CN114716091A - A effluent water sump removes mud equipment for various steel sheet production line - Google Patents

Abstract

The invention discloses a sewage pool sludge removing device for a color steel plate production line, which comprises a bearing plate, wherein a first supporting plate, a second supporting plate, a motor frame and a supporting frame are fixedly connected onto the bearing plate, the upper surfaces of the first supporting plate and the second supporting plate are fixedly connected with a shell, an opening for allowing a color steel plate to enter is formed in the upper surface of the shell, a first conveying pipe for discharging sewage is fixedly communicated with one side, close to the bottom, of the shell, a filtering box for filtering sewage and a first garbage box for placing sludge are fixedly connected onto the bearing plate, the filtering box is attached to the first garbage box and is positioned right below the first conveying pipe, and a second garbage box for placing scrap iron is fixedly connected onto the bearing plate. By arranging the adsorption mechanism, the invention achieves the effects that the adsorption block can slide up and down in a reciprocating way and stir sewage when rotating, so that scrap iron can be adsorbed more easily, the mixture of sludge and scrap iron can be separated easily, and a large amount of labor and time are saved.

Description

A effluent water sump removes mud equipment for various steel sheet production line

Technical Field

The invention relates to the technical field of sludge removal equipment, in particular to sewage pool sludge removal equipment for a color steel plate production line.

Background

In the production line of color steel plates, uncoiled steel plates need to be placed in a cleaning tank for cleaning in an electrogalvanizing process, and the purpose of cleaning is to remove metal powder and grease on the surfaces of the steel plates.

Because will deposit and form iron fillings and mud mixture after long-time accumulation metal piece and greasy dirt in the washing pond, and most remove mud equipment in use and all directly fish out the iron fillings and the mud mixture of the inside, then separate, iron fillings and mud mixture have very big difficulty when separating this moment, and also wasted a large amount of manpowers and time, so we need a sewage pond for various steel sheet production line to remove mud equipment and solve above-mentioned problem.

Disclosure of Invention

The invention aims to provide sewage pool sludge removing equipment for a color steel plate production line, which has the advantages of easiness in separating sludge and scrap iron and labor and time saving, and solves the problems that the mixture of the scrap iron and the sludge is difficult to separate and a large amount of time and labor are wasted.

In order to achieve the purpose, the invention provides the following technical scheme: a sewage pool sludge removing device for a color steel plate production line comprises a bearing plate, wherein a first supporting plate, a second supporting plate, a motor frame and a supporting frame are fixedly connected onto the bearing plate, the upper surfaces of the first supporting plate and the second supporting plate are fixedly connected with a shell, an opening for allowing a color steel plate to enter is formed in the upper surface of the shell, one side, close to the bottom, of the shell is fixedly communicated with a first conveying pipe for discharging sewage, a filter box for filtering sewage and a first garbage box for placing sludge are fixedly connected onto the bearing plate, the filter box is attached to the first garbage box, the filter box is located under the first conveying pipe, a second garbage box for placing scrap iron is fixedly connected onto the bearing plate, a through groove is formed in the supporting frame and is fixedly connected with a slide way through the through groove, the bottom of the slide way is located right above the second garbage box, fixedly connected with motor on the motor frame, the output fixedly connected with of motor runs through the axis of rotation of casing bottom surface, be equipped with the adsorption apparatus who is arranged in adsorbing the casing iron fillings in the axis of rotation.

Preferably, the disc of motor one side is kept away from including fixed connection in the axis of rotation to the adsorption apparatus structure, the side fixedly connected with of disc is used for scraping shells inner wall's scraper, two support columns of one end fixedly connected with of axis of rotation are kept away from to the disc, axial sliding connection has the barrel casing on the support column, the first slider of fixedly connected with on the inner wall of barrel casing, the lower fixed surface of support frame is connected with bracing piece and the switch that runs through the barrel casing, the first turning block of one end fixedly connected with of support frame is kept away from to the bracing piece, seted up on the disc with first turning block complex turning trough, fixedly connected with round block on the arc profile of bracing piece, the U-shaped groove has been seted up on the round block, first slider and U-shaped groove sliding connection, the outer fixed surface of barrel casing is connected with six or a plurality of adsorption blocks that are used for adsorbing iron fillings.

Preferably, the rotating shaft is provided with a recovery mechanism for scrap iron to fall, the recovery mechanism comprises a first gear-lacking gear and a second gear-lacking gear which are fixedly connected to the arc outline of the rotating shaft, the first gear-lacking gear and the second gear-lacking gear are attached, the bearing plate is rotatably connected with a first rotating rod and a second rotating rod by a fixed shaft, the arc outline of the first rotating rod is fixedly connected with a third gear-lacking gear which is intermittently meshed with the first gear-lacking gear, the arc outline of the second rotating rod is fixedly connected with a fourth gear-lacking gear which is intermittently meshed with the second gear-lacking gear, the first supporting plate and the second supporting plate are both provided with chutes, and are respectively in limited sliding connection with a first rack which is alternately meshed with the first gear-lacking gear and the third gear-lacking gear and a second rack which is alternately meshed with the second gear-lacking gear and the fourth gear-lacking gear, the upper surfaces of the first rack and the second rack are fixedly connected with a first circular ring and a second circular ring which are used for bearing scrap iron, and the side surface of the second circular ring is provided with an opening matched with the slide way.

