CN115971183B - Dimethylacetamide waste liquid recovery cleaning device - Google Patents

Abstract

The invention discloses a dimethylacetamide waste liquid recovery and cleaning device, which relates to the technical field of waste liquid treatment, and comprises the following components in part by weight; the sliding rails are symmetrically arranged on two sides of the corresponding reaction tank; the driving frame is connected with the sliding rails, a cleaning mechanism and a cleaning mechanism are sequentially arranged in the driving frame along the moving direction, and a spraying mechanism is arranged on one side, opposite to the cleaning mechanism, of the cleaning mechanism; the two groups of spraying mechanisms, the cleaning mechanisms and the cleaning mechanisms are all connected with the driving frame through a plurality of stroke cylinders. The cleaning pieces have rotation capability while revolving, so that the cleaning quality can be improved, and compared with the prior art, the cleaning wires in the cleaning pieces can eject stains on the surfaces of the cleaning wires to the upper side of the adhesive film after touching the deflection plates, thereby improving the cleanliness of the cleaning wires and avoiding secondary pollution to the reaction tank.

Description

Dimethylacetamide waste liquid recovery cleaning device

Technical Field

The invention relates to the technical field of waste liquid treatment, in particular to a dimethylacetamide waste liquid recovery and cleaning device.

Background

When the dimethylacetamide wastewater is cleaned, the solid particle additive or catalyst and the wastewater are reacted and treated in the corresponding reaction tanks for a plurality of times; after treatment, the reaction tank needs to be cleaned, so that pollution to subsequent cleaning is avoided.

Through retrieval, chinese patent (publication No. CN 103359876A) discloses a method for innocuous treatment of dimethylacetamide wastewater, which comprises 1) an adjusting tank for adjusting the pH of the wastewater; 2) The iron carbon-Fenton oxidation pond is pretreated; 3) Coagulating sedimentation treatment; 4) Adding a carbon source for hydrolysis and acidification treatment; 5) Anaerobic biochemical treatment is carried out by a first-stage UASB reactor; 6) Anaerobic treatment is carried out on the secondary UASB; 7) Carrying out aerobic tank treatment; 8) And separating mud from water in the secondary sedimentation tank to obtain drainage.

In the above patent, the treatment process of dimethylacetamide wastewater comprises a plurality of reaction tanks, and when cleaning, the reaction tanks have large cleaning area, and the reaction tanks have more fine solid particles or powder impurities, so that the cleaning difficulty is high, and the cleaning quality is poor.

Disclosure of Invention

Aiming at the defects existing in the prior art, the invention aims to provide a dimethylacetamide waste liquid recovery and cleaning device.

In order to achieve the above purpose, the present invention provides the following technical solutions: the dimethylacetamide waste liquid recovery and cleaning device comprises a plurality of sliding rails and a driving frame, wherein the sliding rails are distributed on two sides of a corresponding reaction tank;

the driving frame is connected with the sliding rail, and moves along the corresponding reaction tank based on the distribution position of the sliding rail;

the lower side of the sliding track is sequentially provided with a cleaning mechanism and a sweeping mechanism along the moving direction, and one side of the cleaning mechanism and one side of the sweeping mechanism, which are opposite, are respectively provided with a spraying mechanism;

the two groups of spraying mechanisms, the cleaning mechanism and the cleaning mechanism are all connected with the driving frame through a plurality of stroke cylinders;

the cleaning mechanism is internally provided with a rotating mechanism, one side of the cleaning mechanism, which is close to the cleaning mechanism, is provided with a deflection plate, and the outer side of the output end of the rotating mechanism is provided with a plurality of cleaning pieces;

the cleaning pieces sequentially pass through the deflection plates based on the rotating mechanism, and each cleaning piece comprises a plurality of cleaning wires;

a first winding roller and a second winding roller are arranged in the cleaning mechanism, and an adhesive film is arranged between the first winding roller and the second winding roller;

when each cleaning piece passes through the deflection plate, the cleaning wires inside the cleaning piece are bent, and after the cleaning pieces pass through the deflection plate, the cleaning wires are thrown towards the adhesive film, and powder or particles outside the cleaning pieces are collected through the adhesive film.

