CN112551678B - A processing apparatus for methyl tin mercaptide waste water impurity organic matter - Google Patents

Abstract

The invention discloses a treatment device for impurity organic matters in methyl tin mercaptide production wastewater, which comprises a machine body and is characterized in that: the invention can effectively remove organic matters and other impurities in wastewater generated by methyl tin mercaptide production, compared with the traditional wastewater treatment, not only removes the organic matters and other impurities, but also retains ammonium chloride in solution, provides great convenience for the subsequent ammonium chloride treatment of the treated wastewater, simultaneously extracts useful matters in the wastewater, and greatly reduces the cost of wastewater treatment of enterprises.

Description

A processing apparatus for methyl tin mercaptide waste water impurity organic matter

Technical Field

The invention belongs to the field of circuit board production, and particularly relates to a device for treating impurity organic matters in wastewater generated in methyl tin mercaptide production.

Background

Methyl tin mercaptide, also known as methyl tin or methyl tin stabilizer, is one of the organotin stabilizers, and is a colorless transparent oily substance. Because of the advantages of no toxicity, high efficiency, good colorability and the like, the modified polypropylene resin is widely used as a plastic heat stabilizer at home and abroad in recent years. The PVC plastic product obtained by using methyl tin mercaptide as a stabilizer has the characteristics of unique processability, transparency, environmental protection, safety and the like, and is widely used as packaging, decorating and engineering materials;

in the process of producing methyl tin mercaptide, a large amount of wastewater is generated, and the wastewater is extremely harmful to people and the environment, but some substances exist in the wastewater and can be recycled, and firstly, organic matters in the wastewater need to be removed.

Disclosure of Invention

The invention aims at solving the problems in the prior art, and provides a treatment device for impurity organic matters in the wastewater of methyl tin mercaptide production.

The aim of the invention can be achieved by the following technical scheme: a processing apparatus for methyl tin mercaptide waste water impurity organic matter, includes organism, its characterized in that: the waste disposal device comprises a machine body, wherein a power space is arranged in the machine body, a power mechanism is arranged in the power space and is used for providing power for the device, an operation space is arranged on the lower side of the power space, a functional box body is connected to the operation space in a sliding mode, a circular feeding space is arranged in the functional box body, feeding mechanisms are respectively arranged in the feeding space and are used for feeding potassium permanganate for removing organic matters in waste water, a main energy space is arranged in the functional box body, an adsorption mechanism is arranged in the main energy space and is used for adsorbing impurities in the waste water and removed organic matters, a cleaning mechanism is arranged in the main energy space and is used for cleaning adsorption materials, two collecting spaces are arranged on the lower side of the main energy space and are distributed in a bilateral symmetry mode, and each collecting space is respectively provided with a collecting mechanism which is used for collecting waste generated by cleaning.

Preferably, the power mechanism comprises a power motor fixedly mounted on the upper side wall of the power space, a power rotating shaft is fixedly connected to the output end of the power motor, the power rotating shaft extends downwards to penetrate through the lower side wall of the power space and the upper end face of the functional box body to enter the main energy space, a power rotating shaft cavity is formed in the power rotating shaft, and the functional box body is fixedly connected with the power rotating shaft.

Preferably, the feeding mechanism comprises a storage space arranged at the left side and the right side of the power space, wherein the two storage spaces are distributed in a bilateral symmetry manner relative to the central line of the power space, the two communication T-shaped rods are fixedly connected to the upper side wall of the running space, the two communication T-shaped rods are distributed in a bilateral symmetry manner relative to the central line of the power space, the communication T-shaped rods are respectively provided with a vertically penetrating communication cavity, each communication cavity is respectively communicated with the corresponding storage space, the lower ends of the communication T-shaped rods are in sliding connection with the upper side wall of the feeding space, the two lower side walls of the communication cavities are all communicated with the feeding space, the lower side walls of the feeding space are communicated with two feeding runners, the two feeding runners are distributed in a bilateral symmetry manner relative to the central line of the functional box, the left side wall and the right side wall of each feeding runner are respectively communicated with a feeding runner, the upper side wall of the two feeding runners are respectively connected with a control slide plate, the control slide plate is respectively in the two side walls of the feeding runner are respectively communicated with the main runner, the two side runners are respectively communicated with the two side runners, the two side runners are respectively correspond to the two side runners, the two side runners are respectively communicated with the two side runners, and the two side runners are respectively correspond to the two side runners, and the two side runners are respectively connected with the two side runners are respectively, and the two side runners are respectively.