Preferably, be equipped with the clean mechanism that is used for clean rose box on the second rack, clean mechanism is including the connecting block, the second rack is close to one side of rose box and has seted up the spout and pass through spout and the spacing sliding connection of connecting block, fixedly connected with connecting rod on the connecting block, the brush head of fixedly connected with clean rose box upper surface on the arc profile of connecting rod, the connecting rod is kept away from the one end dead axle rotation of connecting block and is connected with the second and changes the piece, fixedly connected with third backup pad on the bearing plate, the parallelogram groove has been seted up in the third backup pad to there is the second to change the piece through the spacing sliding connection of parallelogram groove.

Preferably, clean mechanism is still including the telescopic link, first spacing groove and second spacing groove have been seted up to the diagonal of parallelogram groove, the diapire of first spacing groove and second spacing groove all with telescopic link fixed connection, every the equal fixedly connected with second slider in upper surface of telescopic link, every the telescopic link is close to one of top and has all cup jointed the spring, every the both ends of spring all with telescopic link and second slider fixed connection.

Preferably, the bearing plate is provided with a backflow mechanism for enabling filtered water to flow into the shell again and cleaning the washing head, the backflow mechanism comprises a piston cylinder fixedly connected to the bearing plate, the piston cylinder is fixedly communicated with the filter box through a second conveying pipe, one end, away from the second conveying pipe, of the piston cylinder is fixedly communicated with the shell through a third conveying pipe, the second conveying pipe and the third conveying pipe are fixedly connected with one-way valves, the third conveying pipe is fixedly communicated with a fourth conveying pipe for cleaning the washing head, the fourth conveying pipe is fixedly connected with a connecting rod, the inner wall of the piston cylinder is fixedly and slidably connected with a sealing plug, the upper surface of the sealing plug is coaxially and fixedly connected with a sliding rod penetrating through the top surface of the piston cylinder, one end, away from the sliding rod, of the sliding rod is fixedly connected with the connecting plate, and the connecting rod is fixedly connected with a third sliding block, and the connecting plate is provided with a sliding groove in limited sliding connection with the third sliding block.

Preferably, be equipped with on the bearing plate and be used for flowing into the casing again with the water after filtering and wash the backward flow mechanism of brush head, backward flow mechanism is including the water pump of fixed connection on the bearing plate, the water pump passes through the fixed intercommunication of second transportation pipe and rose box, the one end that the second transportation pipe was kept away from to the water pump is through the fixed intercommunication of third transportation pipe and casing, equal fixedly connected with check valve on second transportation pipe and the third transportation pipe, fixed intercommunication has the fourth transportation pipe that is used for wasing the brush head on the third transportation pipe, fourth transportation pipe and connecting rod fixed connection.

Compared with the prior art, the invention has the following beneficial effects:

1. by arranging the adsorption mechanism, the invention achieves the effects that the adsorption block can slide up and down in a reciprocating way and stir sewage when rotating, so that scrap iron can be adsorbed more easily, the mixture of sludge and scrap iron can be separated easily, and a large amount of labor and time are saved.

2. According to the invention, the recovery mechanism is arranged, so that the iron chips on the adsorption block are conveyed into the second garbage box, and the effect of separating sludge from the iron chips is achieved.

3. The invention achieves the effect of filtering water containing sludge and recycling the water by arranging the filter box.

4. According to the invention, the cleaning mechanism is arranged, so that the top surface of the filter box is cleaned, and the filter box is prevented from being blocked.

5. According to the invention, through arranging the backflow mechanism, the filtered water is transported into the shell again for continuous use, a large amount of water resources are saved, and the washing head is cleaned, so that the effect that the washing head is prevented from being adhered with too much sludge, and the filter box is cleaned unclean.

Drawings

FIG. 1 is a schematic view of the overall structure of the present invention for adsorbing scrap iron;

FIG. 2 is a schematic view of the overall structure of the present invention with scrap iron falling;

FIG. 3 is a schematic structural section view of an adsorption mechanism according to the present invention;

FIG. 4 is a schematic structural appearance of the adsorption mechanism of the present invention;

FIG. 5 is a schematic view of the first and second missing tooth gears of the present invention;

FIG. 6 is a schematic view of the recovery mechanism of the present invention;

FIG. 7 is a first schematic structural view of a cleaning mechanism according to the present invention;

FIG. 8 is a second schematic structural view of the cleaning mechanism of the present invention;

FIG. 9 is a first schematic structural diagram of a reflow mechanism of the present invention;

FIG. 10 is a schematic cross-sectional view of the reflow mechanism of the present invention;

FIG. 11 is a schematic view of the third slider and the connecting plate according to the present invention;

fig. 12 is a second schematic structural diagram of the reflow mechanism of the present invention.