Further, the cleaning mechanism comprises a first equipment box, a first communication port is formed in one side, facing the cleaning mechanism, of the first equipment box, the deflection plate is arranged at the top of the communication port, and the deflection plate is inclined towards the inside of the first equipment box;

the inclination angle of the deflection plate is 10-55 degrees.

Further, the heating mechanism is installed on the top inside the first equipment box, and the air blowing mechanism is installed on the side face of the first equipment box, the air outlet of the air blowing mechanism extends to the inside of the first equipment box, and the air outlet of the air blowing mechanism inclines towards the cleaning mechanism.

Further, the cleaning piece comprises a connecting box connected with the output end of the rotating mechanism, the lower side of the connecting box is rotationally connected with a plurality of first equipment boxes, the top end inside the first equipment boxes is provided with an electromagnetic driving mechanism, and two sides, close to the electromagnetic driving mechanism, inside the first equipment boxes are provided with a plurality of elastic pieces;

an assembling block is arranged between the bottom ends of the plurality of elastic pieces, and a magnetic piece is arranged on the upper side of the assembling block;

the plurality of cleaning wires are all installed at the downside of equipment piece, and each cleaning wire all runs through the downside of first equipment box to with first equipment box sliding connection.

Further, an output motor is arranged on one side of the inside of the connecting box, and transmission teeth extending to the inside of the connecting box are arranged on each first equipment box and the output motor on the lower side of the same connecting box;

and synchronous belts are connected among all the transmission teeth in the same transmission tooth in a meshed manner.

Further, the cleaning mechanism comprises a second equipment box, a second communication port is formed in one side, facing the cleaning mechanism, of the second equipment box, and the second communication port is used for being communicated with the first communication port;

at least one group of guide rollers is installed inside the second equipment box, the adhesive film bypasses from the side surfaces of the guide rollers, and the adhesive film is inclined to the cleaning mechanism based on the guide rollers.

Further, sliding frames are arranged at the top ends of the two sides of the second equipment box;

the upper side of the second equipment box is provided with a connecting box which is used for being connected with the output end of the corresponding travel cylinder, and guide frames are arranged on two sides of the inside of the connecting box;

the two groups of sliding frames are respectively connected with the corresponding guide frames in a sliding way;

the upper surface of the second equipment box is provided with a latch plate, and at least one group of driving motors in transmission connection with the latch plate are arranged in the connecting box.

Further, a water outlet is formed in the side face of the spraying mechanism, a plurality of electric push rods are arranged on the side face of the spraying mechanism close to the upper side of the water outlet, and a shielding plate is arranged between output ends of the electric push rods;

the shielding plate changes the shielding area of the water outlet based on the corresponding electric push rod.

Further, the use method of the cleaning device comprises the following steps:

step one: starting each travel cylinder, and adjusting the heights of the two groups of spraying mechanisms, the cleaning mechanisms and the cleaning mechanisms;

step two: starting two groups of spraying mechanisms to clean the reaction tank;

step three: starting a rotating mechanism to drive each cleaning piece to revolve, and simultaneously starting each cleaning piece to rotate to clean the reaction tank;

step four: when each cleaning piece passes through the deflection plate, the cleaning wire inside the cleaning piece is bent based on the contact with the first equipment box, and after passing through the deflection plate, the cleaning piece resets and springs to throw the impurities outside each first equipment box to the outside of the adhesive film;

step five: and synchronously starting the first winding roller and the second winding roller, and winding the adhesive film with the collected impurities.

Further, the ratio of the water pressure of the spraying mechanism at one side of the cleaning mechanism to the water pressure at one side of the cleaning mechanism is 1:2-3.4, water flow ratio of 1:1.5-3.

