CN113457242B - Waste water solid-liquid separation machine for chemistry and chemical industry - Google Patents

Abstract

The invention relates to the field of industrial wastewater recovery treatment, in particular to a wastewater solid-liquid separator for chemistry and chemical industry, which comprises a wastewater collection box, a filter box, a sliding rail plate, a sealing cover, a rotary stirring mechanism and the like; the bottom of the wastewater collection box is fixedly provided with a filter box, the top surface of the wastewater collection box is positioned with a sliding rail plate, the top surface of the sliding rail plate is fixedly provided with a sealing cover, and the rotary stirring mechanism is arranged on the wastewater collection box. Through the cooperation of pendulum rod and fourth reset spring for the abnormal shape is stirred the board and is controlled reciprocating motion, and the abnormal shape is stirred the board intermittent type and is blocked the rose box side, and the sewage intermittent type that is filtered is discharged from the rose box, and the abnormal shape is stirred board and the crisscross cooperation of abnormal shape push pedal, prevents that sewage in the wastewater collection box from flowing out, realizes carrying out the effect of solid-liquid separation to sewage.

Description

Waste water solid-liquid separation machine for chemistry and chemical industry

Technical Field

The invention relates to the field of industrial wastewater recovery treatment, in particular to a wastewater solid-liquid separator for chemistry and chemical engineering.

Background

With the rapid development of domestic economy, chemical plants can be very much in China as an industrial large country, and chemical wastewater is aggravated in pollution to the environment while the rapid development of economy is driven, so that waste liquid recovery is very important, and three waste water treatment methods, namely, a physical treatment method, a chemical treatment method, a physicochemical method and a wastewater physical treatment method are adopted to recover and separate small soluble objects and suspended pollutants in the wastewater.

In the wastewater physical treatment process, the chemical properties of pollutants are not changed, after the reaction is finished, precipitates can be generated in the wastewater, and the existing chemical liquid wastewater classification recycling treatment devices on the market are various, but the precipitates accumulated in the tank cannot be cleaned, and the filter screen cannot be cleaned.

Disclosure of Invention

The invention aims to provide a chemical wastewater solid-liquid separator which can separate solid and liquid of chemical liquid wastewater and clean accumulated sediment, so as to overcome the defects that the prior device cannot clean the sediment accumulated in a tank and cannot clean a filter screen.

The technical proposal is as follows: the utility model provides a waste water solid-liquid separation machine for chemistry and chemical industry, including waste water collecting box, the rose box, the slide rail board, sealed lid, rotatory rabbling mechanism, reciprocal oil scraping water injection mechanism, rotatory push out mechanism and toggle mechanism, waste water collecting box bottom fixed mounting has the rose box, waste water collecting box top surface location has the slide rail board, slide rail board top surface fixed mounting has sealed lid, rotatory rabbling mechanism locates on the waste water collecting box, reciprocal oil scraping water injection mechanism sets up on rotatory rabbling mechanism, be equipped with rotatory push out mechanism on the reciprocal oil scraping water injection mechanism, sliding connection has the toggle mechanism on the waste water collecting box.

Optionally, rotatory rabbling mechanism is including abnormal shape support frame one, motor support frame, bi-directional motor, trompil stand pipe, trompil pivot, helical blade and filter, waste water collection box one side fixed mounting has abnormal shape support frame one, the welding has motor support frame on the abnormal shape support frame one, bi-directional motor fixed mounting is on motor support frame, the trompil stand pipe welding is in waste water collection box, bi-directional motor output shaft one end rigid coupling has the trompil pivot, the trompil pivot is connected with waste water collection box rotation, the trompil pivot runs through the trompil stand pipe, the welding has helical blade in the trompil pivot, helical blade is located the trompil stand pipe, the filter passes through the mode setting of circumference equipartition in the trompil pivot.

Optionally, the reciprocating oil scraping and water filling mechanism comprises a first rotating shaft, a disc, a connecting rod, a special-shaped swinging disc, a reciprocating screw rod, a clamping rod disc, a screw rod sleeve, a limiting frame, a scraper, a first reset spring, a sealing plate, a special-shaped sliding frame, a water filling pipe cover, a first stretching spring, a wedge plate, a second reset spring and a special-shaped supporting frame II, wherein the first rotating shaft is rotationally connected to the special-shaped supporting frame I, one end of the first rotating shaft is welded with the disc, the other end of an output shaft of the bi-directional motor is fixedly connected with the disc, the connecting rod is rotationally connected between the two discs, the special-shaped swinging disc is fixedly connected to the other end of the first rotating shaft, the special-shaped supporting frame I is rotationally connected with the reciprocating screw rod, one end of the reciprocating screw rod is provided with the clamping rod disc, the reciprocating screw rod sleeve is connected with the screw rod sleeve in a lifting manner, the scraper is slidingly connected to the sliding frame I, the scraper is rotationally connected with the limiting frame I, one end of the first reset spring is rotationally connected with the screw rod sleeve, the sealing plate is welded to the scraper, the special-shaped sliding frame I is symmetrically connected to the sliding frame II, the special-shaped sliding frame I is provided with the groove corresponding to the sliding frame II, the special-shaped sliding frame is correspondingly connected with the top of the first sliding frame, the special-shaped sliding frame is correspondingly welded to the first sliding frame, the top is correspondingly provided with the special-shaped sliding frame, the top is correspondingly provided with the first end of the elastic spring, and the special-shaped sliding frame is provided with the sealing frame, and the special-shaped sliding frame, and the sealing frame is correspondingly provided with a water pipe cover, and the top, and the other end is provided with a special-shaped sealing frame and the special-shaped and the shaped frame and the shaped cover and the head and the shaped frame and the shaped spring is connected. The special-shaped support frame II is fixedly arranged on one side of the wastewater collection box and is rotationally connected with the reciprocating screw rod.