Under the initial condition, the slide opening with throw the material runner and be linked together, when needs carry out waste water treatment, with waste water through operation space left side opening is added in the operation space, with potassium permanganate is added in the parking space, start at this moment power motor, thereby drive the power pivot rotates, thereby drives the function box rotates, thereby drives throw material and leak net rotation, thereby make potassium permanganate in the parking space enter into through throwing the material runner in the material leak net chamber simultaneously follow function box rotates and stirs the organic matter in the waste water simultaneously even and react, thereby abundant organic matter in the waste water is got rid of, thereby has made things convenient for the follow-up ammonium chloride in the extraction waste water greatly.

Preferably, the adsorption mechanism comprises two driving motors fixedly mounted on the upper side wall of the main energy space, the two driving motors are symmetrically distributed about the central line of the main energy space, each driving motor output end is fixedly connected with a driving screw, each driving screw is respectively sleeved with a driving slide block, each driving slide block is in threaded connection with the driving screw, each driving slide block is respectively provided with a driving slide groove, each driving slide groove is respectively connected with an adsorption slide block in a sliding manner, each adsorption slide block is respectively hinged with an upper adsorption arm, each upper adsorption arm is respectively connected with a lower adsorption arm in a sliding manner, an adsorption spring is connected between the lower adsorption arms and the upper adsorption arms, the central side wall is rotationally connected with two adsorption rotating shafts behind the main energy space, each adsorption rotating shaft is respectively and correspondingly fixedly connected with the lower adsorption arms, each lower adsorption arm is respectively and slidably connected with an adsorption slide column, each adsorption slide column is respectively and fixedly connected with a slide column clamping block, each adsorption slide block is respectively sleeved with a reset spring, the lower end face is respectively connected with the lower adsorption material block, and the lower end face is not fixedly connected with the lower adsorption material block.

Under the initial condition, adsorption spring is in tensile state, reset spring is in tensile state, when adsorption material post is adsorbed the organic matter of desorption and some impurity in the waste water and is accomplished the back start two driving motor, thereby drive left side driving screw anticlockwise rotates, right side driving screw clockwise rotates, thereby drives the drive slider slides down, thereby drives adsorption slider slides down, thereby drives upward adsorption arm slides down, thereby makes adsorption spring compresses, thereby makes upward adsorption arm slide in the lower adsorption arm, because adsorption pivot controls, thereby makes adsorption slide column upward movement, thereby drives adsorption fixed block upward movement, thereby makes adsorption material post upward movement gets into in the main energy space, so that adsorption fixed block up end butt arrives main energy space upper side wall, when cleaning mechanism is to adsorption material post washs the back, again drive driving motor makes adsorption material post motion in the space.

Preferably, the cleaning mechanism comprises a water storage tank body sleeved on the power rotating shaft, the water storage tank body is in sliding connection with the power rotating shaft, a water storage space is arranged in the water storage tank body, the water storage space is communicated with the power rotating shaft, two cleaning rotating shafts are rotatably connected to the lower end face of the water storage tank body, the two cleaning rotating shafts are symmetrically distributed about the central line of the water storage tank body, each cleaning rotating shaft is respectively provided with a cleaning rotating shaft cavity, the cleaning rotating shaft cavity is communicated with the water storage space, the cleaning rotating shafts downwards extend and penetrate through the lower side wall of the power space and the upper end face of the functional tank body into the main energy space, cleaning gears are respectively sleeved on the cleaning rotating shafts, each cleaning gear is respectively and fixedly connected with the corresponding cleaning rotating shaft, the lower side of the power rotating shaft is sleeved with a power gear, the power gear is in sliding connection with the power rotating shaft, the upper end face of the power gear is fixedly connected with two fixing rods, the upper end faces of the fixing rods are fixedly connected with the upper side wall of the running space, the power gear is respectively communicated with the cleaning cylinder body, the cleaning cylinder is fixedly connected with the cleaning cylinder body, and the cleaning cylinder body is respectively provided with the cleaning cylinder body.

In the initial state, when the adsorption material column is required to enter the main energy space, the cleaning liquid is enabled to enter the cleaning rotating shaft cavity due to the rotation of the power rotating shaft, and then enters the column space, the cleaning liquid penetrates into the brush outside the cleaning brush barrel through the cleaning brush barrel, and the functional box rotates to drive the cleaning rotating shaft to rotate around the power rotating shaft so as to drive the cleaning gear to rotate around the power rotating shaft, and the cleaning gear is meshed with the power gear so as to drive the cleaning rotating shaft to rotate so as to drive the cleaning column to rotate so as to drive the cleaning brush barrel to rotate so as to comprehensively clean the adsorption material column, so that adsorbed impurities fall into the collecting mechanism to be collected and concentrated.