In the figure: 1. a bearing plate; 11. a first support plate; 111. a first rack; 112. a first circular ring; 12. a second support plate; 121. a second rack; 122. a second circular ring; 123. a connecting rod; 124. a second rotating block; 125. a brush washing head; 126. a third slider; 127. connecting blocks; 13. a support frame; 131. a slideway; 132. a support bar; 133. a first rotating block; 134. a round block; 135. a U-shaped groove; 136. a switch; 14. a first rotating lever; 141. a third gear with missing teeth; 15. a second rotating lever; 151. a fourth missing tooth gear; 16. a third support plate; 161. a parallelogram groove; 162. a telescopic rod; 163. a spring; 164. a second slider; 165. a first limit groove; 166. a second limit groove; 2. a motor; 21. a motor frame; 22. a rotating shaft; 221. a first missing-tooth gear; 222. a second missing tooth gear; 23. a disc; 231. a support pillar; 24. a scraper; 25. a barrel sleeve; 251. a first slider; 26. an adsorption block; 3. a housing; 31. a first transport pipe; 4. a second waste bin; 5. a filter box; 6. a first waste bin; 7. a piston cylinder; 71. a second transport pipe; 711. a one-way valve; 72. a third transport pipe; 73. a fourth transport pipe; 74. a slide bar; 741. a sealing plug; 75. a connecting plate; 8. and (4) a water pump.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments 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.

Example one

The invention provides a technical scheme that: a sewage pool sludge removing device for a color steel plate production line comprises a bearing plate 1, wherein a first supporting plate 11, a second supporting plate 12, a motor frame 21 and a supporting frame 13 are fixedly connected to the bearing plate 1, the upper surfaces of the first supporting plate 11 and the second supporting plate 12 are fixedly connected with a shell 3, the upper surface of the shell 3 is provided with an opening for feeding, one side of the shell 3 close to the bottom is fixedly communicated with a first conveying pipe 31 for discharging sewage, the bearing plate 1 is fixedly connected with a filter box 5 for filtering sewage and a first garbage box 6 for placing sludge, the filter box 5 is attached to the first garbage box 6, the filter box 5 is positioned under the first conveying pipe 31, the bearing plate 1 is fixedly connected with a second garbage box 4 for placing scrap iron, the supporting frame 13 is provided with a through groove and is fixedly connected with a slide 131 through the through groove, the bottom of the slide 131 is positioned right above the second garbage box 4, fixedly connected with motor 2 on the motor frame 21, the output fixedly connected with of motor 2 runs through the axis of rotation 22 of 3 bottom surfaces of casing, is equipped with the adsorption apparatus who is arranged in adsorbing casing 3 iron fillings on the axis of rotation 22.

Reach the effect that supports whole equipment through setting up bearing plate 1, reach to support casing 3 and support spacing effect to first rack 111 and second rack 121 through setting up first backup pad 11 and second backup pad 12, reach the effect of placing water through setting up casing 3, reach various steel sheet and can place in casing 3 through setting up the opening and thereby abluent effect, reach the effect with sewage discharge through setting up first transport pipe 31, reach the filterable effect with sewage through setting up rose box 5, reach the effect of placing mud through setting up first rubbish box 6, reach the effect of supporting slide 131 and bracing piece 132 through setting up support frame 13, reach the effect of placing iron fillings through setting up second rubbish box 4, reach the effect of installing motor 2 through setting up motor frame 21, reach axis of rotation 22 pivoted effect through setting up motor 2.

Adsorption device is including the disc 23 of fixed connection in the rotation axis 22 and keeping away from motor 2 one side, the side fixedly connected with of disc 23 is used for scraping the scraper 24 of casing 3 inner wall, two support columns 231 of one end fixedly connected with of rotation axis 22 are kept away from to disc 23, axially sliding connection has barrel casing 25 on the support column 231, first slider 251 of fixedly connected with on the inner wall of barrel casing 25, the lower fixed surface of support frame 13 is connected with bracing piece 132 and the switch 136 that runs through barrel casing 25, the first pivot piece 133 of one end fixedly connected with of support frame 13 is kept away from to bracing piece 132, seted up on the disc 23 with first pivot piece 133 complex turn trough, fixedly connected with round piece 134 on the arc profile of bracing piece 132, U-shaped groove 135 has been seted up on the round piece 134, first slider 251 and U-shaped groove 135 sliding connection, six or a plurality of adsorption blocks 26 that are used for adsorbing iron fillings are connected with to the external surface fixed connection of barrel casing 25.

The effect that the disc 23 rotates, namely the scraper 24 rotates and the support columns 231 rotate, the effect that sludge on the inner wall of the shell 3 is scraped down by arranging the scraper 24 to avoid the sludge from adhering to the inner wall of the shell 3, the effect that the cylinder sleeve 25 synchronously rotates when the support columns 231 rotate, namely the first sliding block 251 rotates, is achieved by arranging the cylinder sleeve 25 on the support columns 231 in an axial sliding connection manner, the effect that the support rod 132 cannot move, namely the round block 134 cannot move is achieved by arranging the support rod 132 which penetrates through the cylinder sleeve 25 and fixedly connects the lower surface of the support frame 13, when the disc 23 rotates by arranging the rotary groove which is matched with the first rotary block 133 on the disc 23, the effect that the support rod 132 cannot rotate is achieved by arranging the first sliding block 251 and the U-shaped groove 135 in a sliding connection manner, the cylinder sleeve 25 can rotate and can slide up and down along the U-shaped groove 135 in a reciprocating manner, so that the adsorption block 26 reciprocally slides up and down and rotates to thereby achieve the effects of stirring the sewage and adsorbing the iron pieces.