Optionally, the rotary pushing mechanism comprises a part of six-face rotating shafts, a cage-shaped disc, a rod-lack rotating disc, a gear, a special-shaped pushing plate and a rack, wherein a bearing on the special-shaped supporting frame II is connected with the part of six-face rotating shafts in a transition fit mode, the cage-shaped disc is symmetrically welded on the part of six-face rotating shafts, one end of the open-pore rotating shaft is connected with the rod-lack rotating disc, the rod-lack rotating disc is in mutual contact with the cage-shaped disc, the gear is welded at the bottom end of the part of six-face rotating shaft, the special-shaped pushing plate is connected in the filter box in a sliding mode, the rack is arranged on one side of the special-shaped pushing plate, and the rack is meshed with the gear.

Optionally, the toggle mechanism comprises a wedge-shaped sliding rod frame, a swinging rod, a third reset spring, a special-shaped toggle plate and a fourth reset spring, wherein the wedge-shaped sliding rod frame is connected to the waste water collecting box in a sliding mode, the swinging rod is connected to the wedge-shaped sliding rod frame in a rotating mode, a six-face hole corresponding to a part of six-face rotating shaft is formed in the swinging rod, the third reset spring is welded to the wedge-shaped sliding rod frame, one end of the third reset spring is connected with one side of the waste water collecting box, the special-shaped toggle plate is connected to the bottom of the waste water collecting box in a sliding mode, at least one part of the special-shaped toggle plate is located in the filtering box, the fourth reset spring is connected to the special-shaped toggle plate, and one end of the fourth reset spring is fixedly connected with the waste water collecting box.

Optionally, the device also comprises a scraping mechanism which is arranged on the filter box and comprises a limit slide bar, a second extension spring, a second rotating shaft, a triangular block, a first torsion spring, an L-shaped scraping plate, a shaft scraping plate and a second torsion spring, wherein the limit slide bar is connected on the filter box in a lifting manner, the second extension spring is fixedly connected on the filter box, one end of the second extension spring is fixedly connected with the limit slide bar, the second rotating shaft is rotatably connected on the limit slide bar, the second rotating shaft is welded with a triangular block, the triangular block and the limiting slide rod are mutually touched, one side of the triangular block is fixedly connected with a first torsion spring, one end of the first torsion spring is connected with the limiting slide rod, an L-shaped scraping plate is welded above the limiting slide rod and is connected with the filter box in a sliding mode, the L-shaped scraping plate is rotatably connected with a shaft scraping plate, the shaft scraping plate is located in the filter box, and the second torsion spring is connected between the shaft scraping plate and the limiting slide rod.

The invention has the following advantages:

through helical blade's effect, inhale the trompil stand pipe with the sewage in the wastewater collection box in, the filter filters sewage, and filterable precipitate can drop to the rose box from the trompil stand pipe in.

Through the action of the sliding rail plate, the scraper and the upper device thereof move downwards, so that the scraper is contacted with the sewage surface. The scraper continues to move towards the direction away from the bidirectional motor, the scraper and the device on the scraper can move upwards, the scraper pushes oil stains on the surface of sewage to the direction of the oil outlet of the wastewater collection box, the sealing plate follows the scraper to move towards the direction away from the bidirectional motor, and the sealing plate blocks the wastewater collection box to prevent the overflow of sewage.

Through the cooperation of pendulum rod and fourth reset spring for the abnormal shape is stirred the board and is controlled reciprocating motion, and the abnormal shape is stirred the board intermittent type and is blocked the rose box side, and the sewage intermittent type that is filtered is discharged from the rose box, and the abnormal shape is stirred board and the crisscross cooperation of abnormal shape push pedal, prevents that sewage in the wastewater collection box from flowing out, realizes carrying out the effect of solid-liquid separation to sewage.

