CN113914070A - Nuclear power plant uses clothing cleaning device - Google Patents

Abstract

The invention provides a clothes cleaning device for a nuclear power plant, and relates to the technical field of nuclear power industry. The invention provides a clothes cleaning device for a nuclear power plant, which comprises a cleaning device, a dust removing mechanism, a filtering mechanism, a support, an air exhaust device, a driving device, a second driving device, a dust removing mechanism arranged on the right side of the cleaning device, a filtering mechanism arranged on the left side of the cleaning device, a support arranged on the right side of the dust removing mechanism, an air exhaust device arranged on the front side of the cleaning device, a driving device fixedly connected with the filtering mechanism, and a second driving device fixedly connected with the bottom end of the dust removing mechanism.

Description

Nuclear power plant uses clothing cleaning device

Technical Field

The invention relates to the technical field of nuclear power industry, in particular to a clothes cleaning device for a nuclear power plant.

Background

The nuclear power plant is a power facility for generating electricity or generating electricity and supplying heat by using heat energy generated by one or a plurality of power reactors, wherein the reactors are key equipment of the nuclear power plant, chain fission reaction is carried out in the nuclear power plant, and nuclear energy released by nuclear fission is converted into heat energy and then converted into electric energy, and the system and the facility are generally called as the nuclear power plant.

Laundry wastewater in a nuclear power station has radioactivity, and can be discharged after being filtered, but the wastewater in the laundry contains a large amount of coils, and the coils are continuously accumulated in a drainage pipeline in the process of discharging the wastewater to influence the drainage of the wastewater due to the blockage of the drainage pipeline, so that the treatment of radioactive substances in the laundry wastewater is not facilitated.

Disclosure of Invention

Technical problem to be solved

Aiming at the defects of the prior art, the invention provides a clothes cleaning device for a nuclear power plant, which solves the problem that the subsequent treatment of radioactive substances in wastewater is influenced due to the blockage of a pipeline caused by a large amount of coils in the wastewater discharged from a laundry room of the nuclear power plant.

(II) technical scheme

In order to achieve the purpose, the invention is realized by the following technical scheme: the utility model provides a nuclear power plant uses clothing cleaning device, includes belt cleaning device, dust removal mechanism, filtering mechanism, and the support, air exhaust device, drive arrangement, second drive arrangement, the belt cleaning device right side is equipped with dust removal mechanism, and the belt cleaning device left side is equipped with filtering mechanism, and the dust removal mechanism right side is equipped with the support, and the belt cleaning device positive side is equipped with air exhaust device, and filtering mechanism fixedly connected with drive arrangement, dust removal mechanism bottom end fixedly connected with second drive arrangement.

Preferably, the support is close to the flexible propelling fork of top fixedly connected with, the flexible dead lever of support top below fixedly connected with, flexible dead lever bottom fixedly connected with press from both sides the clothing ring, press from both sides the clothing ring below and be equipped with the press from both sides the clothing ring equally, set up between the press from both sides the clothing ring and the second drive arrangement top of below through automatic telescopic link fixed connection, the drive arrangement middle part rotates and is connected with the connection swivel becket, connect swivel becket and filter mechanism right side fixed connection, the first exhaust tube of part fixedly connected with of dust removal mechanism is close to the exhaust apparatus rear side, the part fixedly connected with second exhaust tube of filter mechanism is close to the exhaust apparatus rear side.

Preferably, the dust removing mechanism comprises a dust removing cylinder arranged above the second driving device, a fixing ring is fixedly connected to the top end of the dust removing cylinder, a fixed telescopic inserted rod is fixedly connected to the inner side of the fixing ring, a spiral rotating ring is slidably connected to the bottom end of the fixing ring, an annular rotating seat is fixedly connected to the bottom end of the spiral rotating ring, a rotating air exhaust ring is rotatably connected to the outer side of the annular rotating seat, a telescopic air duct is uniformly and fixedly connected to the inner side of the spiral rotating ring, an arc sliding groove is fixedly connected to one end, away from the spiral rotating ring, of the telescopic air duct, a limiting spring is fixedly connected between the arc sliding groove and the telescopic air duct, a cleaning ball is rotatably connected to one side, away from the telescopic air duct, of the arc sliding groove, an elastic connecting pipe is uniformly arranged in a space between the spiral rotating rings, a beating ball is fixedly connected between the elastic connecting pipe and the spiral rotating ring, and a beating ball is uniformly and fixedly connected to the elastic connecting pipe, the middle part of the inner side of the arc-shaped sliding groove is fixedly connected with an arc-shaped sliding lug, and a plurality of arc-shaped flow disturbing blocks are fixedly connected in the elastic connecting pipe.

