CN117383675A - A effluent treatment plant for chemical product production - Google Patents

Abstract

The invention provides wastewater treatment equipment for chemical product production, which relates to the technical field of wastewater treatment equipment and comprises a wastewater treatment box, wherein two wastewater inlet and outlet pipes are symmetrically welded at the middle positions of the top ends of the front side wall and the rear side wall of the wastewater treatment box; two rows of partition boards are welded in the sedimentation tank in a crisscross manner, wherein the width of each transverse partition board is larger than that of each longitudinal partition board, and the two rows of partition boards divide the inner space of the sedimentation tank into a plurality of rows of sedimentation grooves which are transversely arranged; the sedimentation grids that the multirow stull was arranged are arranged and are used for connecing the material that subsides and separate out in the chemical industry waste water, and the sedimentation grids that the multirow stull was arranged are two by two a set of setting, and the sedimentation grids of multirow transverse arrangement can implement certain shielding to subside the splendid attire in its inside and block, compare in prior art can effectively reduce and separate out the impurity and carry out the probability of mixing with the sewage that preliminary sedimentation was handled by the rabbling mechanism stirring that charging tube and many circles cloth liquid pipe are constituteed, help guaranteeing the sedimentation treatment effect to sewage.

Description

A effluent treatment plant for chemical product production

Technical Field

The invention relates to the technical field of wastewater treatment equipment, in particular to wastewater treatment equipment for chemical product production.

Background

In chemical production, a large amount of wastewater is often generated, the wastewater contains more harmful substances such as heavy metal ions and the like, the wastewater can be discharged after being treated, and pollutants such as heavy metal ions and the like in the wastewater can be separated out and treated by adding related medicaments during treatment, so that the aim of purifying the wastewater is fulfilled.

The impurity that precipitates in the sewage container of current waste water treatment facilities mostly deposits on the bottom plate of sewage container directly, lacks necessary blocking and shelters from, causes rabbling mechanism extremely to stir the impurity that the bottom was deposited and mix in the water that has preliminary sedimentation filtered, influences the sedimentation treatment effect to sewage, and current waste water treatment facilities in addition can not separate the impurity that subsides and preliminary sedimentation filtered water, causes when carrying out excreteing to subsided impurity in general, can incidentally discharge a large amount of untreated sewage, causes extra pollution or need carry out the trouble of recharging the sewage of taking the discharge.

Disclosure of Invention

In view of the above, the invention provides a wastewater treatment device for chemical product production, which is used for solving the problems that most of precipitated and settled impurities in a wastewater container are directly deposited on a bottom plate of the wastewater container, and a necessary blocking shielding is lacked, so that a stirring mechanism is very easy to mix the impurities deposited at the bottom into water subjected to preliminary sedimentation and filtration, and the sedimentation treatment effect on the wastewater is affected.

The invention provides wastewater treatment equipment for chemical product production, which specifically comprises: the waste water treatment box is characterized in that two waste water inlet and outlet pipes are symmetrically welded at the middle positions of the top ends of the front side wall and the rear side wall of the waste water treatment box, a sedimentation tank is welded at the bottom of the waste water treatment box, and a discharge hopper is welded at the bottom of the sedimentation tank; two rows of partition boards are welded in the sedimentation tank in a crisscross manner, wherein the width of each transverse partition board is larger than that of each longitudinal partition board, and the two rows of partition boards divide the inner space of the sedimentation tank into a plurality of rows of sedimentation grooves which are transversely arranged; the sedimentation grids arranged in the multi-row cross braces are used for containing substances precipitated in the chemical wastewater, and the sedimentation grids arranged in the multi-row cross braces are arranged in pairs; the whole discharging hopper is of a trapezoid structure, a row of trapezoid baffles are welded in the discharging hopper at equal intervals, the inner space of the discharging hopper is divided into a row of trapezoid discharging cavities by the trapezoid baffles, each trapezoid discharging cavity corresponds to the bottom openings of two rows of settling plates which are arranged in a group up and down mode, and a valve drain pipe is welded at the center of the bottom of each trapezoid discharging cavity; two track shafts are symmetrically welded left and right in the top space of the wastewater treatment box, two sliding frames are symmetrically and slidably arranged on the two track shafts, two water sealing plates are symmetrically and rotationally arranged on the bottom side parts of the two sliding frames, and four driven gears are symmetrically sleeved at the left end and the right end of a rotating shaft of the two water sealing plates; the two water sealing plates are downwards turned over and horizontally sealed on top openings of two rows of settling plates which are arranged in a group, a driving frame is slidably arranged on the two sliding frames, two F-shaped driving parts are symmetrically welded on the bottom side part of the driving frame, four rows of tooth plates are arranged on the lower half section of the vertical supporting part of the two F-shaped driving parts, and the four rows of tooth plates are correspondingly meshed with four driven gears for transmission; the top part of the driving frame is arranged above the wastewater treatment box in a protruding way.

