer side of the shell, spring connecting pieces are uniformly and fixedly connected to the left side and the right side of the inner side of the cleaning frame, and a cleaning plate is fixedly connected to the other side of the spring connecting pieces;

the second clearance mechanism, second clearance mechanism are including setting up the arc slip return bend on being close to the left and right sides in the shell, and sliding connection has the sliding ball on the arc slip return bend, is equipped with in the arc slip return bend and promotes the bag pipe, and the elastic connection pipe is rotated on the sliding ball left and right sides and is connected, keeps away from a plurality of vortex point pieces of irregular fixedly connected with on the positive side and the rear side of one side inner wall of sliding ball.

Preferably, the shell bottom is close to fixedly connected with air feeder on the rear side, and the shell inboard is equipped with equipment controlling means, and equipment controlling means rear side fixedly connected with air guide plate, fixed connection between the rear side in air guide plate and the shell, air guide plate bottom pass and communicate between shell and the air feeder, fixed connection between second clearance mechanism and the air guide plate, communicate between first clearance mechanism and the air feeder rear side.

Preferably, first clearance mechanism is still including setting up the impact ball of spring coupling top, the one end that clearance frame was kept away from to the impact ball passes and rotates between clearance frame and the clearance frame and is connected, the impact ball is arranged in and is rotated on the part outside in the clearance frame and be connected with spacing elastic fixing spare, fixed connection between spacing elastic fixing spare and the clearance frame inner wall, the below that clearance frame was arranged in to the impact ball is equipped with the magnetism rectangular, fixed connection between the rectangular and clearance frame inner wall of magnetism, fixedly connected with air inlet pipe on the clearance frame top left and right sides, air inlet pipe rear side fixedly connected with air guide backplate.

Preferably, intercommunication between air guide backplate bottom and the air feeder, the cleaning plate is kept away from spring coupling's one side top and is evenly fixedly connected with cleaning brush on the bottom, and the striking ball is arranged in one side in the clearance frame and is rotated through the torsional spring and is connected with magnetic baffle, and magnetism is opposite between the magnetic baffle left and right sides and the magnetism rectangular, and the pipe that admits air evenly is equipped with circular gas outlet on arranging the part bottom between the pipe inboard and the shell that admits air in, and the cleaning plate has certain magnetism.

Preferably, second clearance mechanism still includes fixed connection and is close to the elastic support pipe of fixed connection on the part of top and bottom in the sliding ball left and right sides, the first pipe of fixedly connected with on the elastic support pipe opposite side, the inboard sliding connection of first pipe has the second pipe, the second pipe is kept away from on one side of first pipe through dead lever fixedly connected with arc gas injection electromagnetism iron plate, fixed block fixedly connected with air suction bag strip pipe is passed through to the sliding ball bottom, air suction bag strip pipe bottom sliding connection has the arc slide, fixedly connected with filter equipment on one side of sliding ball is kept away from to air suction bag strip pipe bottom.

Preferably, cavity in the arc slip return bend, be equipped with the opening on arc slip return bend top and the bottom, promote fixed connection between bag pipe and the air guide plate, promote the bag pipe other end and pass fixed connection between the one end that air guide plate was kept away from to sliding ball and sliding ball, sliding ball is close to the spacing spring of one side fixedly connected with of air guide plate, fixed connection between spacing spring and the air guide plate, the vortex point piece length that sets up in the elastic connection pipe differs and the vortex point piece is kept away from between the one end of elastic connection pipe inner wall crisscross each other, promote intraductal elasticity intake pipe that is equipped with of bag, communicate between elasticity intake pipe one end and the air guide plate, communicate between the elasticity intake pipe other end and the sliding ball.