Preferably, the middle part of the cleaning ball is provided with a sliding groove, the sliding groove is matched with the flapping ball, the cleaning ball is uniformly provided with a circular air inlet, a telescopic air duct is communicated with an arc-shaped sliding groove, the telescopic air duct is communicated with a spiral rotating ring, the middle part of the inner side of the dust removing cylinder is also provided with a spiral rotating ring, the outer side of the spiral rotating ring arranged at the middle part of the dust removing cylinder is also provided with a telescopic air duct, the arc-shaped sliding groove, a limiting spring, the cleaning ball, an arc-shaped sliding lug, an elastic connecting pipe is also arranged between the spiral rotating rings arranged at the middle part of the dust removing cylinder, the flapping ball, an arc-shaped turbulence block, the elastic connecting pipe is communicated with the spiral rotating ring, the annular rotating seat is communicated with the rotary air pumping ring, the outer side of the rotary air pumping ring is fixedly connected with a first air pumping pipe, the arc-shaped turbulence block arranged in the elastic connecting pipe is all in the same straight line with the circle of the dust removing cylinder, the top end of the spiral rotating ring arranged at the middle part of the dust removing cylinder is also slidably connected with a fixing ring, the fixed ring outside fixedly connected with fixed flexible inserted bar, the fixed flexible inserted bar that sets up on the solid fixed ring in the middle part of a dust removal section of thick bamboo can insert in the fixed flexible inserted bar that is close to a dust removal section of thick bamboo inner wall.

Preferably, the filtering mechanism comprises an air pumping ring fixedly connected to the right side of the cleaning device, a rotary air guide ring is uniformly and fixedly connected between the air pumping rings, a discharge pipe is arranged on the inner side of the rotary air guide ring, a magnetic shunt column is arranged in the middle of the inner side of the discharge pipe, an arc-shaped filtering rod is uniformly arranged on the outer side of the magnetic shunt column, one side of the arc-shaped filtering rod close to the magnetic shunt column is fixedly connected with an air outlet balloon, one end of the arc-shaped filtering rod far away from the magnetic shunt column penetrates through the discharge pipe and is fixedly connected with the inner side of the rotary air guide ring, a fixed rod is fixedly connected on the outer side of one end of the magnetic shunt column far away from the cleaning device, the other end of the fixed rod is fixedly connected with the inner side of the air pumping ring, the middle part of the inner side of the air outlet balloon is fixedly connected with a fixed rod, a second limiting spring is obliquely and fixedly connected with the outer side of the fixed rod, an arc-shaped sealing plate is fixedly connected in one end of the air outlet balloon close to the arc-shaped filtering rod, elastic contraction bag strip bottom fixedly connected with magnetism slip ring, the arc filters the pole and passes fixed connection between elastic contraction bag strip and magnetism slip ring and the ball of giving vent to anger, the even fixedly connected with clear stream gib block of the one end at the ball place is kept away from to the magnetism slip ring, sliding connection has second magnetism slip ring on the crossing department of arc filtration pole and delivery pipe, fixed connection ring on the crossing department of delivery pipe and arc filtration pole, the clear stream gib block is equipped with equally on one side of the ball of keeping away from out to the ring, the one end fixedly connected with fixed spring of ball is kept away from to second magnetism slip ring, fixed spring and rotation lead fixed connection between the gas ring.

Preferably, the arc-shaped filter rod and the air outlet ball are communicated, the discharge pipe is fixedly connected with the connecting rotating ring, the connecting rotating ring is far away from a water outlet nozzle fixedly connected with one side of the discharge pipe, the second magnetic sliding ring has the same magnetic pole with the flow cleaning oblique strip arranged on the circular ring, the magnetic sliding ring, the elastic shrinkage bag strip and the arc-shaped filter rod are slidably connected, the magnetic pole between the magnetic sliding ring and the second magnetic sliding ring is the same, the air outlet ball is uniformly provided with an air outlet towards the left side of one side of the magnetic flow dividing column, the arc-shaped sealing plate is uniformly provided with a second air outlet, the second air outlet and the air outlet are staggered, and the magnetic pole between the second limiting spring and the magnetic flow dividing column is the same.

(III) advantageous effects

(1) According to the invention, the spiral rotating ring, the annular rotating seat, the rotary air pumping ring, the telescopic air guide pipe, the arc-shaped sliding groove, the limiting spring and the cleaning ball are arranged in the dust removing mechanism, so that the cleaning ball can be tightly attached to the surface of clothes to clean dust on the surface of the clothes under the action of air flow and the tension of the limiting spring, meanwhile, the contact area between the cleaning ball and the clothes is enlarged through the special shape of the spiral rotating ring, the cleaning effect on the dust on the surface of the clothes is enhanced, the use of water resources caused by the clothes cleaning in a nuclear power plant is reduced, the generation of cleaning wastewater is reduced, and the use of resources in the wastewater treatment is reduced.