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

the invention is arranged on the upper side of each reaction tank, and can move along a fixed track based on a sliding track, thereby being convenient for cleaning the reaction tank with a larger area;

in addition, each cleaning piece has autorotation capability while revolving, so that the cleaning quality can be improved, and compared with the prior art, the cleaning wires in each cleaning piece can eject stains on the surfaces of the cleaning wires to the upper side of the adhesive film after touching the deflection plate, so that the cleanliness of the cleaning wires is improved, and secondary pollution to a reaction tank is avoided;

on the other hand, the adhesive film in the cleaning mechanism can be continuously wound on the basis of the first winding roller and the second winding roller, so that good recovery rate of stains ejected by the cleaning wires is kept.

Drawings

FIG. 1 is a schematic diagram of a dimethylacetamide waste liquid recovery and cleaning device;

FIG. 2 is a side cross-sectional view of the cleaning mechanism of the present invention;

FIG. 3 is a cross-sectional view of a cleaning member of the present invention;

FIG. 4 is a cross-sectional view of a cleaning mechanism of the present invention;

FIG. 5 is an enlarged view of the portion A of FIG. 1 in accordance with the present invention;

1. a sliding rail; 2. a drive rack; 3. a stroke cylinder; 4. a cleaning mechanism; 5. a cleaning mechanism; 6. a spraying mechanism; 7. a rotation mechanism; 8. cleaning the piece; 51. a first equipment box; 52. a deflection plate; 53. a heating mechanism; 54. a blowing mechanism; 81. a connection box; 82. a first equipment box; 83. an electromagnetic drive mechanism; 84. an elastic member; 85. assembling blocks; 86. a magnetic member; 87. a cleaning wire; 88. a drive tooth; 41. a second equipment box; 42. a first wind-up roll; 43. a guide roller; 44. a second wind-up roll; 45. an adhesive film; 46. a carriage; 47. a connection box; 48. a guide frame; 49. a driving motor; 410. a tooth clamping plate; 61. a water outlet; 62. an electric push rod; 63. a shielding plate.

Detailed Description

Referring to fig. 1 to 5, a dimethylacetamide waste liquid recovery and cleaning device comprises a plurality of sliding rails 1 and a driving frame 2, wherein the sliding rails 1 are distributed on two sides of a corresponding reaction tank;

the driving frame 2 is connected with the sliding track 1, and the driving frame 2 moves along the corresponding reaction tank based on the distribution position of the sliding track 1;

the lower side of the sliding track 1 is sequentially provided with a cleaning mechanism 4 and a cleaning mechanism 5 along the moving direction, and one side of the cleaning mechanism 4, which is opposite to the cleaning mechanism 5, is provided with a spraying mechanism 6;

the two groups of spraying mechanisms 6, the cleaning mechanism 4 and the cleaning mechanism 5 are all connected with the top of the driving frame 2 through a plurality of stroke cylinders 3;

the cleaning mechanism 5 is internally provided with a rotating mechanism 7, one side of the cleaning mechanism 5, which is close to the cleaning mechanism 4, is provided with a deflection plate 52, and the outer side of the output end of the rotating mechanism 7 is provided with a plurality of cleaning pieces 8;

the rotating mechanism 7 comprises a rotating motor, a rotating roller is arranged at the output end of the rotating motor, and one end of the rotating roller is in rotating connection with the cleaning mechanism 5;

the cleaning pieces 8 are distributed on the outer side of the rotating roller in a plurality of rows;

the cleaning pieces 8 sequentially pass through the deflection plate 52 based on the rotating mechanism 7, and each cleaning piece 8 comprises a plurality of cleaning wires 87;

a first winding roller 42 and a second winding roller 44 are arranged in the cleaning mechanism 4, and an adhesive film 45 is arranged between the first winding roller 42 and the second winding roller 44;

when each cleaning member 8 passes through the offset plate 52, the cleaning wire 87 inside the cleaning member is bent, and after passing through the offset plate 52, the cleaning wire 87 is thrown towards the adhesive film 45, and powder or particles outside the cleaning member are collected through the adhesive film 45.