Preferably, round openings are arranged on the front side and the rear side of one side of the first round pipe, which is far away from the elastic supporting pipe, round openings are also arranged on the front side and the rear side of one side of the second round pipe, which is close to the first round pipe, the distance between the round openings arranged on the first round pipe and the second round pipe, which are positioned above the first round pipe and the second round pipe, which are positioned below the first round pipe and the second round pipe, second round air outlets are uniformly arranged on one side of the arc-shaped air injection electromagnet plate, which is far away from the sliding ball, and the second round air outlets of the arc-shaped air injection electromagnet plate, which is positioned above the arc-shaped air injection electromagnet plate and below the arc-shaped air injection electromagnet plate, are inclined towards one side, which is far away from the middle part of the first round pipe, the air suction bag strip pipe is communicated with the filtering device, and one side of the filtering device, which is far away from the top end of the equipment control device, is fixedly connected with one-way air outlets, one side of the filtering device close to the equipment control device is close to the one-way air inlet of fixedly connected with on the part on top, is equipped with the filter pulp in the filtering device, and magnetism is opposite between the arc gas injection electromagnetic plate on the one side of clearance board and the equipment control device of keeping away from, and spring coupling is passed through to first pipe and second pipe inboard.

(III) advantageous effects

(1) According to the invention, through the cleaning frame, the spring connecting piece, the cleaning plate, the impact ball, the limiting elastic fixing piece, the magnetic strip, the air inlet circular tube and the air guide back plate which are arranged in the first cleaning mechanism, dust on the cleaning plate and the cleaning brush on the cleaning plate can be cleaned under the action of air flow, and the cleaning effect of the cleaning brush on the dust on the surface of the shell is prevented from being influenced by excessive dust attached to the cleaning plate and the cleaning brush.

(2) According to the invention, through the cleaning frame, the spring connecting piece, the cleaning plate, the impact ball, the limiting elastic fixing piece, the magnetic strip, the air inlet circular tube and the air guide back plate which are arranged in the first cleaning mechanism, and under the cooperation of the second cleaning mechanism, dust on the left side and the right side of the shell can be cleaned, so that the influence of excessive dust attached to the shell on the heat dissipation effect of the shell is prevented.

(3) In the invention, through the arc-shaped sliding bent pipe, the sliding ball, the pushing bag pipe, the elastic connecting circular pipe, the turbulence sharp block, the elastic supporting pipe, the first circular pipe, the second circular pipe, the arc-shaped air-jetting electromagnet plate, the arc-shaped slideway, the air-sucking bag strip pipe and the filtering device which are arranged in the second cleaning, under the action of the air flow, the dust on the surface of the equipment control device can be cleaned, and meanwhile, the arc-shaped air injection electromagnet plate can continuously shake in the process of cleaning the dust on the surface of the equipment control device, so that the air flow can be sprayed out at different angles, the cleaning effect on the dust on the surface of the equipment control device is enhanced, the dust is prevented from being accumulated in the gap on the equipment control device and is inconvenient to clean, and prevent excessive dust from adhering to the surface of the equipment control device to influence the heat dissipation effect of the equipment control device, so that the equipment control device is overheated to influence the normal operation of the equipment control device.

(4) According to the invention, through the arc-shaped sliding bent pipe, the sliding ball, the pushing bag pipe, the elastic connecting circular pipe, the turbulence sharp block, the elastic supporting pipe, the first circular pipe, the second circular pipe, the arc-shaped air injection electromagnet plate, the arc-shaped slideway, the air suction bag strip pipe and the filtering device which are arranged in the second cleaning mechanism, air in the shell can be filtered when dust on the surface of the equipment control device is cleaned, and the dust cleaned from the surface of the equipment control device is prevented from being attached to the surface of the equipment control device again to influence the cleaning effect on the dust on the surface of the equipment control device.

Drawings

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

FIG. 2 is a schematic structural view of a first cleaning mechanism according to the present invention;

FIG. 3 is a schematic view of the internal structure of the housing of the present invention;

FIG. 4 is a schematic view of an arc-shaped sliding elbow according to the present invention;

FIG. 5 is a schematic structural view of a second cleaning mechanism according to the present invention;

fig. 6 is an exploded view of a second cleaning mechanism according to the present invention.