(2) According to the invention, through the elastic connecting pipe arranged in the dust removing mechanism, the flapping ball and the arc-shaped turbulence block, the air flow entering the elastic connecting pipe through the spiral rotating ring collides with the arc-shaped turbulence block, and the arc-shaped turbulence block and the circle center of the dust removing cylinder are in the same straight line, so that the arc-shaped turbulence block continuously flaps clothes to discharge dust in the clothes, and the cleaning effect on the dust on the clothes is further enhanced.

(3) According to the invention, the arc-shaped filter rod, the air outlet ball, the discharge pipe, the air exhaust ring, the rotary air guide ring, the fixed rod and the second limiting spring are arranged in the filter mechanism, when waste water is discharged through the discharge pipe, the arc-shaped sealing plate forms air bubbles which are opposite to the flow direction of water flow through the air sprayed from the air outlet ball, so that the retention time of a coil between the discharge pipe and the magnetic diversion column is prolonged, and the coil in the waste water is intercepted through the rotation of the arc-shaped filter rod, so that the phenomenon that the drainage pipeline is blocked due to the accumulation of excessive coils in the subsequent drainage pipeline is prevented.

(4) According to the invention, the elastic shrinkage bag strip, the magnetic sliding ring, the flow cleaning oblique strip, the second magnetic sliding ring, the circular ring and the fixed spring which are arranged in the filtering mechanism enable the magnetic sliding ring to slide along the arc-shaped filtering rod under the action of centrifugal force and air flow and clean the thread balls on the arc-shaped filtering rod through the flow cleaning oblique strip, so that the thread balls on the arc-shaped filtering rod are cleaned out of the discharge pipe, and the phenomenon that the thread balls are accumulated on the part of the arc-shaped filtering rod arranged in the discharge pipe to influence the subsequent cleaning effect on the thread balls in the wastewater is prevented.

Drawings

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

FIG. 2 is a schematic view of the annular rotary base of the present invention;

FIG. 3 is a schematic view of the internal structure of the dust-removing cylinder of the present invention;

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

FIG. 5 is an enlarged view of the structure of FIG. 3A according to the present invention;

FIG. 6 is a schematic view of the interior of the discharge tube of the present invention;

FIG. 7 is a schematic view of an arc-shaped filter rod according to the present invention;

FIG. 8 is a cross-sectional view of the balloon of the present invention;

FIG. 9 is a side cross-sectional view of the elastomeric joint tube of the present invention.

Wherein, the cleaning device 1, the dust removing mechanism 2, the dust removing barrel 201, the fixing ring 202, the fixed telescopic inserted link 203, the spiral rotating ring 204, the annular rotating seat 205, the rotating air pumping ring 206, the telescopic air duct 207, the arc sliding groove 208, the limiting spring 209, the cleaning ball 210, the elastic connecting pipe 211, the flapping ball 212, the arc sliding projection 213, the arc flow disturbing block 214, the filtering mechanism 3, the air pumping ring 301, the rotating air guiding ring 302, the discharge pipe 303, the magnetic shunt column 304, the arc filtering rod 305, the air outlet ball 306, the fixing rod 307, the second limiting spring 308, the arc sealing plate 309, the elastic contraction bag strip 310, the magnetic sliding ring 311, the flow cleaning oblique strip 312, the second magnetic sliding ring 313, the circular ring 314, the fixing spring 315, the water outlet nozzle 316, the bracket 4, the telescopic pushing fork 401, the telescopic fixing rod 402, the clothes clamping ring 403, the air pumping device 5, the first air pumping pipe 501, the second air pumping pipe 502, the driving device 6, the water outlet pipe 316, the fixing pipe 208, the fixed telescopic air outlet pipe 209, the air outlet pipe 308, the air outlet pipe, the air outlet pipe, the air outlet, the rotating ring 601 and the second driving device 7 are connected.