Preferably, the collecting mechanism comprises a lead screw slider slidably connected to each driving lead screw, a connecting arm is connected between each lead screw slider and the corresponding control slide plate, one end of the connecting arm is hinged to the control slide plate, the other end of the connecting arm is hinged to the lead screw slider, a downward opening penetrating opening is formed in the lower side wall of the main energy space, the penetrating opening is communicated with two collecting spaces, a collecting box body is slidably connected to each collecting space, a collecting slide block is slidably connected to the groove surface of each collecting box body, a larger friction force exists between the collecting slide block and the corresponding collecting box body, each collecting slide block extends to extend away from the direction of the penetrating opening to penetrate through the functional box body, each collecting slide block is slidably connected to the corresponding end face of the machine body, the corresponding collecting slide blocks can be pulled out from the left end face and the right end face of the machine body, a collecting slide groove is arranged on the upper side of each collecting space, each collecting slide groove is communicated with the main energy space, a collecting box body is slidably connected to the collecting slide groove, a limit stop sleeve is fixedly connected to the corresponding end face of the corresponding limit stop sleeve, the two limit posts are fixedly connected to the corresponding limit posts, the two limit posts are fixedly connected to the corresponding end faces of the collecting slide posts respectively, the collecting slide blocks are fixedly connected to the two limit posts respectively, the collecting slide posts are fixedly extend to the corresponding end faces of the two limit posts respectively, and the limit posts are fixedly connected to the corresponding end faces respectively, and the limit posts are fixedly connected to the corresponding limit posts respectively extend to the corresponding end faces respectively, every spacing sliding column is last to be overlapped respectively and is equipped with spacing spring, spacing spring one end with spacing fixed block fixed connection, the other end with lateral wall fixed connection under the main energy space, lateral wall intercommunication has the decurrent feed opening of opening under the operation space, fixedly connected with interception screen in the feed opening, the impurity in interception screen class interception waste water fixedly connected with check valve in the feed opening.

Under initial condition, spacing spring is in compression state, collection spring is in compression state, when drive slider down move to with the correspondence when lead screw slider up end butt, thereby make the compression of collection spring, when drive slider continues down motion, thereby drive the linking arm down motion, thereby drive control slide is to keeping away from the main energy space central line direction slides, thereby dead slide opening with throw material runner disconnection makes potassium permanganate no longer enter into in the net chamber of leaking, thereby collection spring compression promotes thereby the limit slider is towards being close to main energy space central line direction slides, thereby makes limit slider butt in limit slide, when collection spring compression is bigger and bigger, surpass limit spring elasticity is time, makes limit slider promotion limit slide upwards slides, thereby makes limit slider continues to be close to main energy space central line direction slides, thereby drives the collection box is close to main energy space central line direction slides, thereby drive the potassium permanganate no longer enters into in the net chamber, thereby the collection box is carried out to the motion of two end faces is reached to the drive the limit slider is close to main energy space central line direction slides, thereby the left side is adsorbed to the removal of material is carried out to the filter cartridge, thereby the filter cartridge is adsorbed to the removal mechanism is carried out to the left side and is reached when the end face is removed to the filter cartridge is moved to the filter cartridge.

In summary, the invention has the beneficial effects that: compared with the traditional wastewater treatment, the method can effectively remove organic matters and other impurities in the wastewater generated by the production of methyl tin mercaptide, not only remove the organic matters and other impurities, but also retain ammonium chloride in the solution, thereby providing great convenience for the subsequent ammonium chloride treatment of the treated wastewater, extracting useful substances from the wastewater, and greatly reducing the cost of wastewater treatment of enterprises.

Drawings

FIG. 1 is a cross-sectional view showing the whole structure of the device for treating impurity organic matters in the wastewater from the methyl tin mercaptide production.

Fig. 2 is an enlarged partial schematic view of the present invention at a in fig. 1.

Fig. 3 is an enlarged partial schematic view of the present invention at B in fig. 1.

Fig. 4 is an enlarged partial schematic view of the present invention at C in fig. 1.

Fig. 5 is a partially enlarged schematic view of the present invention at D in fig. 1.

Fig. 6 is an enlarged partial schematic view of the invention at E in fig. 1.

Fig. 7 is an enlarged partial schematic view of the present invention at F in fig. 1.

In the figure, a body 10; a storage space 11; an operation space 13; a power space 14; a power motor 15; a power shaft 16; a power spindle chamber 17; a water storage space 18; a water storage tank 19; a fixing rod 20; a power gear 21; cleaning the gear 22; cleaning the rotating shaft 23; a communicating T-bar 24; a communication chamber 25; a functional casing 26; a feeding space 27; a main energy space 28; a drive motor 29; driving the lead screw 30; a driving chute 31; a feeding and leaking net 32; a mesh leakage chamber 33; a suction fixing block 34; a column of adsorbent material 35; a feed opening 36; a blocking screen 37; a one-way valve 38; a through opening 39; a collection space 40; a collection box 41; a collection slide 42; a screw slider 43; a collection spring 44; a feeding chute 45; a feed runner 46; cleaning the spindle chamber 47; cleaning the column 48; cleaning the brush pot 49; a column space 50; a driving slider 51; an adsorption slider 52; an upper suction arm 53; a suction spring 54; a lower suction arm 55; an adsorption shaft 56; a collection chute 57; a limit spring 58; a limit strut 59; a limit fixed block 60; a limit slider 61; a connecting arm 62; a control slide 63; a sled opening 64; a suction spool 65; a spool latch 66; a return spring 67.