The device comprises a shell 1, a gas supply device 101, an equipment control device 102, a first cleaning mechanism 2, a cleaning frame 201, a spring connecting piece 202, a cleaning plate 203, a striking ball 204, a limiting elastic fixing piece 205, a magnetic strip 206, a circular gas inlet pipe 207, a gas guide back plate 208, a second cleaning mechanism 3, an arc-shaped sliding bent pipe 301, a sliding ball 302, a pushing bag pipe 303, an elastic connecting circular pipe 304, a turbulence tip block 305, an elastic supporting pipe 306, a first circular pipe 307, a second circular pipe 308, an arc-shaped gas injection electromagnet plate 309, an arc-shaped slide way 310, a gas suction bag strip pipe 311 and a filtering device 312.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

As shown in fig. 1-6, an embodiment of the present invention provides an automatic control device for a metallurgical machinery, which includes a housing 1, a first cleaning mechanism 2 disposed outside the housing 1, a second cleaning mechanism 3 disposed inside the housing 1,

the first cleaning mechanism 2 comprises a cleaning frame 201 arranged on the outer side of the shell 1, spring connecting pieces 202 are uniformly and fixedly connected to the left side and the right side of the inner side of the cleaning frame 201, and a cleaning plate 203 is fixedly connected to the other side of the spring connecting pieces 202;

second clearance mechanism 3, second clearance mechanism 3 is including setting up the arc slip return bend 301 that is close to on the left and right sides in shell 1, sliding connection has sliding ball 302 on the arc slip return bend 301, be equipped with in the arc slip return bend 301 and promote bag pipe 303, sliding ball 302 goes up to rotate on the left and right sides and is connected flexible connection pipe 304, keep away from a plurality of vortex sharp pieces 305 of irregular fixedly connected with on positive side and the rear side of one side inner wall of sliding ball 302, fixedly connected with air feeder 101 on the shell 1 bottom is close to the rear side, shell 1 inboard is equipped with equipment controlling means 102, equipment controlling means 102 rear side fixedly connected with air guide plate, fixed connection between air guide plate and the shell 1 interior rear side, air guide plate bottom passes and communicates between shell 1 and the air feeder 101, fixed connection between second clearance mechanism 3 and the air guide plate, communicate between first clearance mechanism 2 and the air feeder 101 rear side.

The first cleaning mechanism 2 further comprises a striking ball 204 arranged above the spring connecting piece 202, one end of the striking ball 204 far away from the cleaning frame 201 penetrates through the cleaning frame 201 and is connected with the cleaning frame 201 in a rotating mode, the part, inside the cleaning frame 201, of the striking ball 204 is connected with a limiting elastic fixing piece 205 in a rotating mode, the limiting elastic fixing piece 205 is fixedly connected with the inner wall of the cleaning frame 201, a magnetic strip 206 is arranged below the striking ball 204 arranged inside the cleaning frame 201, the magnetic strip 206 is fixedly connected with the inner wall of the cleaning frame 201, circular air inlet pipes 207 are fixedly connected to the left side and the right side of the top end of the cleaning frame 201, an air guide back plate 208 is fixedly connected to the rear side of the circular air inlet pipes 207, the bottom end of the air guide back plate 208 is communicated with the air supply device 101, cleaning brushes are fixedly connected to the top end of one side, far away from the spring connecting piece 202, of the striking ball 204 arranged on one side inside the cleaning frame 201 in a rotating mode through a torsion spring and are connected with a magnetic baffle plate, the left side and the right side of the magnetic baffle plate are opposite to the magnetic strip 206 in magnetism, a circular air outlet is uniformly formed in the bottom end of the part, between the inner side of the air inlet circular pipe 207 and the shell 1, of the air inlet circular pipe 207, and the cleaning plate 203 has certain magnetism.