A recovery mechanism for scrap iron falling is arranged on the rotating shaft 22, the recovery mechanism comprises a first missing tooth gear 221 and a second missing tooth gear 222 which are fixedly connected on the arc-shaped outline of the rotating shaft 22, the first missing tooth gear 221 and the second missing tooth gear 222 are attached, a first rotating rod 14 and a second rotating rod 15 are rotatably connected on the bearing plate 1 through a fixed shaft, a third missing tooth gear 141 which is intermittently meshed with the first missing tooth gear 221 is fixedly connected on the arc-shaped outline of the first rotating rod 14, a fourth missing tooth gear 151 which is intermittently meshed with the second missing tooth gear 222 is fixedly connected on the arc-shaped outline of the second rotating rod 15, sliding grooves are respectively arranged on the first supporting plate 11 and the second supporting plate 12, and a first rack 111 which is alternately meshed with the first missing tooth gear 221 and the third missing tooth gear 141 and a second rack 121 which is alternately meshed with the second missing tooth gear 222 and the fourth missing tooth gear 151 are respectively in a limiting sliding manner through the sliding grooves, the upper surfaces of the first rack 111 and the second rack 121 are fixedly connected with a first circular ring 112 and a second circular ring 122 which are used for receiving iron chips, and the side surface of the second circular ring 122 is provided with an opening matched with the slide 131.

The effect that the first missing gear 221 and the second missing gear 222 rotate synchronously when the rotating shaft 22 rotates is achieved by fixedly connecting the first missing gear 221 and the second missing gear 222 to the arc-shaped profile of the rotating shaft 22, the effect that the first missing gear 221 and the second missing gear 222 rotate synchronously when the rotating shaft 22 rotates is achieved by arranging the third missing gear 141 and the first missing gear 221 to be intermittently meshed, the fourth missing gear 151 and the second missing gear 222 to be intermittently meshed, the first rack 111 to be alternately meshed with the first missing gear 221 and the third missing gear 141, and the effect that the second rack 121 to be alternately meshed with the second missing gear 222 and the fourth missing gear 151 to achieve that when the first missing gear 221 and the second missing gear 222 to be respectively meshed with the third missing gear 141 and the fourth missing gear 151, the first rack 111 and the second rack 121 slide in opposite directions, respectively, so that the first circular ring 112 and the second circular ring 122 slide in opposite directions, and the cylinder sleeve 25 drives the block 26 to slide downwards, the first circular ring 112 and the second circular ring 122 do not interfere with the first circular ring 112 and the second circular ring 122, when the first gear-lacking gear 221 and the second gear-lacking gear 222 are respectively engaged with the first rack 111 and the second rack 121, the first rack 111 and the second rack 121 slide in opposite directions to enable the first ring 112 and the second ring 122 to slide in opposite directions to each other, at this time, the barrel sleeve 25 drives the adsorption block 26 to slide upwards, so that when the adsorption block 26 is higher than the first ring 112 and the second ring 122, the first ring 112 and the second ring 122 are closed in a matched manner, at this time, the barrel sleeve 25 abuts against the switch 136, the switch 136 is closed, the magnetic attraction force of the adsorption block 26 disappears, so that the iron filings on the adsorption block 26 fall on the first ring 112 and the second ring 122, and as the first ring 112 and the second ring 122 are inclined, the iron filings slide to the opening at the second ring 122 and fall in the second garbage box 4 along the slide rail 131, thereby achieving separation of sludge and iron filings, avoiding wasting time for two times of separation, when the adsorption block 26 of the sleeve 25 slides downwards and does not abut against the switch 136, the switch 136 is turned on at the moment, so that the adsorption block 26 returns to the water again to continue to adsorb.

Be equipped with the clean mechanism that is used for clean rose box 5 on the second rack 121, clean mechanism is including connecting block 127, the spout has been seted up and has been passed through the spout and the spacing sliding connection of connecting block 127 to one side that second rack 121 is close to rose box 5, fixedly connected with connecting rod 123 on the connecting block 127, the brush head 125 of fixedly connected with clean rose box 5 upper surface on the arc profile of connecting rod 123, the one end dead axle rotation that connecting rod 123 kept away from connecting block 127 is connected with second commentaries on classics piece 124, fixedly connected with third backup pad 16 on the bearing plate 1, parallelogram groove 161 has been seted up on the third backup pad 16, and there is second commentaries on classics piece 124 through the spacing sliding connection of parallelogram groove 161.

Reach when second rack 121 reciprocating sliding through setting up connecting block 127 and connecting rod 123, connecting block 127 and the synchronous reciprocating sliding of connecting rod 123 are the effect of washing brush head 125 reciprocating sliding promptly, reach clean rose box 5 top surface through setting up washing brush head 125 reciprocating sliding, thereby rose box 5 can not take place the effect of jam, reach connecting rod 123 along the gliding effect of parallelogram groove 161 through setting up parallelogram groove 161, it can rotate when parallelogram groove 161 slides to reach through setting up second commentaries on classics piece 124, thereby reduce frictional force's effect.