The L-shaped scraping plate is not blocked by the special-shaped pushing plate, the second stretching spring in a stretching state is reset to drive the limiting slide rod and the upper device of the limiting slide rod to move upwards for resetting, and the L-shaped scraping plate and the shaft-bearing scraping plate move upwards to scrape residual sediment on the inner side of the special-shaped pushing plate, so that excessive sediment is prevented from being accumulated on the special-shaped pushing plate.

Drawings

Fig. 1 is a schematic perspective view of a first embodiment of the present invention.

Fig. 2 is a schematic perspective view of a second embodiment of the present invention.

Fig. 3 is a schematic view of a partial perspective structure of the present invention.

Fig. 4 is a schematic perspective view of a first part of the rotary stirring mechanism of the present invention.

Fig. 5 is a schematic perspective view of a second part of the rotary stirring mechanism of the present invention.

Fig. 6 is a schematic perspective view of a first part of the reciprocating oil and water scraping and filling mechanism of the invention.

Fig. 7 is a schematic perspective view of a second part of the reciprocating oil and water scraping mechanism of the present invention.

Fig. 8 is a schematic perspective view of a rotary push-out mechanism according to the present invention.

Fig. 9 is a schematic perspective view of a first part of a toggle mechanism according to the present invention.

Fig. 10 is a schematic perspective view of a second part of the toggle mechanism of the present invention.

Fig. 11 is a schematic view showing a partial perspective structure of the scraping mechanism of the present invention.

Fig. 12 is a partially disassembled perspective view of the scraping mechanism of the present invention.

Reference numerals illustrate: 1_waste water collection tank, 2_filtration tank, 3_slide rail, 4_seal cap, 5_rotary stirring mechanism, 51_special-shaped support frame one, 52_motor support frame, 53_bi-directional motor, 54_open guide tube, 55_open rotary shaft, 56_helical blade, 57_filter plate, 6_reciprocating oil and water scraping and filling mechanism, 61_first rotary shaft, 62_disc, 63_connecting rod, 64_special-shaped swing disc, 65_reciprocating screw rod, 66_belt clamping rod disc, 67_screw rod sleeve, 68_limit frame, 69_scraper, 610_first reset spring, 611_seal plate, 612_special-shaped slide frame, 613_water filling tube cap, 614_first extension spring, 615_wedge plate, 616_second return spring, 617_special-shaped support frame two, 7_rotary push-out mechanism, 71_part six-sided rotating shaft, 72_cage plate, 73_bar lack rotating disc, 74_gear, 75_special-shaped push plate, 76_rack, 8_toggle mechanism, 81_wedge sliding rod frame, 82_swing rod, 83_third return spring, 84_special-shaped toggle plate, 85_fourth return spring, 9_scraping mechanism, 91_limit sliding rod, 92_second tension spring, 93_second rotating shaft, 94_triangular block, 95_first torsion spring, 96_L-shaped scraping plate, 97_belt shaft scraping plate and 98_second torsion spring.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Example 1

The utility model provides a waste water solid-liquid separation machine for chemistry and chemical industry, as shown in fig. 1-10, including waste water collecting box 1, rose box 2, slide rail board 3, sealed lid 4, rotatory rabbling mechanism 5, reciprocal oil scraping and water injection mechanism 6, rotatory push out mechanism 7 and toggle mechanism 8, waste water collecting box 1 bottom fixed mounting for collecting sewage has and is used for carrying out filterable rose box 2 to the precipitate, waste water collecting box 1 top surface location has slide rail board 3, slide rail board 3 top surface fixed mounting has sealed lid 4 that is used for sealing waste water collecting box 1, rotatory rabbling mechanism 5 locates on waste water collecting box 1, be used for the reciprocal oil scraping and water injection mechanism 6 that scrapes the greasy dirt on sewage surface sets up on rotatory rabbling mechanism 5, be equipped with rotatory push out mechanism 7 on the reciprocal oil scraping and water injection mechanism 6, be connected with toggle mechanism 8 on the waste water collecting box 1 in a sliding manner.

The rotary stirring mechanism 5 comprises a special-shaped support frame I51, a motor support frame 52, a bidirectional motor 53, a perforated guide tube 54, a perforated rotating shaft 55, a helical blade 56 and a filter plate 57, wherein the special-shaped support frame I51 is fixedly arranged on one side of the wastewater collection box 1, the motor support frame 52 is welded on the special-shaped support frame I51 far away from the wastewater collection box 1, the bidirectional motor 53 is fixedly arranged on the motor support frame 52, the perforated guide tube 54 is welded in the wastewater collection box 1, one end of an output shaft of the bidirectional motor 53 is fixedly connected with the perforated rotating shaft 55, the perforated rotating shaft 55 is rotationally connected with the wastewater collection box 1, the perforated rotating shaft 55 penetrates through the perforated guide tube 54, the helical blade 56 is welded on the perforated rotating shaft 55 and is positioned in the perforated guide tube 54, the helical blade 56 is used for sucking wastewater in the wastewater collection box 1 into the perforated guide tube 54, and the filter plate 57 is arranged on the perforated rotating shaft 55 in a circumferentially uniformly distributed manner, and the filter plate 57 is used for filtering the wastewater.