The second cleaning mechanism 3 further comprises an elastic support tube 306 fixedly connected to the left and right sides of the sliding ball 302 near the top and bottom, a first round tube 307 fixedly connected to the other side of the elastic support tube 306, a second round tube 308 slidably connected to the inner side of the first round tube 307, an arc-shaped air-jet electromagnet plate 309 fixedly connected to one side of the second round tube 308 away from the first round tube 307 through a fixing rod, an air-suction bag strip tube 311 fixedly connected to the bottom end of the sliding ball 302 through a fixing block, an arc-shaped chute 310 slidably connected to the bottom end of the air-suction bag strip tube 311, a filter 312 fixedly connected to one side of the bottom end of the air-suction bag strip tube 311 away from the sliding ball 302, the arc-shaped sliding elbow 301 being hollow, openings provided on the top and bottom ends of the arc-shaped sliding elbow 301, the air-pushing tube 303 and the air guide plate are fixedly connected, and the other end of the air-pushing tube 303 passes through the sliding ball 302 and is fixedly connected to one end of the sliding ball 302 away from the air guide plate, a limiting spring is fixedly connected to one side of the sliding ball 302 close to the air guide plate, the limiting spring is fixedly connected with the air guide plate, turbulence tip blocks 305 arranged in the elastic connecting circular tube 304 are different in length, one ends, far away from the inner wall of the elastic connecting circular tube 304, of the turbulence tip blocks 305 are mutually staggered, an elastic air inlet tube is arranged in the pushing bag tube 303, one end of the elastic air inlet tube is communicated with the air guide plate, the other end of the elastic air inlet tube is communicated with the sliding ball 302, circular openings are formed in the front side and the rear side of one side, far away from the elastic supporting tube 306, of the first circular tube 307, circular openings are also formed in the front side and the rear side of one side, close to the first circular tube 307, of the second circular tube 308, the distance between the circular openings formed in the first circular tube 307 and the second circular tube 308, which are located above, is longer than the distance between the circular openings formed in the first circular tube 307 and the second circular tube 308, evenly be equipped with the circular gas outlet of second on one side that sliding ball 302 was kept away from to arc gas injection electromagnetism board 309, the circular gas outlet of second that is located arc gas injection electromagnetism board 309 top and is located arc gas injection electromagnetism board 309 below arc gas injection electromagnetism board 309 is to the one side slope of keeping away from first pipe 307 middle part, intercommunication between air suction bag strip pipe 311 and the filter equipment 312, one side that filter equipment 312 was kept away from equipment controlling means 102 is close to the one-way gas outlet of fixedly connected with on the part on the top, one side that filter equipment 312 is close to equipment controlling means 102 is close to the one-way air inlet of fixedly connected with on the part on the top, be equipped with the filter pulp in the filter equipment 312, the magnetism is opposite between arc gas injection electromagnetism board 309 on one side of clearance board 203 and keeping away from equipment controlling means 102, first pipe 307 and second pipe 308 inboard are through spring coupling.

When the air supply device 101 is started to charge air into the circular air inlet pipe 207 through the air guide back plate 208 when the inside and the outside of the shell 1 need to be cleaned, part of the air entering the circular air inlet pipe 207 enters the left side and the right side of the circular air inlet pipe 207, the other part of the air enters the circular air inlet pipe 207 and is sprayed downwards through the circular air outlet, the air entering the left side and the right side of the circular air inlet pipe 207 flows downwards quickly to impact the magnetic baffle plate, when the magnetic baffle plate moves downwards to the upper part of the magnetic strip 206 under the impact of air flow, the magnetic baffle plate rotates under the action of magnetic force to enable the magnetic strip 206 to be perpendicular to the top end of the magnetic strip 206, so that the effect of the magnetic baffle plate influenced by the air flow is reduced, the elastic connecting pipe 304 continuously swings upwards and downwards to impact the spring connecting piece 202 under the action of the limiting elastic fixing piece 205, and the cleaning plate 203 continuously swings to shake off dust attached to the cleaning brush, prevent that outside dust from piling up on clearance board 203 and cleaning brush and dust adheres to clearance board 203 and cleaning brush after clearing up shell 1 influences the clearance effect to the shell 1 outside dust, when needing to clear up the dust on equipment controlling means 102, fill air into pushing bag pipe 303 and elasticity air inlet through air feeder 101, the air that enters into pushing bag pipe 303 piles up in pushing bag pipe 303 and makes pushing bag pipe 303 extend and push sliding ball 302 and slide along arc slip return bend 301, arc slip return bend 301 drives arc gas injection electromagnetism board 309 and removes, the air that simultaneously enters into elasticity air inlet enters into sliding ball 302, the air that enters into sliding ball 302 enters into elastic connection pipe 304, the air that enters into elastic connection pipe 304 strikes vortex pointed piece 305 makes the continuous impact to vortex pointed piece 305 of air current under the water conservancy diversion effect of vortex pointed piece 305 makes elastic connection pipe 304 drive first pipe 307 not to do not drive first pipe 307 The air flow entering the elastic connection circular tube 304 is blown out through the arc-shaped air injection electromagnet plate 309 to blow the surface of the equipment control device 102 so as to clean dust on the surface of the equipment control device 102, meanwhile, part of the air flow entering the sliding ball 302 enters the first circular tube 307 through the elastic support tube 306, the air entering the first circular tube 307 is accumulated in the first circular tube 307 and the air guide back plate 208 to push the second circular tube 308 to slide to one side far away from the sliding ball 302, when the circular openings on the first circular tube 307 and the second circular tube 308 are overlapped, the air in the first circular tube 307 and the second circular tube 308 is discharged out of the second circular tube 308 to reset, and because the distances between the circular openings on the first circular tube 307 and the second circular tube 308 above and below are different, the second circular tube 308 can drive the arc-shaped air injection electromagnet plate 309 to continuously rock up and down, therefore, the cleaning effect of the arc-shaped air injection electromagnet plate 309 is further enhanced, when the sliding ball 302 pulls the air suction bag strip pipe 311 in the moving process, the air suction bag strip pipe 311 extends along the arc-shaped slide way 310, so that the outside air is sucked into the filter device 312 through the filter device 312 to filter the air in the casing 1, the situation that the air in the casing 1 contains a large amount of dust cleaned from the equipment control device 102 and then falls on the surface of the equipment control device 102 to influence the cleaning effect on the dust on the surface of the equipment control device 102 is prevented, when the sliding ball 302 moves to one side of the arc-shaped sliding elbow 301 far away from the air guide plate, the sliding ball 302 stops resetting the air filled in the pushing bag pipe 303 under the action of the limiting spring, and simultaneously drives the air suction bag strip pipe 311 to contract to discharge the air in the air suction bag strip pipe 311 through the filter device 312 so as to clean the dust on the surface of the equipment control device 102 again, when the arc-shaped air injection electromagnet plate 309 moves, current is introduced into the arc-shaped air injection electromagnet plate 309 to enable the cleaning plate 203 to move towards one side where the arc-shaped air injection electromagnet plate 309 is located under the action of magnetic force and enable the cleaning brush on the cleaning plate 203 to be attached to the left side and the right side of the shell 1, and under the action of magnetic force, the arc-shaped air injection electromagnet plate 309 drives the cleaning plate 203 to vertically shake through the arc-shaped air injection electromagnet plate 309 when shaking, so that dust on the outer side of the shell 1 is cleaned.