Clean mechanism is still including telescopic link 162, first spacing groove 165 and second spacing groove 166 have been seted up to the diagonal of parallelogram groove 161, the equal fixedly connected with telescopic link 162 of diapire of first spacing groove 165 and second spacing groove 166, the equal fixedly connected with second slider 164 of upper surface of every telescopic link 162, every telescopic link 162 is close to the one end at top and has all cup jointed spring 163, the both ends of every spring 163 all with telescopic link 162 and second slider 164 fixed connection.

Through the arrangement of the parallelogram groove 161 and the second rotary block 124, when the second rack 121 slides towards the first garbage box 6, that is, the brush head 125 slides towards the first garbage box 6, at this time, the brush head 125 is attached to the upper surface of the filter box 5, impurities on the filter box 5 are pushed onto the first garbage box 6, after the pushing is completed, the second rotary block 124 abuts against the second slide block 164 in the first limiting groove 165, the second slide block 164 moves towards the telescopic rod 162, when the second rotary block 124 continues to move forwards and is not abutted against the second slide block 164, the telescopic rod 162 and the spring 163 push the second slide block 164 to push the second rotary block 124, so that the second rotary block 124 moves upwards along the parallelogram groove 161, so that the connecting rod 123 and the brush head 125 slide upwards, when the second rotary block 124 slides to the uppermost part of the parallelogram groove 161, at this time, the second rack 121 slides towards the direction far from the first garbage box 6, that the brush head 125 slides towards the direction far from the first garbage box 6, when the second rotating block 124 abuts against the second sliding block 164 in the second limiting groove 166, the second sliding block 164 moves towards the telescopic rod 162, when the second rotating block 124 continues to move forwards and does not abut against the second sliding block 164, the telescopic rod 162 and the spring 163 push the second sliding block 164 to push the second rotating block 124, so that the second rotating block 124 moves downwards along the direction of the parallelogram groove 161, and the connecting rod 123 and the scrubbing head 125 slide downwards, and when the second rotating block 124 slides to the lowest position of the parallelogram groove 161, the second rack 121 slides towards the first garbage box 6, so that the scrubbing head 125 circularly cleans sludge on the filter box 5 and brings the sludge into the first garbage box 6.

The bearing plate 1 is provided with a backflow mechanism for making the filtered water flow into the housing 3 again and cleaning the washing head 125, the backflow mechanism comprises a piston cylinder 7 fixedly connected to the bearing plate 1, the piston cylinder 7 is fixedly communicated with the filter box 5 through a second conveying pipe 71, one end of the piston cylinder 7 far away from the second conveying pipe 71 is fixedly communicated with the housing 3 through a third conveying pipe 72, the second conveying pipe 71 and the third conveying pipe 72 are both fixedly connected with a one-way valve 711, the third conveying pipe 72 is fixedly communicated with a fourth conveying pipe 73 for cleaning the washing head 125, the fourth conveying pipe 73 is fixedly connected with a connecting rod 123, the inner wall of the piston cylinder 7 is fixedly and axially and slidably connected with a sealing plug 741, the upper surface of the sealing plug 741 is coaxially and fixedly connected with a sliding rod 74 penetrating through the top surface of the piston cylinder 7, one end of the sliding rod 74 far away from the sealing plug 741 is fixedly connected with a connecting plate 75, and the connecting rod 123 is fixedly connected with a third sliding block 126, the connecting plate 75 is provided with a sliding groove in limited sliding connection with the third sliding block 126.

When the connecting rod 123 is arranged to slide up and down, the third slide block 126 slides up and down, namely the connecting plate 75 slides up and down to slide the slide rod 74 and the sealing plug 741 up and down, so that negative pressure is generated in the piston cylinder 7, the piston cylinder 7 is fixedly communicated with the filter box 5 through the second conveying pipe 71, and one end of the piston cylinder 7 far away from the second conveying pipe 71 is fixedly communicated with the shell 3 through the third conveying pipe 72, so that filtered water flows into the shell 3 through the second conveying pipe 71 and the third conveying pipe 72, the recycling of water resources is greatly improved, a large amount of water resources are saved, the filtered water flows onto the washing head 125 through the fourth conveying pipe 73 by arranging the fourth conveying pipe 73, the washing head 125 is washed, the effect that the washing head 125 is prevented from being adhered with too much sludge so as to clean the filter box 5 is achieved, and when the connecting rod 123 slides through the chutes arranged on the third slide block 126 and the connecting plate 75, the third sliding block 126 slides in the sliding groove of the connecting plate 75, so that the connecting plate 75 cannot move, and the effect that the second transporting pipe 71 and the third transporting pipe 72 cannot flow back is achieved by fixedly connecting the check valves 711 to the second transporting pipe 71 and the third transporting pipe 72.

Example two

The first embodiment is basically the same as the first embodiment, except that the backflow mechanism in the first embodiment is replaced by the backflow mechanism in the second embodiment, and the specific replacement scheme is as follows: be equipped with on the bearing plate 1 and be used for flowing into the casing 3 again with the water after filtering and wash the backward flow mechanism of brush head 125, backward flow mechanism is including fixed connection water pump 8 on bearing plate 1, water pump 8 is through the fixed intercommunication of second transport pipe 71 with rose box 5, the one end that second transport pipe 71 was kept away from to water pump 8 is through the fixed intercommunication of third transport pipe 72 with casing 3, equal fixedly connected with check valve 711 on second transport pipe 71 and the third transport pipe 72, fixed intercommunication has the fourth transport pipe 73 that is used for wasing brush head 125 on the third transport pipe 72, fourth transport pipe 73 and connecting rod 123 fixed connection.