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. 1-9, an embodiment of the present invention provides a nuclear power plant clothes cleaning apparatus, including a cleaning apparatus 1, a dust removing mechanism 2, a filtering mechanism 3, a bracket 4, an air extractor 5, a driving device 6, a second driving device 7, a dust removing mechanism 2 disposed on the right side of the cleaning apparatus 1, a filtering mechanism 3 disposed on the left side of the cleaning apparatus 1, a bracket 4 disposed on the right side of the dust removing mechanism 2, an air extractor 5 disposed on the front side of the cleaning apparatus 1, a driving device 6 fixedly connected to the filtering mechanism 3, a second driving device 7 fixedly connected to the bottom end of the dust removing mechanism 2, a telescopic pushing fork 401 fixedly connected to the bracket 4 near the top end, a telescopic fixing rod 402 fixedly connected to the lower portion of the top end of the bracket 4, a clothes clamping ring 403 fixedly connected to the bottom end of the telescopic fixing rod 402, a clothes clamping ring 403 also disposed below the clothes clamping ring 403, and a top end of the second driving device 7 fixedly connected through an automatic telescopic rod, the middle part of the driving device 6 is rotatably connected with a connecting rotating ring 601, the connecting rotating ring 601 is fixedly connected with the right side of the filtering mechanism 3, the rear side of the air extracting device 5 is close to a part of the first air extracting pipe 501 fixedly connected with the dust removing mechanism 2, and the rear side of the air extracting device 5 is close to a part of the second air extracting pipe 502 fixedly connected with the filtering mechanism 3.

The dust removing mechanism 2 comprises a dust removing cylinder 201 arranged above the second driving device 7, the top end of the dust removing cylinder 201 is fixedly connected with a fixed ring 202, the inner side of the fixed ring 202 is fixedly connected with a fixed telescopic inserted rod 203, the bottom end of the fixed ring 202 is slidably connected with a spiral rotating ring 204, the bottom end of the spiral rotating ring 204 is fixedly connected with an annular rotating seat 205, the outer side of the annular rotating seat 205 is rotatably connected with a rotating air extracting ring 206, the inner side of the spiral rotating ring 204 is uniformly and fixedly connected with a telescopic air duct 207, one end of the telescopic air duct 207, far away from the spiral rotating ring 204, is fixedly connected with an arc sliding groove 208, a limiting spring 209 is fixedly connected between the arc sliding groove 208 and the telescopic air duct 207, one side of the arc sliding groove 208, far away from the telescopic air duct 207, is rotatably connected with a cleaning ball 210, an elastic connecting pipe 211 is uniformly arranged in a space between the spiral rotating rings 204, and the elastic connecting pipe 211 is fixedly connected with the spiral rotating rings 204, the elastic connecting pipe 211 is uniformly and fixedly connected with a beating ball 212, the middle part of the inner side of the arc-shaped sliding groove 208 is fixedly connected with an arc-shaped sliding lug 213, the elastic connecting pipe 211 is internally and fixedly connected with a plurality of arc-shaped turbulence blocks 214, the middle part of the cleaning ball 210 is provided with a sliding groove, the sliding groove is matched with the beating ball 212, the cleaning ball 210 is uniformly provided with a circular air inlet, the telescopic air duct 207 is communicated with the arc-shaped sliding groove 208, the telescopic air duct 207 is communicated with the spiral rotating ring 204, the middle part of the inner side of the dust removing cylinder 201 is also provided with the spiral rotating ring 204, the outer side of the spiral rotating ring 204 arranged at the middle part of the dust removing cylinder 201 is also provided with the telescopic air duct 207, the arc-shaped sliding groove 208, a limiting spring 209, the cleaning ball 210, the arc-shaped sliding lug 213, the elastic connecting pipe 211 is also arranged between the spiral rotating rings 204 arranged at the middle part of the dust removing cylinder 201, the beating ball 212, the arc-shaped turbulence blocks 214 are communicated with the spiral rotating ring 204, the annular rotates the seat 205 and rotates and link up between the ring 206 of taking out air, rotate and take out air fixed connection between ring 206 outside and the first exhaust tube 501, the arc vortex piece 214 that sets up in elastic connection pipe 211 all with the dust removal section of thick bamboo 201 circular shape on same straight line, the same sliding connection in spiral rotation ring 204 top that is located dust removal section of thick bamboo 201 middle part has solid fixed ring 202, gu fixed ring 202 outside fixed connection has fixed flexible inserted bar 203, the fixed flexible inserted bar 203 that sets up on the solid fixed ring 202 at dust removal section of thick bamboo 201 middle part can insert in the fixed flexible inserted bar 203 that is close to the inner wall of dust removal section of thick bamboo 201.