Further, the intermediate position of wastewater treatment case headspace rotates and installs the charging tube of a vertical arrangement, and the front end section of charging tube runs through sealed cooperation with the preceding lateral wall of wastewater treatment case, and the head end of charging tube front side bulge section rotates and is connected with a butt joint pipe, and the butt joint pipe rotates sealedly with the head end portion of charging tube.

Further, the part of the feeding pipe, which is positioned at the inner side of the wastewater treatment tank, is provided with a plurality of circles of liquid distribution pipes in an equidistant interval welding manner, the circumferential outer wall of each liquid distribution pipe is provided with a row of liquid outlet pipes in a penetrating manner, the protruding section of the front end of each feeding pipe is sleeved with a small-diameter gear, the front side wall of the wastewater treatment tank is provided with a motor at the adjacent position of the bottom side of each feeding pipe, the head end of each motor rotating shaft is sleeved with a large-diameter gear, and the large-diameter gears are in meshed transmission with the small-diameter gears.

Further, the wastewater inlet and outlet pipes at the front side are used for water inflow, the wastewater inlet and outlet pipes at the rear side are used for water drainage, and the feeding pipe is rotationally positioned at the adjacent positions of the bottom sides of the two wastewater inlet and outlet pipes.

Further, the sliding frame is of a U-shaped structure, the top longitudinal rod sleeves of the two sliding frames are correspondingly matched with the two track shafts in a sliding mode, two L-shaped supporting rods are welded on the water sealing plate in a bilateral symmetry mode, and the head ends of the two L-shaped supporting rods are welded and fixed with the rotating shafts of the water sealing plate.

Further, the whole driving frame is composed of an I-shaped horizontal frame at the top end and four vertical supporting shafts symmetrically welded at the left end and the right end of the I-shaped horizontal frame and supported downwards, and four F-shaped driving pieces are welded and fixed with the bottoms of the four vertical supporting shafts.

Further, a longitudinal positioning shaft is welded above the middle position of the top end of the wastewater treatment tank, a sliding sleeve is slidably arranged on the longitudinal positioning shaft, a vertically arranged pushing bolt is rotatably arranged on the middle section of the sliding sleeve, and the pushing bolt is screwed with the center position of the I-shaped horizontal frame in a penetrating mode.

Furthermore, a boom is welded downwards at the bottom of the left end of the cross rod of the front side support of the I-shaped horizontal frame, an L-shaped mounting rod is welded on the bottom section of the boom, and a plug rod is inserted between the L-shaped mounting rod and the bottom section of the boom in a penetrating manner through spring pushing.

Further, a row of locating rings are welded at equal intervals on the top end position of the left side wall of the wastewater treatment tank, and the head end part of the inserted link is correspondingly in plug-in fit with the row of locating rings.

Further, the top welding of waste water treatment case has a closure plate, and the left and right sides of closure plate and waste water treatment case are provided with two rectangular spouts between the left and right sides wall symmetry, and the top part of everywhere vertical support axle corresponds with rectangular spout sliding fit everywhere.

The beneficial effects are that: 1. according to the invention, the multiple rows of the sedimentation grids which are transversely arranged can implement certain shielding and blocking on precipitated impurities contained in the sedimentation grids, compared with the prior art, the probability that the precipitated impurities are stirred by the stirring mechanism consisting of the feeding pipe and the multi-circle liquid distribution pipe to be carried out with the sewage subjected to preliminary sedimentation treatment is effectively reduced, and the sedimentation treatment effect on the sewage is ensured.