The reciprocating oil scraping and water injecting mechanism 6 comprises a first rotating shaft 61, a disc 62, a connecting rod 63, a special-shaped swinging disc 64, a reciprocating screw rod 65, a clamping rod disc 66, a screw rod sleeve 67, a limiting frame 68, a scraper 69, a first return spring 610, a sealing plate 611, a special-shaped sliding frame 612, a water injecting pipe cover 613, a first tension spring 614, a wedge-shaped plate 615, a second return spring 616 and a special-shaped support frame II 617, wherein the first rotating shaft 61 is rotationally connected with the special-shaped support frame I51, one end of the first rotating shaft 61 is welded with the disc 62, one end of an output shaft of a bidirectional motor 53 far away from the perforated rotating shaft 55 is fixedly connected with the disc 62, the connecting rod 63 is rotationally connected between the two discs 62, the special-shaped swinging disc 64 is fixedly connected with one end of the first rotating shaft 61 far away from the disc 62, the special-shaped support frame I51 is rotationally connected with the reciprocating screw rod 65, one end of the reciprocating screw rod 65 is provided with the clamping rod disc 66, the reciprocating screw 65 is connected with a screw sleeve 67 in a threaded connection mode, the screw sleeve 67 is connected with a limit frame 68 in a lifting mode, the sliding rail plate 3 is connected with a scraper 69 in a sliding mode, the scraper 69 is used for pushing oil stains on the surface of sewage to the direction of an oil outlet of the waste water collecting box 1, the scraper 69 is rotationally connected with the limit frame 68, the limit frame 68 is fixedly connected with a pair of first reset springs 610, one end of the first reset springs 610 far away from the limit frame 68 is connected with the screw sleeve 67, a sealing plate 611 is welded on the scraper 69, the sealing plate 611 is used for preventing the dirty oil scraped by the scraper 69 from overflowing the waste water collecting box 1, the special-shaped sliding frame 612 is symmetrically and slidingly connected on the sliding rail plate 3, the waste water collecting box 1 is provided with a groove corresponding to the special-shaped sliding frame 612, the special-shaped sliding frame 612 is used for blocking the oil outlet on the waste water collecting box 1, the waste water collecting box 1 is provided with two oil outlets corresponding to the special-shaped sliding frame 612, at least a part of the special-shaped sliding frame 612 is positioned in a groove of the wastewater collection box 1, a water injection pipe cover 613 is welded at the top end of one special-shaped sliding frame 612, a round water injection port corresponding to the water injection pipe cover 613 is formed at the top of the sealing cover 4, the water injection pipe cover 613 is used for covering the round water injection port on the sealing cover 4, a first extension spring 614 is connected to the same special-shaped sliding frame 612, one end of the first extension spring 614 far away from the special-shaped sliding frame 612 is connected with the sliding rail plate 3, a wedge plate 615 is welded at the bottom surface of the first special-shaped sliding frame 612 far away from the water injection pipe cover 613, a second return spring 616 is connected to the same special-shaped sliding frame 612, one end of the second return spring 616 far away from the special-shaped sliding frame 612 is connected with the sliding rail plate 3, a special-shaped supporting frame two 617 is fixedly arranged on one side of the wastewater collection box 1 far away from the special-shaped supporting frame one 51, and the special-shaped supporting frame two 617 is rotationally connected with the reciprocating screw 65.

The rotary pushing mechanism 7 comprises a part of six-face rotating shafts 71, a cage-shaped disc 72, a rod-lack rotating disc 73, a gear 74, a special-shaped pushing plate 75 and a rack 76, wherein a bearing on a special-shaped support frame II 617 is connected with the part of six-face rotating shafts 71 in a transition fit mode, the cage-shaped disc 72 is symmetrically welded on the part of six-face rotating shafts 71, one end of an open-pore rotating shaft 55 is connected with the rod-lack rotating disc 73, the rod-lack rotating disc 73 is in contact with the cage-shaped disc 72, the rod-lack rotating disc 73 is used for pushing the cage-shaped disc 72, the gear 74 is welded at the bottom end of the part of six-face rotating shaft 71, the special-shaped pushing plate 75 is connected in the filter box 2 in a sliding mode, the rack 76 is arranged on one side of the special-shaped pushing plate 75, and the rack 76 is meshed with the gear 74.