Referring to fig. 2, the cleaning mechanism 5 includes a first equipment box 51, a first communication port is opened at a side of the first equipment box 51 facing the cleaning mechanism 4, a deflector 52 is installed at a top of the communication port, and the deflector 52 is inclined toward an inside of the first equipment box 51;

the angle of inclination of the deflector plate 52 is 10-55 °, preferably 40 °;

a heating mechanism 53 is arranged at the top end of the interior of the first equipment box 51, a blowing mechanism 54 is arranged on the side surface of the first equipment box 51, an air outlet of the blowing mechanism 54 extends to the interior of the first equipment box 51, and the air outlet of the blowing mechanism 54 is inclined towards the cleaning mechanism 4;

when the blower mechanism 54 is activated, air inside the first equipment box 51 is blown toward the adhesive film 45 through the air outlet.

Referring to fig. 3, the cleaning member 8 includes a connection box 81 connected to an output end of the rotation mechanism 7, a plurality of first equipment boxes 82 are rotatably connected to a lower side of the connection box 81, an electromagnetic driving mechanism 83 is installed at a top end inside the first equipment boxes 82, and a plurality of elastic members 84 are installed at two sides, close to the electromagnetic driving mechanism 83, inside the first equipment boxes 82;

an assembly block 85 is arranged between the bottom ends of the plurality of elastic pieces 84, a magnetic piece 86 is arranged on the upper side of the assembly block 85, and the assembly block 85 is used for abutting the magnetic piece 86 to the lower side of the output end of the electromagnetic driving mechanism 83 based on each elastic piece 84;

the elastic member 84 includes a telescopic rod connected to the first device case 82 and the assembly block 85, the telescopic rod is used for positioning the moving direction of the assembly block 85, and a spring member connected to the first device case 82 and the assembly block 85 is provided on the outer side of the telescopic rod;

a plurality of cleaning wires 87 are mounted on the lower side of the assembly block 85, and each cleaning wire 87 penetrates through the lower side of the first equipment box 82 and is slidably connected with the first equipment box 82;

after the electromagnetic drive mechanism 83 is activated, the elastic member 84 is axially stretched by the magnetic member 86, and the respective cleaning wires 87 are extended to the outside of the first device box 82 by the assembly block 85.

An output motor is arranged on one side of the inside of the connecting box 81, and transmission teeth 88 extending to the inside of the connecting box 81 are arranged on each first equipment box 82 and the output motor on the lower side of the same connecting box 81;

a synchronous belt is meshed and connected between each transmission tooth 88 in the same transmission tooth 88.

Referring to fig. 4, the cleaning mechanism 4 includes a second equipment box 41, and a second communication port is formed in a side of the second equipment box 41 facing the cleaning mechanism 5, the second communication port being for communication with the first communication port;

a group of guide rollers 43 are arranged in the second equipment box 41, the first winding roller 42, the guide rollers 43 and the second winding roller 44 are distributed in a triangular mode, and the guide rollers 43 are close to one side of the cleaning mechanism 5;

the adhesive film 45 is wound around the side of the guide roller 43, and its moving path is inclined toward each cleaning member 8.

The top ends of both sides of the second equipment box 41 are provided with sliding frames 46;

the upper side of the second equipment box 41 is provided with a connecting box 47, the connecting box 47 is used for being connected with the output end of the corresponding stroke cylinder 3, and guide frames 48 are arranged on two sides of the inside of the connecting box 47;

the two groups of sliding frames 46 are respectively connected with corresponding guide frames 48 in a sliding way;

the upper surface of the second equipment box 41 is provided with a clamping toothed plate 410, and at least one group of driving motors 49 in transmission connection with the clamping toothed plate 410 are arranged in the connecting box 47;

the output end of the driving motor 49 is provided with connecting teeth for meshing connection with the corresponding click plate 410.