2. According to the invention, the discharge pipes with the valves at the bottoms of the discharge chambers in the row trapezoid can respectively discharge precipitated impurities in the two rows and one group of sedimentation grids, when the precipitated impurities in the sedimentation grids are discharged, the two water sealing plates can be downwards turned and horizontally sealed on the top openings of the two rows of sedimentation grids in one group, and temporary separation and separation are carried out on the precipitated impurities and upper sewage.

3. According to the invention, the two water sealing plates are installed in a sliding manner, so that the two water sealing plates can slide left and right along with the two water sealing plates to sequentially realize shielding unloading to the multiple groups of sedimentation grids, a covering component is not required to be configured for each group of sedimentation grids, the structure in the wastewater treatment box is simplified, and the consumable materials and the cost of manufacturing equipment are reduced.

Drawings

In order to more clearly illustrate the technical solution of the embodiments of the present invention, the drawings of the embodiments will be briefly described below.

The drawings described below are only for illustration of some embodiments of the invention and are not intended to limit the invention.

In the drawings:

FIG. 1 is a schematic view of the overall front side structure of a wastewater treatment facility for chemical product production of the present invention;

FIG. 2 is a schematic view of the overall rear side structure of the wastewater treatment apparatus for chemical product production of the present invention;

FIG. 3 is a schematic view of the overall bottom side structure of the wastewater treatment facility for chemical product production of the present invention;

FIG. 4 is a schematic view showing the internal structure of a wastewater treatment tank of the wastewater treatment apparatus for chemical product production of the present invention;

FIG. 5 is a schematic view of the structure of a discharge hopper of the wastewater treatment apparatus for chemical product production of the present invention;

FIG. 6 is a schematic diagram of a settling tank structure of the wastewater treatment apparatus for chemical product production of the present invention;

FIG. 7 is a schematic view showing the structure of the water sealing plate of the wastewater treatment apparatus for chemical product production in the vertically opened state;

FIG. 8 is a schematic view showing a horizontally closed state of a water seal plate of the wastewater treatment apparatus for chemical product production according to the present invention.

List of reference numerals

1. A wastewater treatment tank; 101. a closure plate; 102. a positioning ring; 103. a waste water inlet pipe and a waste water outlet pipe; 104. a longitudinal positioning shaft; 105. a sliding sleeve; 106. a rail shaft; 2. a feeding tube; 201. a butt joint pipe; 3. a motor; 4. a drive rack; 401. a rod; 402. a vertical support shaft; 403. an F-shaped driving member; 5. a discharge hopper; 6. a settling tank; 7. a carriage; 701. a water sealing plate; 702. an L-shaped stay bar; 703. a driven gear.

Detailed Description

In order to make the objects, aspects and advantages of the technical solution of the present invention more clear, the technical solution of the embodiment of the present invention will be clearly and completely described below with reference to the accompanying drawings of the specific embodiment of the present invention.

Please refer to fig. 1 to 8:

embodiment one: the invention provides wastewater treatment equipment for chemical product production, which comprises a wastewater treatment box 1, wherein two wastewater inlet and outlet pipes 103 are symmetrically welded at the middle positions of the top ends of the front side wall and the rear side wall of the wastewater treatment box 1, a sedimentation tank 6 is welded at the bottom of the wastewater treatment box 1, and a discharge hopper 5 is welded at the bottom of the sedimentation tank 6; two rows of partition boards are welded in a crisscross manner in the sedimentation tank 6, wherein the width of each transverse partition board is larger than that of each longitudinal partition board, the inner space of the sedimentation tank 6 is divided into a plurality of rows of sedimentation grooves which are transversely arranged, and the sedimentation grooves which are transversely arranged in the plurality of rows can implement certain shielding and blocking on precipitated impurities which are contained in the sedimentation grooves, compared with the prior art, the sedimentation grooves can effectively reduce the probability that the precipitated impurities are stirred by a stirring mechanism consisting of a feeding pipe 2 and a plurality of circles of liquid distribution pipes and are carried out with the sewage subjected to preliminary sedimentation treatment, and are beneficial to ensuring the sedimentation treatment effect on the sewage; the sedimentation grids arranged in the multi-row cross braces are used for containing substances precipitated in the chemical wastewater, and the sedimentation grids arranged in the multi-row cross braces are arranged in pairs; the whole discharge hopper 5 is of a trapezoid structure, a row of trapezoid baffles are welded at equal intervals in the discharge hopper 5, the inner space of the discharge hopper 5 is divided into a row of trapezoid discharge cavities by the trapezoid baffles, each trapezoid discharge cavity corresponds to the bottom openings of two rows of sedimentation grooves formed in one group, one row of trapezoid discharge cavities can respectively discharge precipitated impurities to a plurality of groups of sedimentation grooves formed in two rows through a row of drain pipes with valves at the bottom of each trapezoid discharge cavity, when the precipitated impurities in the sedimentation grooves are discharged, the two water sealing plates 701 can be turned downwards and horizontally sealed on the top openings of the two rows of sedimentation grooves formed in one group (refer to fig. 5), temporary separation and separation are carried out on the precipitated impurities and upper sewage, compared with the prior art, the problem that extra pollution is caused or the sewage is required to be recollected and filled is avoided, the problem of the process of the precipitated impurities is solved, the two water sealing plates 701 are installed in a sliding manner, and then the two water sealing plates 701 can slide down to the positions in sequence to the two sedimentation grooves are provided with the drain pipes, the two sedimentation grooves are arranged at the bottom of the sedimentation grooves, the two sedimentation grooves are respectively, the two water sealing plates are provided with the valve sealing plates are arranged in a sliding manner, and the cost of the sedimentation grooves are reduced, and the drain box is respectively, and the cost of the waste water is reduced, and the waste water is sealed and the waste is 1 is correspondingly sealed and the bottom by the sedimentation box is respectively; two track shafts 106 are symmetrically welded left and right in the top space of the wastewater treatment tank 1, two sliding frames 7 are symmetrically and slidably arranged on the two track shafts 106, two water sealing plates 701 are symmetrically and rotationally arranged on the bottom side parts of the two sliding frames 7, and four driven gears 703 are symmetrically sleeved at the left end and the right end of the rotating shaft of the two water sealing plates 701; the two water sealing plates 701 are downwards turned over and horizontally sealed on top openings of two rows of settling plates arranged in a group, a driving frame 4 is slidably arranged on the two sliding frames 7, two F-shaped driving parts 403 are symmetrically welded on the bottom side part of the driving frame 4, four rows of tooth plates are arranged on the lower half section of the vertical supporting part of the two F-shaped driving parts 403, and the four rows of tooth plates are correspondingly meshed with four driven gears 703 for transmission; the top part of the driving frame 4 is protruded above the wastewater treatment tank 1, the driving frame 4 is movably and slidably arranged with the longitudinal positioning shaft 104 through the sliding sleeve 105, and as the two sliding frames 7 are slidably connected with the driving frame 4, the driving frame 4 drives the two sliding frames 7 to slide back and forth along the longitudinal positioning shaft 104 to adjust the sealing positions of the two water sealing plates 701, in addition, the I-shaped horizontal frame at the top end of the driving frame 4 is protruded at the top end of the wastewater treatment tank 1, the I-shaped horizontal frame can be directly used for implementing displacement adjustment on the two water sealing plates 701 at the outer side of the wastewater treatment tank 1, the operation and the use are convenient, in addition, the driving frame 4 can be meshed to drive the two water sealing plates 701 to turn up and down through the two F-shaped driving pieces 403, when the two water sealing plates 701 turn up and turn up (refer to fig. 6), the I-shaped horizontal frame at the top end of the driving frame 4 can be prevented from falling into sedimentation grids, in addition, the I-shaped horizontal frame at the top end of the driving frame 4 is protruded at the top end of the wastewater treatment tank 1, the I-shaped horizontal frame can be directly used for implementing turning up and turning up the two water sealing plates 701 at the outer side of the wastewater treatment tank 1, and the operation is convenient and convenient.

Wherein, the sliding frame 7 is in a U-shaped structure, the top longitudinal rod sleeves of the two sliding frames 7 are correspondingly matched with the two track shafts 106 in a sliding way, two L-shaped supporting rods 702 are welded on the water sealing plate 701 in a bilateral symmetry manner, and the head ends of the two L-shaped supporting rods 702 are welded and fixed with the rotating shaft of the water sealing plate 701.