The stirring mechanism 8 comprises a wedge-shaped sliding rod frame 81, a swinging rod 82, a third reset spring 83, a special-shaped stirring plate 84 and a fourth reset spring 85, wherein the wedge-shaped sliding rod frame 81 is connected to the waste water collecting box 1 in a sliding mode, the swinging rod 82 is connected to the wedge-shaped sliding rod frame 81 in a rotating mode, six holes corresponding to part of six rotating shafts 71 are formed in the swinging rod 82, the third reset spring 83 is welded to the wedge-shaped sliding rod frame 81, one end of the third reset spring 83 far away from the wedge-shaped sliding rod frame 81 is connected with one side of the waste water collecting box 1, the special-shaped stirring plate 84 is connected with the filtering box 2 in a sliding mode, the special-shaped stirring plate 84 is used for blocking the filtering box 2, at least one part of the special-shaped stirring plate 84 is located in the filtering box 2, the fourth reset spring 85 is connected to the special-shaped stirring plate 84, and one end of the fourth reset spring 85 far away from the special-shaped stirring plate 84 is fixedly connected with the waste water collecting box 1.

The sewage drain pipe is connected with the circular water filling port in sealed lid 4 top, and the sewage drain pipe discharges the sewage that has undergone the chemical reaction towards waste water collecting box 1 in, and the play oil hose is connected with the oil-out on the waste water collecting box 1, when needs carry out solid-liquid separation to industrial waste water, the manual start-up bi-directional motor 53 of staff, bi-directional motor 53 output shaft clockwise rotation drives trompil pivot 55 and upper device rotation, in through the effect of helical blade 56, inhale the trompil stand pipe 54 with the sewage in the waste water collecting box 1, filter 57 filters the sewage, the precipitate of being filtered can drop to the rose box 2 from in the trompil stand pipe 54. Simultaneously, trompil pivot 55 can drive and lack pole carousel 73 clockwise rotation, lack pole carousel 73 can promote the cage dish 72 of below and its device anticlockwise rotation on, and gear 74 anticlockwise rotation drives rack 76 and abnormal shape push pedal 75 and moves towards the direction of keeping away from bi-directional motor 53, and abnormal shape push pedal 75 blocks rose box 2 top, and the sediment of being filtered no longer drops to rose box 2 in, and abnormal shape push pedal 75 promotes the sediment in the rose box 2, realizes the purpose of separating the solid in the sewage. When the rod-lack rotary table 73 contacts with the cage-shaped disc 72 above, the rod-lack rotary table 73 pushes the cage-shaped disc 72 and devices thereon to rotate clockwise, the gear 74 rotates clockwise to drive the rack 76 and the special-shaped push plate 75 to move towards the direction approaching the bidirectional motor 53, and the special-shaped push plate 75 does not block the upper part of the filter box 2. The rod-lack turntable 73 continuously rotates, and the rack 76 and the special-shaped pushing plate 75 reciprocate left and right, so that the special-shaped pushing plate 75 intermittently blocks the upper part of the filter box 2, and filtered sediment intermittently falls into the filter box 2.

The output shaft of the bidirectional motor 53 rotates clockwise to drive a disc 62 to rotate, the disc 62 drives the first rotating shaft 61 and the special-shaped swinging disc 64 to rotate clockwise through the connecting rod 63, so that the special-shaped swinging disc 64 pushes the clamping rod disc 66 and the reciprocating screw 65 to rotate clockwise, and the reciprocating screw 65 drives the screw sleeve 67 and the device thereon to reciprocate left and right. When the screw rod sleeve 67 and the upper device thereof move towards the direction far away from the bidirectional motor 53, the scraper 69 moves towards the direction far away from the bidirectional motor 53, the scraper 69 does not block one special-shaped sliding frame 612 any more, the first stretching spring 614 in a stretching state resets to drive the special-shaped sliding frame 612 and the water injection pipe cover 613 to move towards the direction close to the wedge plate 615, the water injection pipe cover 613 covers the circular water injection port, and the sewage drain pipe does not drain sewage towards the inside of the sewage collecting box 1 any more.