The filtering mechanism 3 comprises an air pumping ring 301 fixedly connected to the right side of the cleaning device 1, a rotary air guiding ring 302 is fixedly connected between the air pumping rings 301, a discharge pipe 303 is arranged on the inner side of the rotary air guiding ring 302, a magnetic shunt column 304 is arranged in the middle of the inner side of the discharge pipe 303, an arc-shaped filtering rod 305 is uniformly arranged on the outer side of the magnetic shunt column 304, one side of the arc-shaped filtering rod 305 close to the magnetic shunt column 304 is fixedly connected with an air outlet balloon 306, one end of the arc-shaped filtering rod 305 far away from the magnetic shunt column 304 passes through the discharge pipe 303 and is fixedly connected with the inner side of the rotary air guiding ring 302, a fixing rod 307 is fixedly connected on the outer side of one end of the magnetic shunt column 304 far away from the cleaning device 1, the other end of the fixing rod 307 is fixedly connected with the inner side of the air pumping ring 301, a fixing rod 307 is fixedly connected with the middle of the inner side of the air outlet balloon 306, a second limiting spring 308 is fixedly connected with a second limiting spring 309 fixedly connected with one end of the fixing rod 307 in an inclined manner, an elastic contraction bag strip 310 is fixedly connected in one end of the air outlet ball 306 close to the arc-shaped filter rod 305, the bottom end of the elastic contraction bag strip 310 is fixedly connected with a magnetic sliding ring 311, the arc-shaped filter rod 305 passes through the elastic contraction bag strip 310 and is fixedly connected with the air outlet ball 306 through the magnetic sliding ring 311, one end of the magnetic sliding ring 311 far away from the air outlet ball 306 is uniformly and fixedly connected with a clear flow oblique strip 312, a second magnetic sliding ring 313 is slidably connected at the intersection of the arc-shaped filter rod 305 and the discharge pipe 303, a circular ring 314 is fixedly connected at the intersection of the discharge pipe 303 and the arc-shaped filter rod 305, one side of the circular ring 314 far away from the air outlet ball 306 is also provided with the clear flow oblique strip 312, one end of the second magnetic sliding ring 313 far away from the air outlet ball 306 is fixedly connected with a fixing spring 315, the fixing spring 315 is fixedly connected with the rotation air guide ring 302, the arc-shaped filter rod 305 is communicated with the air outlet ball 306, and the discharge pipe 303 is fixedly connected with a connection rotation ring 601, the side of the rotating ring 601 far away from the discharge pipe 303 is fixedly connected with a water outlet nozzle 316, a second magnetic sliding ring 313 has the same magnetic pole with the clear flow inclined bar 312 arranged on the circular ring 314, the magnetic sliding ring 311 and the elastic shrinkage bag bar 310 are in sliding connection with the arc-shaped filter rod 305, the magnetic poles of the magnetic sliding ring 311 and the second magnetic sliding ring 313 are the same, the left side of the air outlet ball 306 facing the magnetic flow distribution column 304 is uniformly provided with an air outlet, the arc-shaped sealing plate 309 is uniformly provided with a second air outlet, the second air outlet is staggered with the air outlet, and the magnetic poles of the second limiting spring 308 and the magnetic flow distribution column 304 are the same.

When the clothes cleaning device is used, clothes are fixed between two clothes clamping rings 403, the telescopic fixing rod 402 and the automatic telescopic rod arranged below are started to place the clothes clamping rings 403 in the dust removing cylinder 201 and between two spiral rotating rings 204, current is introduced into the limiting spring 209 in the process that the clothes clamping rings 403 enter the spiral rotating rings 204, so that the limiting spring 209 contracts under the mutual attraction effect of the current, the clothes clamping rings 403 can drive the clothes into the dust removing cylinder 201 more smoothly, the clothes clamping rings 403 are prevented from extruding the cleaning balls 210, the damage of the cleaning balls 210 is prevented, the cleaning effect on the clothes is influenced, when the clothes clamping rings 403 are placed in the dust removing cylinder 201, the fixed telescopic insertion rods 203 are automatically started to enable the two fixed telescopic insertion rods 203 to be nested together, the top ends of the spiral rotating rings 204 are fixed, the second driving device 7 is started to drive the annular rotating seat 205 to rotate, the spiral rotating rings 204 rotate to drive the spiral rotating rings 204 to rotate at a constant speed, when the spiral rotating ring 204 rotates, the air extractor 5 is started to pump the air inside the arc-shaped sliding groove 208 into the cleaning ball 210 through the first air extracting pipe 501, the rotary air extracting ring 206 and the spiral rotating ring 204, at this time, the current is stopped to be introduced into the limiting spring 209, so that the limiting spring 209 is restored under the action of self tension to push the telescopic air guiding pipe 207 to extend to enable the cleaning ball 210 to be tightly attached to the surface of clothes between the clothes clamping rings 403, when the telescopic air guiding pipe 207 rotates along with the spiral rotating ring 204, the cleaning ball 210 is tightly attached to the surface of the clothes to roll and cooperate with the air flow to enter the arc-shaped sliding groove 208 through the circular air inlet on the cleaning ball 210 to adsorb dust on the clothes, and when the second driving device 7 drives the spiral rotating ring 204 to rotate forwards for a period of time, the second driving device 7 rotates backwards to drive the spiral rotating ring 204 to rotate backwards, the spiral rotating ring 204 is arranged in a spiral rotating shape, so that when the spiral rotating ring 204 rotates in the forward and reverse directions, the cleaning ball 210 and the clothes can be driven to have a larger contact area, the cleaning effect on dust on the surface of the clothes is enhanced, meanwhile, when airflow enters the spiral rotating ring 204, the airflow entering the spiral rotating ring 204 flows through the elastic connecting pipe 211 and finally enters the air extracting device 5, the airflow entering the elastic connecting pipe 211 rapidly flows and collides with the arc inner side of the arc-shaped flow disturbing block 214, so that the elastic connecting pipe 211 continuously swings to push the beating ball 212 to beat the clothes between the spiral rotating ring 204 after being impacted by the internal airflow, the dust in the clothes is discharged, and the dust beating from the clothes is collected through the inward airflow outside the cleaning ball 210, so that the cleaning effect on the dust on the clothes is further enhanced, thereby reducing the utilization of water resources when washing clothes and reducing the discharge of sewage containing radioactivity in the nuclear power plant and reducing the use of resources when treating waste water.