The driving frame 4 is integrally formed by an i-shaped horizontal frame at the top end and four vertical supporting shafts 402 symmetrically welded at the left end and the right end of the i-shaped horizontal frame and supported downwards, and four F-shaped driving pieces 403 are welded and fixed with the bottoms of the four vertical supporting shafts 402.

Wherein, a longitudinal positioning shaft 104 is welded above the middle position of the top end of the wastewater treatment tank 1, a sliding sleeve 105 is slidably mounted on the longitudinal positioning shaft 104, a vertically arranged pushing bolt is rotatably mounted on the middle section of the sliding sleeve 105, the pushing bolt and the center position of the I-shaped horizontal frame penetrate and screw, the pushing bolt can positively and negatively rotate to push and drive the driving frame 4 to slide up and down, and a driving force for turning and opening is provided for the two water sealing plates 701.

The left end bottom of the transverse rod of the front side support of the I-shaped horizontal frame is welded with a suspender downwards, the bottom section of the suspender is welded with an L-shaped mounting rod, and a plug rod 401 is inserted between the L-shaped mounting rod and the bottom section of the suspender in a penetrating manner through spring pushing.

Wherein, a row of locating rings 102 are welded at equal intervals on the top end position of the left side wall of the wastewater treatment tank 1, and the head end part of the inserted link 401 is correspondingly matched with the row of locating rings 102 in a plugging manner, so that the driving frame 4 and the two water sealing plates 701 can be plugged and positioned in the use posture after the sliding adjustment.

Wherein, the top welding of waste water treatment case 1 has a closure plate 101, and the left and right sides of closure plate 101 is provided with two rectangular spouts with the symmetry between the left and right sides wall of waste water treatment case 1, and the top part of everywhere vertical support axle 402 corresponds with rectangular spout sliding fit everywhere.

Embodiment two: the invention provides wastewater treatment equipment for chemical product production, which further comprises a feeding pipe 2 which is longitudinally arranged in the middle of the top space of a wastewater treatment box 1 in a rotating way, wherein the front end section of the feeding pipe 2 is in penetrating and sealing fit with the front side wall of the wastewater treatment box 1, the front end of the front protruding section of the feeding pipe 2 is rotationally connected with a butt joint pipe 201, the butt joint pipe 201 is rotationally sealed with the front end part of the feeding pipe 2, the butt joint pipe 201 is connected with an external chemical feeding system, liquid medicine is sprayed and filled into wastewater in the wastewater treatment box 1 through the feeding pipe 2 and a plurality of circles of liquid distribution pipes, a stirring mechanism is jointly formed by the feeding pipe 2 and the plurality of circles of liquid distribution pipes, a motor 3 can be meshed to drive the stirring mechanism to rotate so as to stir the liquid medicine sprayed on the feeding pipe 2 and the plurality of circles of liquid distribution pipes, and the double-purpose use effect is achieved.

Wherein, the charging tube 2 is located the inboard part of waste water treatment case 1 and has equidistance interval welding arrangement to have many rings of cloth liquid pipes, and the circumference outer wall of cloth liquid pipe runs through and has seted up a row of drain pipes, and the cover is equipped with a minor diameter gear on the front end convex section of charging tube 2, is located the adjacent position fixed mounting of bottom side of charging tube 2 on the preceding lateral wall of waste water treatment case 1 and has a motor 3, and the first end cover of motor 3 pivot is equipped with a major diameter gear, major diameter gear and minor diameter gear meshing transmission.

Wherein, front side waste water inlet and outlet pipe 103 is used for intaking, and the waste water inlet and outlet pipe 103 of rear side is used for the drainage, and charging tube 2 rotates the bottom side adjacent position that is located two waste water inlet and outlet pipes 103.