Detailed Description

The following are specific embodiments of the present invention and the technical solutions of the present invention will be further described with reference to the accompanying drawings, but the present invention is not limited to these embodiments.

As shown in fig. 1, a treatment device for impurity organic matters in wastewater generated in methyl tin mercaptide production comprises a machine body 10, and is characterized in that: the waste water treatment device is characterized in that a power space 14 is arranged in the machine body 10, a power mechanism is arranged in the power space 14 and is used for providing power for the device, an operation space 13 is arranged at the lower side of the power space 14, a functional box 26 is connected in a sliding mode in the operation space 13, a circular feeding space 27 is arranged in the functional box 26, feeding mechanisms are respectively arranged in the feeding space 27 and are used for feeding potassium permanganate for removing organic matters in waste water, a main energy space 28 is arranged in the functional box 26, an adsorption mechanism is arranged in the main energy space 28 and is used for adsorbing impurities in the waste water and removed organic matters, a cleaning mechanism is arranged in the main energy space 28 and is used for cleaning adsorption materials, two collecting spaces 40 are arranged at the lower side of the main energy space 28 and are distributed in a bilateral symmetry mode relative to the main energy space 28, and each collecting space 40 is respectively provided with a collecting mechanism, and the collecting mechanism is used for collecting waste generated by cleaning.

As shown in fig. 1, the power mechanism includes a power motor 15 fixedly mounted on an upper side wall of the power space 14, an output end of the power motor 15 is fixedly connected with a power rotating shaft 16, the power rotating shaft 16 extends downward to penetrate through a lower side wall of the power space 14 and an upper end surface of the functional box 26 to enter the main energy space 28, a power rotating shaft cavity 17 is arranged in the power rotating shaft 16, and the functional box 26 is fixedly connected with the power rotating shaft 16.

Referring to fig. 1 and 6, the feeding mechanism includes storage spaces 11 disposed on left and right sides of the power space 14, the two storage spaces 11 are symmetrically distributed about a center line of the power space 14, two communicating T-shaped rods 24 are fixedly connected to an upper side wall of the operating space 13, each of the two communicating T-shaped rods 24 is symmetrically distributed about a center line of the power space 14, a vertically penetrating communication cavity 25 is disposed in each of the communicating T-shaped rods 24, each of the communicating cavities 25 is respectively communicated with the corresponding storage space 11, lower ends of the two communicating T-shaped rods 24 are both connected with an upper side wall of the feeding space 27 in a sliding manner, lower side walls of the two communicating cavities 25 are both connected with the feeding space 27 in a sliding manner, lower side walls of the feeding space 27 are both communicating with two feeding runners 46, two feeding runners 46 are symmetrically distributed about a center line of the functional box body 26 in a left-right manner, each of the feeding runners 46 is respectively communicated with a feeding runner 45, each of the left side walls and right side walls of the communicating runners 45 is respectively communicated with a main box 32, each of the two sliding runners 63 is respectively connected with a main box 32, a plurality of the two sliding boxes 32 are respectively connected with a plurality of the sliding boards 63, a plurality of the sliding boards 63 are respectively connected with the two sliding boards 32, and each of the sliding boards 32 can extend into the main boxes 32, and each of the two sliding boards 32 can be respectively connected with the two sliding boards 32, and the 32 can extend to the main boxes 32, and each of the 32 can be connected to the main boxes 32, and can be connected to the 32, and have a 32, each of the grid leakage cavities 33 is respectively communicated with the corresponding feeding flow passage 46.

In the initial state, the slide plate opening 64 is communicated with the feeding runner 46, when waste water is required to be treated, waste water is added into the running space 13 through the opening on the left side of the running space 13, potassium permanganate is added into the storage space 11, the power motor 15 is started at the moment, so that the power rotating shaft 16 is driven to rotate, the functional box 26 is driven to rotate, the feeding grid 32 is driven to rotate, potassium permanganate in the storage space 11 is enabled to enter the feeding space 27 through the feeding runner 46 and simultaneously react with organic matters in the waste water uniformly while stirring the waste water along with the rotation of the functional box 26, and thus the organic matters in the waste water are fully removed, and the subsequent extraction of ammonium chloride in the waste water is greatly facilitated.