The screw sleeve 67 and its upper device move away from the bi-directional motor 53, and the scraper 69 and its upper device move downward by the action of the slide rail plate 3, so that the scraper 69 contacts the sewage surface. The scraper 69 continues to move towards the direction away from the bidirectional motor 53, the scraper 69 and the device on the scraper 69 move upwards, the scraper 69 pushes oil stains on the surface of sewage to the direction of the oil outlet of the wastewater collection box 1, the sealing plate 611 moves along with the scraper 69 towards the direction away from the bidirectional motor 53, and the sealing plate 611 blocks the wastewater collection box 1 to prevent the sewage from overflowing. When the scraper 69 and the other special-shaped carriage 612 are in contact with each other, the scraper 69 pushes the special-shaped carriage 612 to move in the direction away from the bidirectional motor 53, the second reset spring 616 is stretched, the special-shaped carriage 612 does not block the oil outlet on the wastewater collection tank 1 any more, and oil stains are discharged into the oil outlet hose through the oil outlet. When the wedge-shaped plate 615 and the wedge-shaped sliding rod frame 81 are in contact with each other, the wedge-shaped plate 615 pushes the wedge-shaped sliding rod frame 81 to move downwards, the wedge-shaped sliding rod frame 81 drives the swinging rod 82 to move downwards, so that a six-face hole on the swinging rod 82 is meshed with a part of six-face rotating shaft 71, the part of six-face rotating shaft 71 rotates clockwise to drive the swinging rod 82 to rotate clockwise, the swinging rod 82 pushes the special-shaped stirring plate 84 to move in the direction away from the reciprocating screw rod 65, the special-shaped stirring plate 84 does not block the filter box 2 any more, the filter box 2 filters sediment, filtered sewage is discharged from the filter box 2, and liquid separation in sewage is achieved. The part of the six-face rotating shaft 71 rotates anticlockwise to drive the swing rod 82 to rotate anticlockwise, the swing rod 82 is separated from the special-shaped poking plate 84, the fourth reset spring 85 in a compressed state resets to drive the special-shaped poking plate 84 to move towards the direction close to the reciprocating screw rod 65, and the special-shaped poking plate 84 blocks the filter box 2. The reciprocating rotation of the six-sided rotating shaft 71 drives the swing rod 82 to swing in a left-right reciprocating manner, the abnormal-shaped stirring plate 84 moves in a left-right reciprocating manner through the cooperation of the swing rod 82 and the fourth reset spring 85, the abnormal-shaped stirring plate 84 intermittently blocks the filter tank 2, filtered sewage is intermittently discharged from the filter tank 2, the abnormal-shaped stirring plate 84 is in staggered cooperation with the abnormal-shaped push plate 75, sewage in the wastewater collecting tank 1 is prevented from flowing out, and the effect of solid-liquid separation on the sewage is realized.

When the screw rod sleeve 67 and the upper device thereof move in the direction away from the bidirectional motor 53, the wedge-shaped plate 615 is separated from the wedge-shaped sliding rod frame 81, the compressed third reset spring 83 resets to drive the wedge-shaped sliding rod frame 81 and the upper device thereof to move upwards, so that the swing rod 82 is separated from part of the six-face rotating shaft 71, part of the six-face rotating shaft 71 does not drive the swing rod 82 to rotate any more, and the screw rod sleeve 67 and the upper device thereof continue to move in the direction away from the bidirectional motor 53, so that all parts of the equipment are reset. The above operation is repeated to perform solid-liquid separation on the sewage, and after the completion of the operation, the worker manually turns off the bi-directional motor 53, so that the operation of the apparatus is stopped.

Example 2

On the basis of embodiment 1, as shown in fig. 11-12, the device further comprises a scraping mechanism 9, the scraping mechanism 9 is arranged on the filter box 2, the scraping mechanism 9 is used for scraping residual sediment on the inner side of the special-shaped push plate 75, the scraping mechanism 9 comprises a limit sliding rod 91, a second tension spring 92, a second rotating shaft 93, a triangular block 94, a first torsion spring 95, an L-shaped scraping plate 96, a shaft scraping plate 97 and a second torsion spring 98, the limit sliding rod 91 is connected to the filter box 2 in a lifting mode, the second tension spring 92 is fixedly connected to the filter box 2, one end of the second tension spring 92 far away from the filter box 2 is fixedly connected with the limit sliding rod 91, a second rotating shaft 93 is rotatably connected to the limit sliding rod 91, a triangular block 94 is welded on the second rotating shaft 93, the triangular block 94 and the limit sliding rod 91 mutually touch, the limit sliding rod 91 is used for blocking the triangular block 94, one side of the triangular block 94 is fixedly connected with the first torsion spring 95, one end of the first torsion spring 95 far away from the triangular block 94 is connected with the limit sliding rod 91, the L-shaped scraping plate 96 is welded above the limit sliding rod 91, the L-shaped scraping plate 96 is connected with the L-shaped scraping plate 97, the L-shaped scraping plate 97 is connected to the inner side of the filter box 2, the rotary shaft 96 is connected with the limit sliding rod 97, the rotary sliding rod 97 is connected with the special-shaped scraping plate 98, and the rotary sliding rod is positioned between the L-shaped scraping plate 97 and the inner side of the filter box 2.