The water pump 8 is fixedly communicated with the filter box 5 through the second conveying pipe 71, one end, far away from the second conveying pipe 71, of the piston cylinder 7 is fixedly communicated with the shell 3 through the third conveying pipe 72, the purpose that filtered water flows into the shell 3 through the second conveying pipe 71 and the third conveying pipe 72 through the water pump 8 is achieved, the recycling of water resources is greatly improved, a large amount of water resources are saved, the effect of filtering water is achieved by arranging the fourth conveying pipe 73, the filtered water flows onto the washing head 125 through the fourth conveying pipe 73, the washing head 125 is achieved, the problem that the washing head 125 is adhered with too much sludge, so that the filter box 5 is not clean is avoided, and the effect that the second conveying pipe 71 and the third conveying pipe 72 cannot flow back is achieved through the check valves 711 fixedly connected to the second conveying pipe 71 and the third conveying pipe 72.

The working principle is as follows: the sewage pool sludge removing equipment for the color steel plate production line is characterized in that when the sewage pool sludge removing equipment is used, a starting motor 2, namely a rotating shaft 22, rotates, so that a disc 23 rotates, a scraper 24 rotates and a support column 231 rotates, the scraper 24 rotates to scrape off sludge on the inner wall of a shell 3, the sludge is prevented from being adhered to the inner wall of the shell 3, a cylinder sleeve 25 is axially and slidably connected to the support column 231, so that the cylinder sleeve 25 synchronously rotates when the support column 231 rotates, namely a first sliding block 251 rotates, a support rod 132 penetrating through the cylinder sleeve 25 is fixedly connected to the lower surface of a support frame 13, a rotating groove matched with a first rotating block 133 is formed in the disc 23, so that the support rod 132 cannot rotate, namely the round block 134 cannot rotate, and the first sliding block 251 and the U-shaped groove 135 are slidably connected to achieve the purpose that the cylinder sleeve 25 slides up and down along the U-shaped groove 135 in a reciprocating mode when rotating, so that an adsorption block 26 slides up and down in a reciprocating mode and rotates, since the adsorption block 26 is made of a magnetic material, it adsorbs iron pieces on the surface of the adsorption block 26, thereby achieving the effect of stirring the sewage and adsorbing the iron pieces.

When the rotating shaft 22 rotates, the first missing-tooth gear 221 and the second missing-tooth gear 222 rotate synchronously, because the third missing-tooth gear 141 is intermittently meshed with the first missing-tooth gear 221, the fourth missing-tooth gear 151 is intermittently meshed with the second missing-tooth gear 222, the first rack 111 is alternately meshed with the first missing-tooth gear 221 and the third missing-tooth gear 141, and the second rack 121 is alternately meshed with the second missing-tooth gear 222 and the fourth missing-tooth gear 151, when the first missing-tooth gear 221 and the second missing-tooth gear 222 are respectively meshed with the third missing-tooth gear 141 and the fourth missing-tooth gear 151, the first rack 111 and the second rack 121 respectively slide in opposite directions, so that the first circular ring 112 and the second circular ring 122 slide in opposite directions, so that the sleeve 25, when driving the suction block 26 to slide downwards, cannot interfere with the first circular ring 112 and the second circular ring 122, and when the first missing-tooth gear 221 and the second missing-tooth gear 222 are respectively meshed with the first rack 111 and the second rack 121, the first rack 111 and the second rack 121 slide towards the opposite direction to each other, so that the first circular ring 112 and the second circular ring 122 slide towards the opposite direction to each other, at this time, the barrel sleeve 25 drives the adsorption block 26 to slide upwards, so that when the adsorption block 26 is higher than the first circular ring 112 and the second circular ring 122, the first circular ring 112 and the second circular ring 122 are matched and closed, at this time, the barrel sleeve 25 abuts against the switch 136, because the adsorption block 26 is an electromagnet, the switch 136 controls the adsorption block 26, when the switch 136 is closed, the magnetic attraction force of the adsorption block 26 disappears, so that the iron filings on the adsorption block 26 fall onto the first circular ring 112 and the second circular ring 122, because the first circular ring 112 and the second circular ring 122 have inclination, the iron filings slide to the opening at the second circular ring 122 and slide along the slide rail 131 into the second garbage box 4, thereby achieving the time and labor consuming separation and avoiding the secondary separation, when the barrel sleeve 25 block 26 slides downwards and the adsorption block 136 do not abut against each other, at this time, the switch 136 is turned on, so that the adsorption block 26 returns to the water again to continue the adsorption effect.