After dust on clothes is cleaned, the clothes are pushed upwards through automatic telescoping, meanwhile, the telescopic fixing rod 402 is contracted to enable the clothes clamping ring 403 to be arranged at the top end of the dust removing cylinder 201, the telescopic pushing fork 401 is automatically started to pull the clothes from the clothes clamping ring 403 to be pushed into the cleaning device 1, the cleaning device 1 is started to clean the clothes, waste water generated by cleaning is discharged through the discharging pipe 303 after cleaning is completed, the waste water flows through the discharging pipe 303 and the magnetic shunting column 304 under the action of the magnetic shunting column 304 when entering the discharging pipe 303, the driving device 6 is started to drive the connecting rotating ring 601 to rotate at the same time, the connecting rotating ring 601 rotates to drive the discharging pipe 303 to rotate, the discharging pipe 303 rotates to drive the rotating air guide ring 302 to rotate through the arc-shaped filter rod 305, when the arc-shaped filter rod 305 rotates continuously along with the connecting rotating ring 601, the air supply device is started to intercept the thread groups in the waste water and simultaneously to enable air to pass through the second air suction pipe 502 to suck air through the air suction pipe 502 The air ring 301 is filled into the rotary air guide ring 302, and enters the arc-shaped filter rod 305 through the rotary air guide ring 302, the air entering the arc-shaped filter rod 305 enters the air outlet ball 306, at the moment, current is introduced into the magnetic shunt column 304, the arc-shaped sealing plate 309 moves towards one side close to the fixed rod 307 under the action of magnetic repulsion, so that the air flow in the air outlet ball 306 is sprayed out from the air outlet on the air outlet ball 306 to form bubbles in the wastewater in a direction opposite to the water flow to impact a coil in the wastewater, the retention time of the coil between the discharge pipe 303 and the magnetic shunt column 304 is prolonged, the interception effect of the arc-shaped filter rod 305 on the coil is enhanced, after the wastewater in the cleaning device 1 is discharged, the driving device 6 drives the rotary ring 601 to rotate in an accelerating way, meanwhile, the electrified current is stopped to be introduced into the magnetic shunt column 304, so that the arc-shaped sealing plate 309 clings to the air outlet on the inner side of the air outlet ball 306, the air entering the air outlet ball 306 continuously enters the elastic shrinkage bag strip 310 to push the magnetic sliding ring 311 to slide along the arc-shaped filter rod 305 to the side away from the air outlet ball 306, meanwhile, the sliding speed of the magnetic sliding ring 311 is accelerated under the action of centrifugal force, when the magnetic sliding ring 311 slides, the cleaning flow oblique strip 312 is pushed to push the coil on the arc-shaped filter rod 305 to gather the coil on the arc-shaped filter rod 305, when the magnetic sliding ring 311 is close to the second magnetic sliding ring 313, the second magnetic sliding ring 313 pushes the fixed spring 315 to shrink under the action of mutual repulsion between magnetic forces, finally, the magnetic sliding ring 311 is placed between the cleaning flow oblique strips 312 arranged on the circular ring 314, and because the magnetic poles between the cleaning flow oblique strips 312 arranged on the circular ring 314 and the magnetic sliding ring 311 are the same, the cleaning flow oblique strips 312 arranged on the circular ring 314 can clean the coil on the surface of the magnetic sliding ring 311 tightly attached to the magnetic sliding ring 311, the excessive coil is prevented from being adhered to the magnetic sliding ring 311, so that the magnetic sliding ring 311 returns the coil to the discharge pipe 303, when the fixed spring 315 contracts, current is introduced into the fixed spring 315, the fixed spring 315 contracts under the action of mutual attraction between the currents to fix the second magnetic sliding ring 313, when the coil is pushed out of the discharge pipe 303 by the cleaning flow oblique strip 312, the driving device 6 stops rotating, meanwhile, the air suction device 5 stops working, the magnetic sliding ring 311 is reset, the coil intercepted on the arc-shaped filter rod 305 is cleaned, and the phenomenon that the coil is excessively accumulated on the arc-shaped filter rod 305 to influence the filtering effect of the coil is prevented.