Claims (7)

1. An automated control equipment for metallurgical machinery equipment, includes shell (1), its characterized in that: a first cleaning mechanism (2) is arranged on the outer side of the shell (1), a second cleaning mechanism (3) is arranged in the shell (1),

the cleaning device comprises a first cleaning mechanism (2), wherein the first cleaning mechanism (2) comprises a cleaning frame (201) arranged on the outer side of the shell (1), spring connecting pieces (202) are uniformly and fixedly connected to the left side and the right side of the inner side of the cleaning frame (201), and a cleaning plate (203) is fixedly connected to the other side of each spring connecting piece (202);

second clearance mechanism (3), second clearance mechanism (3) are including setting up arc slip return bend (301) that are close to on the left and right sides in shell (1), sliding connection has sliding ball (302) on arc slip return bend (301), be equipped with in arc slip return bend (301) and promote bag pipe (303), sliding ball (302) go up the left and right sides and rotate and be connected elastic connection pipe (304), keep away from a plurality of vortex sharp pieces (305) of irregular fixedly connected with on the positive side and the rear side of one side inner wall of sliding ball (302).

2. An automatic control equipment for metallurgical machinery equipment according to claim 1, characterized in that: fixedly connected with air feeder (101) on shell (1) bottom is close to the rear side, shell (1) inboard is equipped with equipment controlling means (102), equipment controlling means (102) rear side fixedly connected with air guide plate, fixed connection between air guide plate and the shell (1) interior rear side, air guide plate passes intercommunication between shell (1) and air feeder (101) bottom, fixed connection between second clearance mechanism (3) and the air guide plate, intercommunication between first clearance mechanism (2) and the air feeder (101) rear side.