When the second rack 121 slides back and forth, the connecting block 127 and the connecting rod 123 synchronously slide back and forth, that is, the brush head 125 slides back and forth to clean the top surface of the filter box 5, so that the filter box 5 cannot be blocked, because the second rotating block 124 is connected to the parallelogram slot 161 in a limiting and sliding manner, when the second rack 121 slides towards the first garbage box 6, that is, the brush head 125 slides towards the first garbage box 6, the brush head 125 is attached to the upper surface of the filter box 5, so as to push the impurities on the filter box 5 to the first garbage box 6, after pushing is completed, the second rotating block 124 abuts against the second sliding block 164 in the first limiting slot 165, the second sliding block 164 moves towards the telescopic link 162, when the second rotating block 124 continues to abut against the second sliding block 164, the telescopic link 162 and the spring 163 push the second sliding block 164 to push the second rotating block 124, so that the second rotating block 124 moves upwards along the parallelogram slot 161, so that the connecting rod 123 and the brush head 125 slide upwards, when the second rotating block 124 slides to the top of the parallelogram slot 161, the second rack 121 slides to the direction far away from the first garbage box 6, that is, the brush head 125 slides to the direction far away from the first garbage box 6, so that the brush head 125 can not scrape the filter box 5 in the return stroke, so that the impurities can not fall into one end of the filter box 5 close to the motor frame 21, when the second rotating block 124 abuts against the second sliding block 164 in the second limit slot 166, the second sliding block 164 moves to the direction of the telescopic rod 162, when the second rotating block 124 continues to abut against the second sliding block 164 forwards, the telescopic rod 162 and the spring 163 push the second sliding block 164 to push the second rotating block 124, so that the second rotating block 124 moves downwards along the direction of the parallelogram slot 161, so that the connecting rod 123 and the brush head 125 slide downwards, and when the second rotating block 124 slides to the bottom of the parallelogram slot 161, at this time, the second rack 121 slides toward the first garbage can 6, so that the brush head 125 has an effect of circularly cleaning the sludge on the filter box 5 and bringing the sludge into the first garbage can 6.

When the connecting rod 123 slides up and down, the third slider 126 slides up and down, that is, the connecting plate 75 slides up and down to make the sliding rod 74 and the sealing plug 741 slide up and down, so as to generate negative pressure in the piston cylinder 7, because the piston cylinder 7 is fixedly communicated with the filter box 5 through the second conveying pipe 71 and one end of the piston cylinder 7 far away from the second conveying pipe 71 is fixedly communicated with the housing 3 through the third conveying pipe 72, so that the filtered water flows into the housing 3 through the second conveying pipe 71 and the third conveying pipe 72, the reuse of water resources is greatly improved, a large amount of water resources are saved, because the fourth conveying pipe 73 reaches the effect that the filtered water flows onto the brushing head 125 through the fourth conveying pipe 73, the effect that the brushing head 125 is scrubbed to avoid too much sludge from adhering to the brushing head 125, so that the filter box 5 is not cleaned cleanly is achieved, and because the check valves 711 are fixedly connected to the second conveying pipe 71 and the third conveying pipe 72, the second conveying pipe 71 and the third conveying pipe 72 cannot return back to the third conveying pipe 72 The effect of the stream.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (6)

1. The utility model provides a effluent water sump removes mud equipment for various steel sheet production line, includes bearing plate (1), its characterized in that: the bearing plate (1) is fixedly connected with a first supporting plate (11), a second supporting plate (12), a motor frame (21) and a supporting frame (13), the upper surfaces of the first supporting plate (11) and the second supporting plate (12) are fixedly connected with a shell (3), the upper surface of the shell (3) is provided with an opening for entering a color steel plate, one side of the shell (3) close to the bottom is fixedly communicated with a first conveying pipe (31) for discharging sewage, the bearing plate (1) is fixedly connected with a filter box (5) for filtering sewage and a first garbage box (6) for placing sludge, the filter box (5) is attached to the first garbage box (6), the filter box (5) is positioned under the first conveying pipe (31), the bearing plate (1) is fixedly connected with a second garbage box (4) for placing scrap iron, a through groove is formed in the support frame (13), a slide way (131) is fixedly connected with the support frame through the through groove, the bottom of the slide way (131) is positioned right above the second garbage box (4), a motor (2) is fixedly connected with the motor frame (21), the output end of the motor (2) is fixedly connected with a rotating shaft (22) penetrating through the bottom surface of the shell (3), and an adsorption mechanism used for adsorbing iron scraps in the shell (3) is arranged on the rotating shaft (22);

be equipped with the recovery mechanism that is used for iron fillings to drop on axis of rotation (22), retrieve the mechanism and lack tooth gear (222) including first scarce tooth gear (221) and second on axis of rotation (22) arc profile, just first scarce tooth gear (221) and second lack tooth gear (222) laminating, dead axle rotation is connected with first dwang (14) and second dwang (15) on bearing plate (1), fixedly connected with lacks tooth gear (222) intermittent type meshing's third on the arc profile of first dwang (14) and lacks tooth gear (141) with first scarce tooth gear (221), fixedly connected with lacks tooth gear (222) intermittent type meshing's fourth on the arc profile of second dwang (15) and lacks tooth gear (151) with the second, all seted up the spout on first backup pad (11) and second backup pad (12) and have first rack (111) that lack tooth gear (221) and third and lack tooth gear (141) meshing in turn through spout difference spacing sliding connection ) And a second rack (121) alternately meshed with the second gear (222) and the fourth gear (151), wherein the upper surfaces of the first rack (111) and the second rack (121) are fixedly connected with a first circular ring (112) and a second circular ring (122) which are used for bearing iron chips, and the side surface of the second circular ring (122) is provided with an opening matched with the slide way (131).