As shown in fig. 1, fig. 3, fig. 5 and fig. 7, the adsorption mechanism comprises two driving motors 29 fixedly installed on the upper side wall of the main energy space 28, the two driving motors 29 are symmetrically distributed on the central line of the main energy space 28, each driving motor 29 is provided with a driving screw 30 fixedly connected with the output end, each driving screw 30 is respectively sleeved with a driving sliding block 51, the driving sliding blocks 51 are in threaded connection with the driving screw 30, each driving sliding block 51 is respectively provided with a driving sliding groove 31, each driving sliding groove 31 is respectively connected with an adsorption sliding block 52 in a sliding manner, each adsorption sliding block 52 is respectively hinged with an upper adsorption arm 53, each upper adsorption arm 53 is respectively connected with a lower adsorption arm 55 in a sliding manner, an adsorption spring 54 is connected between the lower adsorption arms 55 and the upper adsorption arms 53, the rear side wall of the main energy space 28 is rotationally connected with two adsorption rotating shafts 56, each adsorption rotating shaft 56 is respectively fixedly connected with the corresponding lower adsorption arms 55, each lower adsorption sliding block 55 is respectively connected with an end face, each lower adsorption sliding block 55 is respectively connected with an upper end face and a lower adsorption material cylinder 67, each lower adsorption sliding block 65 is respectively connected with an upper end face and a lower end face 67 of the adsorption material cylinder 34 is respectively connected with a reset cylinder 34, and the lower end face 67 is respectively fixedly connected with the lower end face of the adsorption material cylinder 34.

In the initial state, the adsorption spring 54 is in a stretched state, the reset spring 67 is in a stretched state, when the adsorption material column 35 adsorbs the removed organic matters and other impurities in the wastewater, the two driving motors 29 are started, so that the driving screw 30 on the left side is driven to rotate anticlockwise, the driving screw 30 on the right side is driven to rotate clockwise, so that the driving slider 51 is driven to slide downwards, the adsorption slider 52 is driven to slide downwards, the upper adsorption arm 53 is driven to slide downwards, the adsorption spring 54 is compressed, the upper adsorption arm 53 is driven to slide into the lower adsorption arm 55, and the adsorption sliding column 65 is driven to move upwards due to the left and right adsorption rotating shafts 56, so that the adsorption fixing block 34 is driven to move upwards, the adsorption material column 35 is driven to move upwards into the main energy space 28, the upper end surface of the adsorption fixing block 34 is abutted to the upper side wall of the main energy space 28, and when the cleaning mechanism cleans the adsorption material column 35, and then the adsorption material column 35 is driven to move in the space 13.

Referring to fig. 1 and 2, the cleaning mechanism comprises a water storage tank 19 sleeved on the power rotating shaft 16, the water storage tank 19 is slidably connected with the power rotating shaft 16, a water storage space 18 is arranged in the water storage tank 19, the water storage space 18 is communicated with the power rotating shaft 16, two cleaning rotating shafts 23 are rotatably connected to the lower end surface of the water storage tank 19, the two cleaning rotating shafts 23 are symmetrically distributed on the central line of the water storage tank 19, a cleaning rotating shaft cavity 47 is respectively arranged in each cleaning rotating shaft 23, the cleaning rotating shaft cavity 47 is communicated with the water storage space 18, the cleaning rotating shafts 23 extend downwards to penetrate through the lower side wall of the power space 14 and the upper end surface of the functional box 26 to enter the main energy space 28, a cleaning gear 22 is respectively sleeved on each cleaning rotating shaft 23, each cleaning gear 22 is fixedly connected with the corresponding cleaning rotating shaft 23, a power gear 21 is sleeved on the lower side of the power rotating shaft 16, the power rotating shaft 21 is slidably connected with the power rotating shaft 16, each cleaning rotating shaft 21 is fixedly connected with the corresponding cleaning rotating shaft 20, a cleaning brush cylinder 48 is fixedly connected with the two cleaning cylinders 48, a cleaning cylinder 48 is fixedly arranged on the cleaning cylinder 48, a cleaning cylinder 48 is fixedly connected with the cleaning cylinder 48, and each cleaning cylinder 48 is fixedly connected with the cleaning cylinder 48, the cleaning brush cartridge 49 is used to clean the adsorbing material.