Claims (6)

1. The utility model provides a nuclear power plant uses clothing cleaning device, includes belt cleaning device (1), dust removal mechanism (2), filtering mechanism (3), support (4), air exhaust device (5), drive arrangement (6), second drive arrangement (7), its characterized in that: cleaning device (1) right side is equipped with dust removal mechanism (2), and cleaning device (1) left side is equipped with filtering mechanism (3), and dust removal mechanism (2) right side is equipped with support (4), and cleaning device (1) positive side is equipped with air exhaust device (5), filtering mechanism (3) fixedly connected with drive arrangement (6), and dust removal mechanism (2) bottom fixedly connected with second drive arrangement (7).

2. The nuclear power plant clothing cleaning device of claim 1, wherein: support (4) are close to flexible propelling fork (401) of top fixedly connected with, support (4) top below fixedly connected with flexible dead lever (402), flexible dead lever (402) bottom fixedly connected with press from both sides clothing ring (403), press from both sides clothing ring (403) below and be equipped with press from both sides clothing ring (403) equally, press from both sides clothing ring (403) and second drive arrangement (7) top of setting in the below through automatic telescopic link fixed connection, drive arrangement (6) middle part is rotated and is connected with and connects swivel becket (601), connect swivel becket (601) and filtering mechanism (3) right side fixed connection, part fixedly connected with first exhaust tube (501) of dust removal mechanism (2) is close to air exhaust device (5) rear side, part fixedly connected with second exhaust tube (502) of filtering mechanism (3) is close to air exhaust device (5) rear side.

3. The nuclear power plant clothing cleaning device of claim 1, wherein: the dust removal mechanism (2) comprises a dust removal cylinder (201) arranged above the second driving device (7), the top end of the dust removal cylinder (201) is fixedly connected with a fixing ring (202), the inner side of the fixing ring (202) is fixedly connected with a fixed telescopic inserted rod (203), the bottom end of the fixing ring (202) is slidably connected with a spiral rotating ring (204), the bottom end of the spiral rotating ring (204) is fixedly connected with an annular rotating seat (205), the outer side of the annular rotating seat (205) is rotatably connected with a rotary air extraction ring (206), the inner side of the spiral rotating ring (204) is uniformly and fixedly connected with a telescopic air duct (207), one end of the telescopic air duct (207), which is far away from the spiral rotating ring (204), is fixedly connected with an arc sliding groove (208), a limiting spring (209) is fixedly connected between the arc sliding groove (208) and the telescopic air duct (207), and one side, which is far away from the telescopic air duct (207), of the arc sliding groove (208) is rotatably connected with a cleaning ball (210), evenly be equipped with elastic connection pipe (211) in the space between spiral rotating ring (204), fixed connection between elastic connection pipe (211) and spiral rotating ring (204), even fixedly connected with beats ball (212) on elastic connection pipe (211), arc sliding tray (208) inboard middle part fixedly connected with arc slip lug (213), a plurality of arc spoiler pieces (214) of fixedly connected with in elastic connection pipe (211).