Referring to fig. 5, a drain port 61 is provided on the side surface of the spray mechanism 6, a plurality of electric push rods 62 are mounted on the side surface of the spray mechanism 6 near the upper side of the drain port 61, and a shielding plate 63 is mounted between the output ends of the plurality of electric push rods 62;

the shielding plate 63 changes the shielding area of the drain port 61 based on the corresponding electric push rod 62;

in operation, each electric push rod 62 is synchronously started to drive the shielding plate 63 to vertically move so as to shield the area of the water outlet 61.

Working principle:

starting each stroke cylinder 3 to adjust the heights of the two groups of spraying mechanisms 6, the cleaning mechanism 4 and the cleaning mechanism 5;

starting two groups of spraying mechanisms 6 to clean the reaction tank; the spraying mechanism 6 facing one side of the moving direction of the device sprays water forwards, and the spraying mechanism 6 facing the rear side of the moving direction of the device sprays water backwards;

the ratio of the water pressure of the forward water spray to the water pressure of the backward water spray is 1:2.5, and water flow ratio 1:2.4;

after the cleaning piece 8 at the lowest side is contacted with the reaction tank, the rotating mechanism 7 is started to drive each cleaning piece 8 to revolve, meanwhile, the output motor in each row of cleaning pieces 8 is started, and each corresponding first equipment box 82 rotates through the synchronous belt to clean the reaction tank;

when each cleaning piece 8 passes through the bias plate 52, an electromagnetic driving mechanism 83 in the cleaning piece is started to drive each assembly block 85 to move towards the outer side of the first equipment box 82, a cleaning wire 87 corresponding to the outer side of each assembly block is extended out of the first equipment box 82, the cleaning wire 87 is bent based on contact with the first equipment box 82, and after passing through the bias plate 52, reset and spring are carried out to throw impurities out on the outer side of each first equipment box 82 to the outer side of the adhesive film 45;

the electromagnetic drive 83 is then deactivated, each elastic element 84 resetting the corresponding assembly block 85 and cleaning wire 87;

the first wind-up roller 42 and the second wind-up roller 44 are synchronously started to wind up the adhesive film 45 with the collected impurities.

Example 2

In comparison with embodiment 1, embodiment 2 is provided with a plurality of guide rollers 43, the second guide rollers 43 are located at the lower side of the guide rollers 43 in embodiment 1 and extend into the moving path of the cleaning wires 87 in the respective cleaning members 8, the adhesive film 45 passes through the outer sides of the two guide rollers 43 in sequence from top to bottom and forms a second cleaning stage and a first cleaning stage in sequence, and the first cleaning stage extends into the moving path of the respective cleaning wires 87;

in operation, the cleaning wires 87 in the respective cleaning members 8 do not extend excessively when passing through the second cleaning section located on the upper side;

when passing through the first cleaning stage, the cleaning wire 87 is extended based on the electromagnetic driving mechanism 83 and the assembly block 85, attached to one side of the first cleaning stage, contacted with it, and then the cleaning wire 87 is reset, the corresponding output motor is started, the first device box 82 is rotated, and contact with the first cleaning stage is repeated.

The above description is only a preferred embodiment of the present invention, and the protection scope of the present invention is not limited to the above examples, and all technical solutions belonging to the concept of the present invention belong to the protection scope of the present invention. It should be noted that modifications and adaptations to those skilled in the art without departing from the principles of the present invention are intended to be considered as protecting the scope of the present template.