When the special-shaped push plate 75 moves towards the direction away from the bidirectional motor 53, the special-shaped push plate 75 does not block the L-shaped scraping plate 96 any more, the second stretching spring 92 in a stretching state resets to drive the limiting slide rod 91 and the upper device thereof to move upwards for resetting, and the L-shaped scraping plate 96 and the shaft scraping plate 97 move upwards to scrape off the residual sediment on the inner side of the special-shaped push plate 75, so that excessive sediment is prevented from being accumulated on the special-shaped push plate 75. The special-shaped push plate 75 continues to move towards the direction away from the bidirectional motor 53, the special-shaped push plate 75 can push the triangular block 94 to swing, then the compressed first torsion spring 95 resets to drive the triangular block 94 to swing and reset, the compressed second torsion spring 98 resets to drive the belt shaft scraper 97 to swing and reset, when the special-shaped push plate 75 moves towards the direction close to the bidirectional motor 53, the limiting slide rod 91 blocks the triangular block 94, the special-shaped push plate 75 can push the triangular block 94 and the upper device of the triangular block 94 to move downwards, the second extension spring 92 is stretched, and then the special-shaped push plate 75 blocks the L-shaped scraper 96.

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

Claims (1)

1. The utility model provides a waste water solid-liquid separation machine for chemistry and chemical industry, a serial communication port, including waste water collecting box (1), rose box (2), slide rail board (3), sealed lid (4), rotatory rabbling mechanism (5), reciprocal oil scraping and water injection mechanism (6), rotatory push out mechanism (7) and toggle mechanism (8), waste water collecting box (1) bottom fixed mounting has rose box (2), waste water collecting box (1) top surface location has slide rail board (3), slide rail board (3) top surface fixed mounting has sealed lid (4), rotatory rabbling mechanism (5) are located on waste water collecting box (1), reciprocal oil scraping and water injection mechanism (6) set up on rotatory rabbling mechanism (5), be equipped with rotatory push out mechanism (7) on reciprocal oil scraping and water injection mechanism (6), sliding connection has toggle mechanism (8) on waste water collecting box (1); the rotary stirring mechanism (5) comprises a special-shaped support frame I (51), a motor support frame (52), a two-way motor (53), a perforated guide tube (54), a perforated rotating shaft (55), helical blades (56) and a filter plate (57), wherein the special-shaped support frame I (51) is fixedly arranged on one side of the waste water collecting box (1), the motor support frame (52) is welded on the special-shaped support frame I (51), the two-way motor (53) is fixedly arranged on the motor support frame (52), the perforated guide tube (54) is welded in the waste water collecting box (1), one end of an output shaft of the two-way motor (53) is fixedly connected with the perforated rotating shaft (55), the perforated rotating shaft (55) is rotationally connected with the waste water collecting box (1), the perforated rotating shaft (55) penetrates through the perforated guide tube (54), the helical blades (56) are welded on the perforated rotating shaft (55), and the helical blades (56) are positioned in the perforated guide tube (54), and the filter plate (57) is arranged on the perforated rotating shaft (55) in a circumferential uniform mode. The reciprocating oil scraping and water injecting mechanism (6) comprises a first rotating shaft (61), a disc (62), a connecting rod (63), a special-shaped swinging disc (64), a reciprocating screw rod (65), a clamping rod disc (66), a screw rod sleeve (67), a limiting frame (68), a scraper (69), a first reset spring (610), a sealing plate (611), a special-shaped sliding frame (612), a water injection pipe cover (613), a first extension spring (614), a wedge-shaped plate (615), a second reset spring (616) and a special-shaped supporting frame II (617), wherein the first rotating shaft (61) is rotationally connected to the special-shaped supporting frame I (51), one end of the first rotating shaft (61) is welded with the disc (62), the other end of an output shaft of a bidirectional motor (53) is fixedly connected with the disc (62), the connecting rod (63) is rotationally connected between the two discs (62), the special-shaped swinging disc (64) is fixedly connected to the other end of the first rotating shaft (61), the special-shaped supporting frame I (51) is rotationally connected with the reciprocating screw rod (65), one end of the reciprocating screw rod (65) is provided with the clamping rod disc (66), the reciprocating screw rod (65) is rotationally connected to the screw rod sleeve (67) in a threaded connection mode, the lifting plate (67) is connected to the sliding rail (3), the scraper (69) is rotationally connected with the limiting frame (68), the limiting frame (68) is fixedly connected with a pair of first reset springs (610), one end of each first reset spring (610) is connected with a screw rod sleeve (67), a sealing plate (611) is welded on the scraper (69), a special-shaped sliding frame (612) is symmetrically and slidingly connected on a sliding rail plate (3), a groove corresponding to the special-shaped sliding frame (612) is formed in the waste water collecting box (1), two oil outlets corresponding to the special-shaped sliding frame (612) are formed in the waste water collecting box (1), at least one part of the special-shaped sliding frame (612) is positioned in the groove of the waste water collecting box (1), a water injection pipe cover (613) is welded at the top end of one special-shaped sliding frame (612), a circular water injection port corresponding