In the initial state, when the adsorption material column 35 needs to be filled with cleaning liquid and enters the main energy space 28, the power rotating shaft 16 rotates, so that the cleaning liquid in the water storage space 18 enters the cleaning rotating shaft cavity 47 and enters the column space 50, the cleaning brush tube 49 permeates onto the brush outside the cleaning brush tube 49, the functional box 26 rotates to drive the cleaning rotating shaft 23 to rotate around the power rotating shaft 16, so that the cleaning gear 22 rotates around the power rotating shaft 16, and the cleaning gear 22 is meshed with the power gear 21 to drive the cleaning rotating shaft 23 to rotate, so that the cleaning column 48 is driven to rotate, so that the cleaning brush tube 49 is driven to rotate to comprehensively clean the adsorption material column 35, and the adsorbed impurities are removed and fall into the collecting mechanism to be collected and concentrated.

As shown in fig. 1 and 5, the collecting mechanism includes a screw slider 43 slidably mounted on each driving screw 30, a connecting arm 62 is connected between each screw slider 43 and the corresponding control slide 63, one end of the connecting arm 62 is hinged to the control slide 63, the other end is hinged to the screw slider 43, a through opening 39 with a downward opening is communicated with the lower side wall of the main energy space 28, the through opening 39 is communicated with two collecting spaces 40, a collecting box 41 is slidably connected in each collecting space 40, a collecting slider 42 is slidably connected in a groove surface of each collecting box 41, a large friction force exists between the collecting slider 42 and the collecting box 41, each collecting slider 42 extends in a direction away from the through opening 39 to penetrate through the functional box 26, each collecting slide block 42 is slidably connected with a corresponding end face of the machine body 10, the corresponding collecting slide blocks 42 can be pulled out from the left end face and the right end face of the machine body 10, a collecting slide groove 57 is arranged at the upper side of each collecting space 40, each collecting slide groove 57 is communicated with the main energy space 28, a limit slide block 61 is slidably connected in each collecting slide groove 57, the lower end face of each limit slide block 61 is fixedly connected with the corresponding collecting box 41, a collecting spring 44 is sleeved on each driving screw 30, one end of each collecting spring 44 is fixedly connected with the corresponding screw slide block 43, the other end of each collecting spring is fixedly connected with the corresponding limit slide block 61, two limit slide columns 59 are slidably connected with the lower side wall of the main energy space 28, the two limit slide columns 59 are symmetrically and respectively left and right with respect to the center line of the through opening 39, each limiting slide column 59 extends downwards to penetrate through the corresponding collecting slide groove 57, the upper end face of each limiting slide column 59 is fixedly connected with a limiting fixed block 60, each limiting slide column 59 is sleeved with a limiting spring 58, one end of each limiting spring 58 is fixedly connected with the limiting fixed block 60, the other end of each limiting spring 58 is fixedly connected with the lower side wall of the main energy space 28, the lower side wall of the operating space 13 is communicated with a downward-opening blanking opening 36, an interception drain net 37 is fixedly connected in the blanking opening 36, and impurities in wastewater are intercepted by the interception drain net 37, and a one-way valve 38 is fixedly connected in the blanking opening 36.

In the initial state, the limit spring 58 is in a compressed state, the collection spring 44 is in a compressed state, when the driving slide block 51 moves downwards to be abutted against the upper end face of the corresponding screw rod slide block 43, so that the collection spring 44 is compressed, when the driving slide block 51 continues to move downwards, the connecting arm 62 is driven to move downwards, the control slide plate 63 is driven to slide away from the central line of the main energy space 28, the dead slide plate opening 64 is disconnected from the feeding runner 46, so that potassium permanganate does not enter the grid leakage cavity 33 any more, at the moment, the collection spring 44 compresses to push the limit slide block 61 to slide close to the central line of the main energy space 28, so that the limit slide block 61 is abutted against the limit slide post 59, when the compression of the collecting spring 44 is larger and larger, and the elasticity of the limiting spring 58 is exceeded, the limiting slide block 61 pushes the limiting slide column 59 to slide upwards, so that the limiting slide block 61 continues to slide towards the direction close to the central line of the main energy space 28, the collecting box body 41 is driven to slide towards the direction close to the central line of the main energy space 28, the collecting slide blocks 42 are driven to move together until the end faces of the two collecting box bodies 41 are abutted, the cleaning mechanism cleans impurities adsorbed on the adsorbing material column 35 and falls onto the upper end face of the collecting slide block 42 for collecting, the adsorbing material column 35 is reset, the collecting slide block 42 is pulled out from the left side and the right side of the machine body 10 when the collecting box body 41 is reset, and the impurities collected in the collecting slide block 42 are processed, finally, the one-way valve 38 is opened to discharge the treated wastewater for ammonium chloride extraction.

In summary, the invention has the beneficial effects that: compared with the traditional wastewater treatment, the method can effectively remove organic matters and other impurities in the wastewater generated by the production of methyl tin mercaptide, not only remove the organic matters and other impurities, but also retain ammonium chloride in the solution, thereby providing great convenience for the subsequent ammonium chloride treatment of the treated wastewater, extracting useful substances from the wastewater, and greatly reducing the cost of wastewater treatment of enterprises.