4. The nuclear power plant clothing cleaning device of claim 3, wherein: the cleaning ball (210) is provided with a sliding groove in the middle, the sliding groove is matched with the beating ball (212), the cleaning ball (210) is uniformly provided with a circular air inlet, the telescopic air duct (207) is communicated with the arc-shaped sliding groove (208), the telescopic air duct (207) is communicated with the spiral rotating ring (204), the middle part of the inner side of the dust removing cylinder (201) is also provided with the spiral rotating ring (204), the outer side of the spiral rotating ring (204) arranged in the middle of the dust removing cylinder (201) is also provided with the telescopic air duct (207), the arc-shaped sliding groove (208), a limiting spring (209), the cleaning ball (210), the arc-shaped sliding lug (213), an elastic connecting pipe (211) is also arranged between the spiral rotating rings (204) arranged in the middle of the dust removing cylinder (201), the beating ball (212) is provided, the arc-shaped flow disturbing block (214) is communicated between the elastic connecting pipe (211) and the spiral rotating ring (204), the annular rotating seat (205) is communicated with the rotary air extracting ring (206), fixed connection between the outside of the rotary air extracting ring (206) and the first air extracting pipe (501), arc-shaped turbulence blocks (214) arranged in the elastic connecting pipe (211) are all circular on the same straight line with the dust removing cylinder (201), the top end of a spiral rotating ring (204) positioned at the middle part of the dust removing cylinder (201) is also slidably connected with a fixed ring (202), the outside of the fixed ring (202) is fixedly connected with a fixed telescopic inserted bar (203), and the fixed telescopic inserted bar (203) arranged on the fixed ring (202) at the middle part of the dust removing cylinder (201) can be inserted into the fixed telescopic inserted bar (203) close to the inner wall of the dust removing cylinder (201).

5. The nuclear power plant clothing cleaning device of claim 1, wherein: the filtering mechanism (3) comprises an air pumping ring (301) fixedly connected to the right side of the cleaning device (1), a rotary air guide ring (302) is uniformly and fixedly connected between the air pumping ring (301), a discharge pipe (303) is arranged on the inner side of the rotary air guide ring (302), a magnetic shunt column (304) is arranged in the middle of the inner side of the discharge pipe (303), an arc-shaped filter rod (305) is uniformly arranged on the outer side of the magnetic shunt column (304), one side, close to the magnetic shunt column (304), of the arc-shaped filter rod (305) is fixedly connected with an air outlet balloon (306), one end, far away from the magnetic shunt column (304), of the arc-shaped filter rod (305) penetrates through the discharge pipe (303) and is fixedly connected with the inner side of the rotary air guide ring (302), a fixing rod (307) is fixedly connected with the outer side of one end, far away from the cleaning device (1), of the magnetic shunt column (304), and the other end of the fixing rod (307) is fixedly connected with the inner side of the air pumping ring (301), a fixed rod (307) is fixedly connected to the middle part of the inner side of the balloon outlet (306), a second limiting spring (308) is fixedly connected to the outer side of the fixed rod (307) in an inclined manner, an arc-shaped sealing plate (309) is fixedly connected to one end, far away from the fixed rod (307), of the second limiting spring (308), an elastic shrinkage bag strip (310) is fixedly connected to one end, close to the arc-shaped filter rod (305), of the balloon outlet (306), a magnetic sliding ring (311) is fixedly connected to the bottom end of the elastic shrinkage bag strip (310), the arc-shaped filter rod (305) penetrates through the elastic shrinkage bag strip (310) and the magnetic sliding ring (311) and is fixedly connected with the balloon outlet (306), a clear flow inclined strip (312) is uniformly and fixedly connected to one end, far away from the balloon outlet (306), of the magnetic sliding ring (311), a second magnetic sliding ring (313) is slidably connected to the intersection of the arc-shaped filter rod (305) and the discharge pipe (303), a circular ring (314) is fixedly connected to the intersection of the discharge pipe (303) and the arc-shaped filter rod (305), a clear flow oblique strip (312) is also arranged on one side, away from the air outlet ring (306), of the circular ring (314), a fixed spring (315) is fixedly connected to one end, away from the air outlet ring (306), of the second magnetic sliding ring (313), and the fixed spring (315) is fixedly connected with the rotary air guide ring (302).

6. The nuclear power plant clothing cleaning device of claim 5, wherein: the arc-shaped filter rod (305) is communicated with the air outlet ball (306), the discharge pipe (303) is fixedly connected with the connecting rotating ring (601), one side of the connecting rotating ring (601), which is far away from the discharge pipe (303), is fixedly connected with a water outlet nozzle (316), the second magnetic sliding ring (313) is the same as the magnetic pole of the clear flow inclined strip (312) arranged on the circular ring (314), the magnetic sliding ring (311) and the elastic shrinkage bag strip (310) are slidably connected with the arc-shaped filter rod (305), the magnetic poles of the magnetic sliding ring (311) and the second magnetic sliding ring (313) are the same, the air outlet ball (306) is uniformly provided with an air outlet towards the left side of the magnetic diversion column (304), the arc-shaped sealing plate (309) is uniformly provided with a second air outlet, the second air outlet is staggered with the air outlet, and the magnetic poles of the second limiting spring (308) and the magnetic diversion column (304) are the same.

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