Claims (1)

1. The dimethylacetamide waste liquid recovery and cleaning device is characterized by comprising the following components;

the sliding rails (1) are symmetrically arranged on two sides of the corresponding reaction tank;

the cleaning device comprises a driving frame (2), wherein the driving frame (2) is connected with a plurality of sliding rails (1), a cleaning mechanism (4) and a cleaning mechanism (5) are sequentially arranged in the driving frame (2) along the moving direction, and a spraying mechanism (6) is arranged on one side, opposite to the cleaning mechanism (4) and the cleaning mechanism (5), of the driving frame;

the two groups of spraying mechanisms (6), the cleaning mechanism (4) and the cleaning mechanism (5) are connected with the driving frame (2) through a plurality of stroke cylinders (3);

a rotating mechanism (7) is arranged in the cleaning mechanism (5), and a deflection plate (52) is arranged on one side of the cleaning mechanism (5) close to the cleaning mechanism (4);

the first winding roller (42) and the second winding roller (44), wherein the first winding roller (42) and the second winding roller (44) are installed inside the cleaning mechanism (4), and a movable adhesive film (45) is installed between the first winding roller (42) and the second winding roller (44);

the cleaning pieces (8) are arranged outside the output end of the rotating mechanism (7) in a plurality of rows;

the cleaning piece (8) comprises a plurality of cleaning wires (87), and the cleaning wires (87) are bent when passing through the deflection plate (52) based on the rotating mechanism (7) and are thrown towards the adhesive film (45) after being separated from the deflection plate (52);

the cleaning mechanism (5) comprises a first equipment box (51), and a first communication port is formed in one side, facing the cleaning mechanism (4), of the first equipment box (51);

the deflection plate (52) is arranged at the top of the communication port, and the inclination angle of the deflection plate (52) is 10-55 degrees;

a heating mechanism (53) is arranged at the top end of the interior of the first equipment box (51), a blowing mechanism (54) is arranged on the side surface of the first equipment box (51), and an air outlet of the blowing mechanism (54) extends to the interior of the first equipment box (51) and inclines towards the cleaning mechanism (4);

the cleaning element (8) comprises:

the connecting box (81), the said connecting box (81) links with output end of the rotary mechanism (7);

the first equipment boxes (82) are distributed in rows, and are connected with the connecting boxes (81) and synchronously rotate;

a magnetic member (86), the magnetic member (86) being mounted on top of the corresponding first equipment box (82);

an assembly block (85), the assembly block (85) being provided inside the first equipment box (82) and being movable in a resettable manner based on a magnetic member (86);

the plurality of cleaning wires (87) are arranged on the lower side of the corresponding assembly block (85), and each cleaning wire (87) is in sliding connection with the first equipment box (82) and extends to the outer side of the first equipment box (82);

the cleaning mechanism (4) includes:

a second equipment box (41), wherein the second equipment box (41) is provided with a second communication port communicated with the first communication port;

the guide rollers (43), at least a group of guide rollers (43) are installed inside the second equipment box (41) and are arranged between the first winding roller (42) and the second winding roller (44) for adjusting the distribution position of the adhesive film (45);

the top ends of the two sides of the second equipment box (41) are provided with sliding frames (46);

the upper side of the second equipment box (41) is provided with a connecting box (47), the connecting box (47) is used for being connected with the output end of the corresponding stroke cylinder (3), and guide frames (48) are arranged on two sides of the inside of the connecting box (47);

the two groups of sliding frames (46) are respectively connected with the corresponding guide frames (48) in a sliding way;

the upper surface of the second equipment box (41) is provided with a clamping toothed plate (410), and at least one group of driving motors (49) in transmission connection with the clamping toothed plate (410) are arranged in the connecting box (47);

a water outlet (61) is formed in the side face of the spraying mechanism (6), a plurality of electric push rods (62) are arranged on the side face of the spraying mechanism (6) close to the upper side of the water outlet (61), and a shielding plate (63) is arranged between output ends of the electric push rods (62);

the shielding plate (63) changes the shielding area of the water outlet (61) based on the corresponding electric push rod (62).