Specific use and action of the embodiment: in the invention, a butt joint pipe 201 is connected with an external dosing and supplying system, liquid medicine is sprayed and filled in sewage in a sewage treatment box 1 through a feeding pipe 2 and a plurality of circles of liquid distribution pipes to react with heavy metal ions in the sewage and generate and separate out impurities, the feeding pipe 2 and the plurality of circles of liquid distribution pipes form a stirring mechanism together, and a motor 3 can be meshed to drive the stirring mechanism to rotate so as to stir the liquid medicine sprayed on the stirring mechanism;

the sedimentation grids are used for containing precipitated impurities, a plurality of rows of sedimentation grids which are transversely arranged can implement certain shielding and blocking on the precipitated impurities which are contained in the sedimentation grids, the probability that the precipitated impurities are stirred by a stirring mechanism consisting of a feeding pipe 2 and a plurality of circles of liquid distribution pipes to be brought out and blended with sewage after preliminary sedimentation treatment is reduced, in addition, a row of trapezoid discharging cavities can respectively implement the discharge of the precipitated impurities on a plurality of groups of sedimentation grids which are arranged in two rows and one group through a row of discharging pipes with valves at the bottom of the trapezoid discharging cavities, when the precipitated impurities in the sedimentation grids are discharged, the two water sealing plates 701 can be downwards turned over and horizontally sealed on top openings of the two rows of sedimentation grids which are arranged in one group (refer to fig. 5), temporary separation and separation are implemented on the precipitated impurities and upper sewage, so that a large amount of sewage is discharged incidentally when the precipitated impurities are discharged is avoided, the two water sealing plates 701 are installed in a sliding way, and then the two water sealing plates 701 can slide left and right along the two water sealing plates to slide to sequentially implement shielding discharging on the plurality of sedimentation grids;

the driving frame 4 is movably and slidably installed with the longitudinal positioning shaft 104 through the sliding sleeve 105, and as the two sliding frames 7 are slidably connected with the driving frame 4 together, the driving frame 4 drives the two sliding frames 7 to slide back and forth along the longitudinal positioning shaft 104 to adjust the closed positions of the two water sealing plates 701, through the two F-shaped driving pieces 403, the driving frame 4 can slide up and down to be engaged to drive the two water sealing plates 701 to turn up and down, the driving frame 4 can be driven to slide up and down by forward and backward rotation of the driving bolts, the driving force for turning up and down is provided for the two water sealing plates 701, in addition, the head end part of the inserting rod 401 is correspondingly matched with the row of positioning rings 102 in an inserting mode, and the driving frame 4 and the two water sealing plates 701 can be inserted and positioned in the use posture after the sliding adjustment.

Claims (10)

1. The wastewater treatment equipment for the production of chemical products is characterized by comprising a wastewater treatment box (1), wherein two wastewater inlet and outlet pipes (103) are symmetrically welded at the middle positions of the top ends of the front side wall and the rear side wall of the wastewater treatment box (1), a sedimentation tank (6) is welded at the bottom of the wastewater treatment box (1), and a discharge funnel (5) is welded at the bottom of the sedimentation tank (6); two rows of partition boards are welded in the sedimentation tank (6) in a crisscross manner, wherein the width of the transverse partition boards is larger than that of the longitudinal partition boards, and the two rows of partition boards divide the inner space of the sedimentation tank (6) into a plurality of rows of sedimentation grooves which are transversely arranged; the sedimentation grids arranged in the multi-row cross braces are used for containing substances precipitated in the chemical wastewater, and the sedimentation grids arranged in the multi-row cross braces are arranged in pairs; the whole discharging funnel (5) is of a trapezoid structure, a row of trapezoid baffles are welded in the discharging funnel (5) at equal intervals, the inner space of the discharging funnel (5) is divided into a row of trapezoid discharging cavities by the trapezoid baffles, each trapezoid discharging cavity corresponds to the bottom openings of two rows of settling plates arranged in a group up and down, and a valve drain pipe is welded at the center of the bottom of each trapezoid discharging cavity; two track shafts (106) are symmetrically welded left and right in the top space of the wastewater treatment box (1), two sliding frames (7) are symmetrically and slidingly arranged on the two track shafts (106), two water sealing plates (701) are symmetrically and rotationally arranged on the bottom side parts of the two sliding frames (7), and four driven gears (703) are symmetrically sleeved at the left end and the right end of a rotating shaft of each water sealing plate (701); the two water sealing plates (701) are downwards turned over and horizontally sealed on top openings of two rows of settling plates which are arranged in a group, a driving frame (4) is slidably arranged on the two sliding frames (7), two F-shaped driving parts (403) are symmetrically welded on the bottom side part of the driving frame (4), four rows of tooth plates are arranged on the lower half section of the vertical supporting part of the two F-shaped driving parts (403), and the four rows of tooth plates are correspondingly meshed with the four driven gears (703) for transmission; the top end part of the driving frame (4) is arranged above the wastewater treatment box (1) in a protruding way.