3. An automatic control equipment for metallurgical machinery equipment according to claim 1, characterized in that: first clearance mechanism (2) are still including setting up impact ball (204) of spring coupling (202) top, the one end that clearance frame (201) was kept away from in impact ball (204) is passed and is rotated between clearance frame (201) and be connected, impact ball (204) are arranged in and are rotated on the part outside in clearance frame (201) and be connected with spacing elastic fixing spare (205), fixed connection between spacing elastic fixing spare (205) and the clearance frame (201) inner wall, the below that clearance frame (201) was arranged in impact ball (204) is equipped with rectangular (206) of magnetism, fixed connection between rectangular (206) of magnetism and clearance frame (201) inner wall, fixedly connected with air inlet pipe (207) on clearance frame (201) top left and right sides, air inlet pipe (207) rear side fixedly connected with backplate air guide (208).

4. An automatic control equipment for metallurgical machinery equipment according to claim 3, characterized in that: the utility model discloses a cleaning brush, including air guide backplate (208), air feeder (101), the even fixedly connected with cleaning brush on one side top and the bottom of spring coupling spare (202) are kept away from in cleaning plate (203), impact ball (204) are arranged in one side in clearance frame (201) and are connected with the magnetism baffle through the torsional spring rotation, magnetism is opposite between the magnetism baffle left and right sides and the rectangular (206) of magnetism, air inlet pipe (207) are arranged in and are evenly equipped with circular gas outlet on the part bottom between air inlet pipe (207) inboard and shell (1), cleaning plate (203) have certain magnetism.

5. An automatic control equipment for metallurgical machinery equipment according to claim 1, characterized in that: second clearance mechanism (3) still include fixed connection elastic support pipe (306) on the part that the sliding ball (302) left and right sides is close to top and bottom, the first pipe (307) of fixedly connected with on elastic support pipe (306) opposite side, first pipe (307) inboard sliding connection has second pipe (308), second pipe (308) are kept away from on one side of first pipe (307) through dead lever fixedly connected with arc gas injection electromagnetism board (309), sliding ball (302) bottom is through fixed block fixedly connected with suction bag strip pipe (311), suction bag strip pipe (311) bottom sliding connection has arc slide (310), suction bag strip pipe (311) bottom is kept away from on one side of sliding ball (302) fixedly connected with filter equipment (312).

6. An automatic control equipment for metallurgical machinery equipment according to claim 1, characterized in that: hollow in arc slip return bend (301), be equipped with the opening on arc slip return bend (301) top and the bottom, promote fixed connection between bag pipe (303) and the air guide, promote bag pipe (303) other end and pass fixed connection between one end that air guide was kept away from to sliding ball (302) and sliding ball (302), sliding ball (302) are close to the spacing spring of one side fixedly connected with of air guide, fixed connection between spacing spring and the air guide, set up vortex point piece (305) in elastic connection pipe (304) different in size and vortex point piece (305) keep away from between the one end of elastic connection pipe (304) inner wall crisscross each other, be equipped with the elasticity intake pipe in promotion bag pipe (303), intercommunication between elasticity intake pipe one end and the air guide, intercommunication between the elasticity intake pipe other end and the sliding ball (302).

7. An automatic control equipment for metallurgical machinery equipment according to claim 5, characterized in that: round openings are arranged on the front side and the rear side of one side of the first round pipe (307) far away from the elastic supporting pipe (306), round openings are also arranged on the front side and the rear side of one side of the second round pipe (308) near the first round pipe (307), the distance between the round openings arranged on the first round pipe (307) and the second round pipe (308) above is longer than the distance between the round openings arranged on the first round pipe (307) and the second round pipe (308) below, a second round air outlet is uniformly arranged on one side of the arc-shaped air injection electromagnet plate (309) far away from the sliding ball (302), the second round air outlet of the arc-shaped air injection electromagnet plate (309) above and below the arc-shaped air injection electromagnet plate (309) inclines towards one side far away from the middle part of the first round pipe (307), and the air suction bag strip pipe (311) is communicated with the filtering device (312), one side of the filtering device (312) far away from the equipment control device (102) is fixedly connected with a one-way air outlet on the part close to the top end, one side of the filtering device (312) near the equipment control device (102) is fixedly connected with a one-way air inlet on the part close to the top end, filter cotton is arranged in the filtering device (312), the cleaning plate (203) and the arc-shaped air-jet electromagnetic plate (309) on one side far away from the equipment control device (102) are opposite in magnetism, and the inner sides of the first circular tube (307) and the second circular tube (308) are connected through a spring.

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