2. The sewage pool sludge removing device for the color steel plate production line according to claim 1, wherein: the adsorption mechanism comprises a disc (23) fixedly connected to one side of a rotating shaft (22) far away from a motor (2), the side face of the disc (23) is fixedly connected with a scraper (24) used for scraping the inner wall of a shell (3), one end of the disc (23) far away from the rotating shaft (22) is fixedly connected with two supporting columns (231), the supporting columns (231) are axially and slidably connected with a cylinder sleeve (25), the inner wall of the cylinder sleeve (25) is fixedly connected with a first sliding block (251), the lower surface of a supporting frame (13) is fixedly connected with a supporting rod (132) and a switch (136) penetrating through the cylinder sleeve (25), one end of the supporting rod (132) far away from the supporting frame (13) is fixedly connected with a first rotating block (133), the disc (23) is provided with a rotating groove matched with the first rotating block (133), and the arc-shaped outline of the supporting rod (132) is fixedly connected with a round block (134), the round block (134) is provided with a U-shaped groove (135), the first sliding block (251) is in sliding connection with the U-shaped groove (135), and the outer surface of the barrel sleeve (25) is fixedly connected with six or more adsorption blocks (26) for adsorbing iron filings.

3. The sewage pool sludge removing device for the color steel plate production line according to claim 1, wherein: be equipped with the clean mechanism that is used for clean rose box (5) on second rack (121), clean mechanism is including connecting block (127), second rack (121) are close to one side of rose box (5) and have seted up the spout and have passed through spout and the spacing sliding connection of connecting block (127), fixedly connected with connecting rod (123) are gone up in connecting block (127), the brush head (125) of the clean rose box (5) upper surface of fixedly connected with on the arc profile of connecting rod (123), connecting rod (123) are kept away from the one end dead axle rotation of connecting block (127) and are connected with second commentaries on classics piece (124), fixedly connected with third backup pad (16) is gone up in bearing plate (1), parallelogram groove (161) have been seted up on third backup pad (16) to there is second commentaries on classics piece (124) through parallelogram groove (161) spacing sliding connection.

4. The sewage pool sludge removing device for the color steel plate production line according to claim 3, wherein the sewage pool sludge removing device comprises: clean mechanism is still including telescopic link (162), first spacing groove (165) and second spacing groove (166) have been seted up to the diagonal of parallelogram groove (161), the diapire of first spacing groove (165) and second spacing groove (166) all with telescopic link (162) fixed connection, every the equal fixedly connected with second slider (164) of upper surface of telescopic link (162), every spring (163), every have all been cup jointed on telescopic link (162) are close to the one end at top the both ends of spring (163) all with telescopic link (162) and second slider (164) fixed connection.

5. The sewage pool sludge removing device for the color steel plate production line according to claim 3, wherein: the washing machine is characterized in that a backflow mechanism used for enabling filtered water to flow into the shell (3) again and cleaning the washing head (125) is arranged on the bearing plate (1), the backflow mechanism comprises a piston cylinder (7) fixedly connected to the bearing plate (1), the piston cylinder (7) is fixedly communicated with the filter box (5) through a second conveying pipe (71), one end, far away from the second conveying pipe (71), of the piston cylinder (7) is fixedly communicated with the shell (3) through a third conveying pipe (72), the second conveying pipe (71) and the third conveying pipe (72) are both fixedly connected with one-way valves (711), the third conveying pipe (72) is fixedly communicated with a fourth conveying pipe (73) used for cleaning the washing head (125), the fourth conveying pipe (73) is fixedly connected with a connecting rod (123), and a sealing plug (741) is in fixed-axis sliding connection with the inner wall of the piston cylinder (7), the upper surface of the sealing plug (741) is coaxially and fixedly connected with a sliding rod (74) penetrating through the top surface of the piston cylinder (7), one end, far away from the sealing plug (741), of the sliding rod (74) is fixedly connected with a connecting plate (75), a third sliding block (126) is fixedly connected onto the connecting rod (123), and a sliding groove in limiting sliding connection with the third sliding block (126) is formed in the connecting plate (75).

6. The sewage pool sludge removing device for the color steel plate production line according to claim 3, wherein the sewage pool sludge removing device comprises: be equipped with on bearing plate (1) and be used for flowing into casing (3) again with the water after filtering and wash the backward flow mechanism of brush head (125), backward flow mechanism is including water pump (8) of fixed connection on bearing plate (1), water pump (8) are through second transport pipe (71) and rose box (5) fixed intercommunication, the one end that second transport pipe (71) were kept away from in water pump (8) is through third transport pipe (72) and casing (3) fixed intercommunication, equal fixedly connected with check valve (711) on second transport pipe (71) and third transport pipe (72), fixed intercommunication has fourth transport pipe (73) that are used for wasing brush head (125) on third transport pipe (72), fourth transport pipe (73) and connecting rod (123) fixed connection.

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