The foregoing has shown and described the basic principles, principal features and advantages of the invention. It will be understood by those skilled in the art that the present invention is not limited to the foregoing embodiments, and that the foregoing embodiments and description are merely illustrative of the principles of the invention, and various changes and modifications may be made without departing from the spirit and scope of the invention, and these changes and modifications fall within the scope of the invention as hereinafter claimed. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (1)

1. A processing apparatus for methyl tin mercaptide waste water impurity organic matter, including organism (10), its characterized in that: a power space (14) is arranged in the machine body (10), a power mechanism is arranged in the power space (14), the power mechanism is used for providing power for the device, an operation space (13) is arranged at the lower side of the power space (14), a functional box body (26) is connected in the operation space (13) in a sliding manner, a circular feeding space (27) is arranged in the functional box body (26), feeding mechanisms are respectively arranged in the feeding space (27), the feeding mechanisms are used for feeding potassium permanganate for removing organic matters in wastewater, a main energy space (28) is arranged in the functional box body (26), an adsorption mechanism is arranged in the main energy space (28), the adsorption mechanism is used for adsorbing impurities in the wastewater and removed organic matters, a cleaning mechanism is arranged in the main energy space (28), the cleaning mechanism is used for cleaning adsorption materials, two collecting spaces (40) are arranged at the lower side of the main energy space (28), the two collecting spaces (40) are respectively arranged in a left-right symmetrical mode relative to the main energy space (28), and each collecting mechanism is symmetrically distributed on the left side of the main energy space (28) and is respectively used for collecting waste; the power mechanism comprises a power motor (15) fixedly arranged on the upper side wall of the power space (14), the output end of the power motor (15) is fixedly connected with a power rotating shaft (16), the power rotating shaft (16) downwards extends to penetrate through the lower side wall of the power space (14) and the upper end surface of the functional box body (26) to enter the main energy space (28), a power rotating shaft cavity (17) is arranged in the power rotating shaft (16), and the functional box body (26) is fixedly connected with the power rotating shaft (16); the feeding mechanism comprises a storage space (11) arranged at the left side and the right side of a power space (14), wherein the two storage spaces (11) are symmetrically distributed leftwards and rightwards relative to the central line of the power space (14), the upper side wall of an operating space (13) is fixedly connected with two communication T-shaped rods (24), the two communication T-shaped rods (24) are symmetrically distributed leftwards and rightwards relative to the central line of the power space (14), each communication T-shaped rod (24) is respectively provided with a vertically penetrating communication cavity (25), each communication cavity (25) is respectively communicated with the corresponding storage space (11), the lower ends of the two communication T-shaped rods (24) are in sliding connection with the upper side wall of a feeding space (27), the lower side walls of the two communication cavities (25) are respectively communicated with the feeding space (27), the lower side walls of the feeding space (27) are respectively communicated with two feeding runners (46), the two feeding runners (46) are symmetrically distributed leftwards and rightwards relative to the central line of the functional box (26) respectively provided with two feeding runners (45), each feeding runner (28) can respectively extend into the main runners (63), each control sliding plate (63) is respectively provided with a sliding plate opening (64) penetrating up and down, the sliding plate openings (64) are communicated with the corresponding feeding flow channels (46), the lower end face of the functional box body (26) is fixedly connected with two feeding leakage nets (32), the two feeding leakage nets (32) are symmetrically distributed left and right relative to the central line of the functional box body (26), the feeding leakage nets (32) are formed by encircling porous leakage nets, each feeding leakage net (32) is respectively provided with a leakage net cavity (33), and each leakage net cavity (33) is respectively communicated with the corresponding feeding flow channel (46); the adsorption mechanism comprises two driving motors (29) fixedly mounted on the upper side wall of the main energy space (28), the two driving motors (29) are symmetrically distributed on the center line of the main energy space (28), each driving motor (29) is fixedly connected with a driving screw (30) at the output end, each driving screw (30) is respectively sleeved with a driving sliding block (51), each driving sliding block (51) is in threaded connection with the driving screw (30), each driving sliding block (51) is respectively provided with a driving sliding groove (31), each driving sliding groove (31) is respectively connected with an adsorption sliding block (52) in a sliding manner, each adsorption sliding block (52) is respectively hinged with an upper adsorption arm (53), each upper adsorption arm (53) is respectively connected with a lower adsorption arm (55), an adsorption spring (54) is connected between each lower adsorption arm (55) and the upper adsorption arm (53), the rear side wall of the main energy space (28) is rotationally connected with two rotary shafts (56), each adsorption sliding block (56) is respectively connected with