to the water injection pipe cover (613) is formed in the top of each sealing cover (4), a first extension spring (614) is connected to the same special-shaped sliding frame (612), one end of each first extension spring (614) is connected with the sliding rail plate (3), a wedge (615) is welded on the bottom surface of the other special-shaped sliding frame (612), a second reset spring (616) is connected with the second reset spring (616) on one side of the sliding rail plate (616), the special-shaped support frame II (617) is rotationally connected with the reciprocating screw rod (65); the rotary pushing mechanism (7) comprises a part of six-face rotating shafts (71), a cage-shaped disc (72), a rod-lacking rotating disc (73), a gear (74), a special-shaped pushing plate (75) and a rack (76), wherein the bearing on a special-shaped support frame II (617) is connected with the part of six-face rotating shafts (71) in a transition fit mode, the cage-shaped disc (72) is symmetrically welded on the part of six-face rotating shafts (71), one end of the open-pore rotating shaft (55) is connected with the rod-lacking rotating disc (73), the rod-lacking rotating disc (73) is in contact with the cage-shaped disc (72), the gear (74) is welded at the bottom end of the part of six-face rotating shaft (71), the special-shaped pushing plate (75) is connected in the filter box (2) in a sliding mode, one side of the special-shaped pushing plate (75) is provided with the rack (76), and the rack (76) is meshed with the gear (74) mutually. The stirring mechanism (8) comprises a wedge-shaped sliding rod frame (81), a swinging rod (82), a third reset spring (83), a special-shaped stirring plate (84) and a fourth reset spring (85), wherein the wedge-shaped sliding rod frame (81) is connected to the waste water collecting box (1) in a sliding mode, the swinging rod (82) is connected to the wedge-shaped sliding rod frame (81) in a rotating mode, six holes corresponding to part of six rotating shafts (71) are formed in the swinging rod (82), the third reset spring (83) is welded to the wedge-shaped sliding rod frame (81), one end of the third reset spring (83) is connected with one side of the waste water collecting box (1), the special-shaped stirring plate (84) is connected with the filtering box (2) in a sliding mode, at least one part of the special-shaped stirring plate (84) is located in the filtering box (2), the fourth reset spring (85) is connected to the special-shaped stirring plate (84), and one end of the fourth reset spring (85) is fixedly connected with the waste water collecting box (1); the utility model also comprises a scraping mechanism (9), the scraping mechanism (9) is arranged on the filter box (2), the scraping mechanism (9) comprises a limit sliding rod (91), a second extension spring (92), a second rotating shaft (93), a triangular block (94), a first torsion spring (95), an L-shaped scraping plate (96), a shaft scraping plate (97) and a second torsion spring (98), the limit sliding rod (91) is connected on the filter box (2) in a lifting manner, a second extension spring (92) is fixedly connected on the filter box (2), one end of the second extension spring (92) is fixedly connected with the limit sliding rod (91), a second rotating shaft (93) is rotationally connected on the limit sliding rod (91), a triangular block (94) is mutually touched with the limit sliding rod (91), one side of the triangular block (94) is fixedly connected with the first torsion spring (95), one end of the first torsion spring (95) is connected with the limit sliding rod (91), an L-shaped scraping plate (96) is welded above the limit sliding rod (91), the L-shaped scraping plate (96) is fixedly connected with the filter box (2) and is rotationally connected with the shaft (97) on the filter box (2), a second torsion spring (98) is connected between the shaft scraping plate (97) and the limit sliding rod (91); starting a bidirectional motor (53), enabling an output shaft of the bidirectional motor (53) to rotate clockwise to drive an opening rotating shaft (55) and a device on the opening rotating shaft to rotate, sucking sewage in a waste water collecting box (1) into an opening guide pipe (54) through the action of a spiral blade (56), filtering the sewage by a filter plate (57), enabling filtered sediment to drop into a filter box (2) from the opening guide pipe (54), simultaneously enabling the opening rotating shaft (55) to drive a missing rod rotating disc (73) to rotate clockwise, enabling the missing rod rotating disc (73) to push a cage-shaped disc (72) below and a device on the missing rod rotating disc to rotate anticlockwise, enabling a gear (74) to rotate anticlockwise to drive a rack (76) and a special-shaped push plate (75) to move away from the bidirectional motor (53), blocking the upper part of the filter box (2), enabling the filtered sediment to not drop into the filter box (2), enabling the missing rod rotating disc (73) to contact with the cage-shaped disc (72) above, enabling the missing rod rotating disc (73) to push the cage-shaped disc (72) to rotate clockwise when the missing rod rotating disc (72) contacts with the upper cage-shaped disc (72) to rotate clockwise, enabling the missing rod rotating disc (74) to move clockwise, enabling the special-shaped push plate (75) to move clockwise to be blocked against the rack (75) to move clockwise, and enabling the special-shaped push plate (75) to move clockwise to move towards the opposite direction to be close to the opposite direction, the rod-lack rotary table (73) continuously rotates, and the rack (76) and the special-shaped pushing plate (75) reciprocate left and right, so that the special-shaped pushing plate (75) intermittently blocks the upper part of the filter box (2), and filtered sediment intermittently falls into the filter box (2).

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