2. A wastewater treatment facility for chemical product production as claimed in claim 1, wherein: the middle position of the top space of the wastewater treatment box (1) is rotationally provided with a feeding pipe (2) which is longitudinally arranged, the front end section of the feeding pipe (2) is in penetrating sealing fit with the front side wall of the wastewater treatment box (1), the head end of the front protruding section of the feeding pipe (2) is rotationally connected with a butt joint pipe (201), and the butt joint pipe (201) is rotationally sealed with the head end part of the feeding pipe (2).

3. A wastewater treatment facility for chemical product production as claimed in claim 2, wherein: the utility model discloses a waste water treatment tank, including charging tube (2), waste water treatment tank (1), motor (3) and gear engagement transmission, the charging tube (2) is located equidistant interval welding arrangement has the multiturn to cloth the liquid pipe on the inboard part of charging tube (1), and the circumference outer wall of cloth the liquid pipe runs through and has seted up a row of drain pipe, and the cover is equipped with a minor diameter gear on the front end salient section of charging tube (2), is located the downside adjacent position fixed mounting of charging tube (2) on the front side wall of waste water treatment tank (1), and the first end cover of motor (3) pivot is equipped with a major diameter gear, major diameter gear and minor diameter gear engagement transmission.

4. A wastewater treatment facility for chemical product production as claimed in claim 1, wherein: the front side waste water inlet and outlet pipes (103) are used for water inlet, the rear side waste water inlet and outlet pipes (103) are used for water discharge, and the feeding pipe (2) is rotatably positioned at the adjacent positions of the bottom sides of the two waste water inlet and outlet pipes (103).

5. A wastewater treatment facility for chemical product production as claimed in claim 1, wherein: the sliding frames (7) are of U-shaped structures, the top longitudinal rod sleeves of the two sliding frames (7) are correspondingly in sliding fit with the two track shafts (106), two L-shaped supporting rods (702) are welded on the water sealing plate (701) in a bilateral symmetry mode, and the head ends of the two L-shaped supporting rods (702) are welded and fixed with the rotating shafts of the water sealing plate (701).

6. A wastewater treatment facility for chemical product production as claimed in claim 1, wherein: the driving frame (4) is integrally formed by an I-shaped horizontal frame at the top end and four vertical supporting shafts (402) symmetrically welded at the left end and the right end of the I-shaped horizontal frame and supported downwards, and four F-shaped driving pieces (403) are welded and fixed with the bottoms of the four vertical supporting shafts (402).

7. A wastewater treatment facility for chemical product production as claimed in claim 6, wherein: a longitudinal positioning shaft (104) is welded above the middle position of the top end of the wastewater treatment box (1), a sliding sleeve (105) is slidably arranged on the longitudinal positioning shaft (104), a vertically arranged pushing bolt is rotatably arranged on the middle section of the sliding sleeve (105), and the pushing bolt is penetrated and screwed with the center position of the I-shaped horizontal frame.

8. A wastewater treatment facility for chemical product production as claimed in claim 6, wherein: the left end bottom of the I-shaped horizontal frame front side support cross rod is welded with a suspender downwards, the bottom section of the suspender is welded with an L-shaped mounting rod, and a plug rod (401) is inserted between the L-shaped mounting rod and the bottom section of the suspender in a penetrating manner through spring pushing.

9. A wastewater treatment facility for chemical product production as claimed in claim 8, wherein: a row of positioning rings (102) are welded at equal intervals on the top end position of the left side wall of the wastewater treatment box (1), and the head end part of the inserted link (401) is correspondingly in plug-in fit with the row of positioning rings (102).

10. A wastewater treatment facility for chemical product production as claimed in claim 1, wherein: the top welding of waste water treatment case (1) has a closure plate (101), and the left and right sides of closure plate (101) is provided with two rectangular spouts with the symmetry between the left and right sides wall of waste water treatment case (1), and the top part correspondence of everywhere vertical support axle (402) is with rectangular spout sliding fit everywhere.