each lower adsorption sliding block (65) correspondingly to each lower adsorption sliding block (65), each adsorption sliding column (65) is respectively sleeved with a reset spring (67), one end of each reset spring (67) is fixedly connected with the corresponding lower end face of each lower adsorption arm (55), the other end of each reset spring is fixedly connected with the upper end face of each sliding column clamping block (66), two adsorption sliding columns (65) are hinged with adsorption fixing blocks (34), the lower end faces of the adsorption fixing blocks (34) are slidably connected with adsorption material columns (35), and the adsorption material columns (35) slide up and down relative to the lower end faces of the adsorption fixing blocks (34) and cannot be separated from the adsorption fixing blocks (34); the cleaning mechanism comprises a water storage tank body (19) sleeved on the power rotating shaft (16), the water storage tank body (19) is in sliding connection with the power rotating shaft (16), a water storage space (18) is arranged in the water storage tank body (19), the water storage space (18) is communicated with the power rotating shaft (16), two cleaning rotating shafts (23) are rotatably connected to the lower end face of the water storage tank body (19), the two cleaning rotating shafts (23) are symmetrically distributed leftwards and rightwards relative to the central line of the water storage tank body (19), a cleaning rotating shaft cavity (47) is respectively arranged in each cleaning rotating shaft (23), the cleaning rotating shaft cavity (47) is communicated with the water storage space (18), the cleaning rotating shaft (23) downwards extends to penetrate through the lower side wall of the power space (14) and the upper end face of the functional box body (26) to enter the main energy space (28), cleaning gears (22) are respectively sleeved on the cleaning rotating shafts (23), the cleaning gears (22) are respectively fixedly connected with the corresponding cleaning rotating shafts (23), the power rotating shafts (21) are fixedly connected with the power rotating shafts (21), and the power rotating shafts (21) are fixedly connected with the power rotating shafts (20), the upper end faces of the two fixing rods (20) are fixedly connected with the upper side wall of the running space (13), the power gears (21) are meshed with the two cleaning gears (22), the lower end face of each cleaning rotating shaft (23) is fixedly connected with a cleaning cylinder (48), a cylinder space (50) is respectively arranged in each cleaning cylinder (48), each cylinder space (50) is respectively communicated with a corresponding cleaning rotating shaft cavity (47), a cleaning brush cylinder (49) is respectively sleeved on each main energy space (28), each cleaning brush cylinder (49) is fixedly connected with each cleaning cylinder (48), and each cleaning brush cylinder (49) is used for cleaning adsorbing materials; the collecting mechanism comprises a screw rod sliding block (43) which is slidably connected with each driving screw rod (30), a connecting arm (62) is connected between each screw rod sliding block (43) and the corresponding control sliding plate (63), one end of each connecting arm (62) is hinged with the corresponding control sliding plate (63), the other end of each connecting arm is hinged with the corresponding screw rod sliding block (43), the lower side wall of the main energy space (28) is communicated with a downward through opening (39), the through opening (39) is communicated with two collecting spaces (40), each collecting space (40) is slidably connected with a collecting box body (41) respectively, a groove surface of each collecting box body (41) is slidably connected with a collecting sliding block (42) respectively, a large friction force exists between each collecting sliding block (42) and each collecting box body (41), each collecting sliding block (42) extends to penetrate through the functional box body (26) in a direction away from the through opening (39), each collecting sliding block (42) is correspondingly connected with the corresponding left side (10) of the main body (40) from the corresponding collecting box body (57), each collecting chute (57) is respectively and slidably connected with a limit slide block (61), the lower end face of each limit slide block (61) is respectively and fixedly connected with a corresponding collecting box body (41), each driving screw (30) is respectively and fixedly sleeved with a collecting spring (44), one end of each collecting spring (44) is fixedly connected with the corresponding screw slide block (43), the other end of each collecting spring is fixedly connected with the corresponding limit slide block (61), the lower side wall of the main energy space (28) is slidably connected with two limit slide columns (59), the two limit slide columns (59) are symmetrically arranged left and right relative to the center line of the penetrating opening (39) respectively, each limit slide column (59) extends downwards and penetrates into the corresponding collecting chute (57), the upper end face of each limit slide column (59) is respectively and fixedly connected with a limit fixed block (60), each limit slide column (59) is respectively sleeved with a limit spring (58), one end of each limit spring (58) is fixedly connected with the corresponding limit fixed block (60), the other end of each limit spring (58) is fixedly connected with the corresponding limit fixed block (36), the lower side wall of the main energy space (28) is fixedly connected with a lower side wall (36) of the main energy space (13) is fixedly connected with a lower side wall (36), the lower side wall of the net (36) is fixedly connected with a lower side wall (36), the interception leakage net (37) intercepts impurities in wastewater, and a one-way valve (38) is fixedly connected in the feed opening (36).