CN118045463A - Waste gas treatment device for sebacic acid sewage pool treatment bin - Google Patents

Abstract

The application relates to a waste gas treatment device for a treatment bin of a sebacic acid sewage pool, which relates to the field of waste gas separation and purification technology in sebacic acid production, and comprises a plurality of adsorption purification bins arranged on the outer side of the treatment bin, a storage bracket arranged in the adsorption purification bin, a plurality of storage bins arranged in the storage bracket and used for storing active carbon, a change mechanism arranged on the storage bracket and used for enabling the storage bin and the treatment bin to exchange gas and simultaneously facilitating opening or closing of the storage bin and changing of the active carbon, and a recycling mechanism arranged between the storage bracket and the adsorption purification bin and used for moving the storage bracket to the outer top of the adsorption purification bin and adjusting the inclination angle of the storage bracket so as to rapidly insolate the active carbon in the storage bin. The application has the effects of absorbing and separating malodorous gas emitted by sewage in the sewage pool, purifying the working environment in the treatment cabin and reducing the pollution to the surrounding environment.

Description

Waste gas treatment device for sebacic acid sewage pool treatment bin

Technical Field

The application relates to the technical field of waste gas separation and purification in sebacic acid production, in particular to a waste gas treatment device for a sebacic acid sewage pool treatment bin.

Background

Sebacic acid is an important chemical raw material and is widely used for producing engineering plastics, epoxy resin curing agents, high-temperature resistant lubricants, synthetic lubricating oil, sebacic anhydride, polyester resins, alcohol-phenol resins, glass fiber reinforcing agents, cosmetics and other products.

At present, a certain amount of industrial sewage can be generated in the sebacic acid production process, the sewage is temporarily stored in a sewage tank, a treatment bin is arranged on the outer side of the sewage tank, various sewage treatment devices are arranged in the treatment bin, staff can carry out purification treatment on the sewage by controlling the sewage treatment devices, but the sewage in the sewage tank can emit malodorous gas, the malodor can cause the staff to generate discomfort in the treatment bin, and the staff can also have a certain influence on health by inhaling the malodor for a long time.

Disclosure of Invention

In order to absorb and separate malodorous gas emitted by sewage in a sewage tank, purify the working environment in a treatment bin and reduce the pollution to the surrounding environment, the application provides a waste gas treatment device for a treatment bin of a sebacic acid sewage tank.

The application provides a waste gas treatment device for a treatment bin of a sebacic acid wastewater pool, which adopts the following technical scheme:

The utility model provides a sebacic acid effluent water sump treatment bin exhaust-gas treatment device, including a plurality of adsorption purification bin that are used for setting up in the treatment bin outside, set up in adsorption purification bin's storage support, a plurality of sets up the storage bin that are used for depositing activated carbon in the storage support, set up and be used for making to deposit bin and treatment bin carry out gas exchange and be convenient for open or close the reloading mechanism who deposits the bin and change activated carbon simultaneously on the storage support, and set up and be used for removing the storage support to the outer top of adsorption purification bin and adjust the storage support inclination in order to carry out quick reuse mechanism who insolate to depositing the indoor activated carbon of bin between storage support and adsorption purification bin.

By adopting the technical scheme, after the sewage in the sewage pool emits the malodorous gas, the malodorous gas enters a storage bin chamber on the storage bracket through the reloading mechanism, and then the malodorous gas is absorbed and separated by the activated carbon in the storage bin chamber, so that the malodorous smell in the treatment bin chamber is reduced, the working environment in the treatment bin chamber is purified, and the uncomfortable feeling of staff is greatly reduced; then, the activated carbon has saturation degree on the absorption of gas, after the activated carbon in the storage bin is used for a period of time to absorb malodorous gas and is close to saturation, a worker periodically moves the storage bracket to the outer top of the adsorption purification bin through the recycling mechanism, adjusts the inclination angle of the storage bracket, so that the inside of the storage bin can receive larger illumination area, and enables the activated carbon in the storage bin to be quickly insolated, on one hand, the malodorous gas absorbed in the activated carbon is quickly decomposed under illumination, on the other hand, the air in the treatment bin is relatively moist, the activated carbon can absorb water vapor in the air, the humidity in the treatment bin is reduced, the working environment in the treatment bin is improved, the moisture in the activated carbon can be evaporated after insolation, the activity of the activated carbon is improved, the subsequent adsorption malodorous gas absorption efficiency is higher, and the storage bracket is moved to the outer top of the adsorption purification bin, so that the storage bin on the storage bracket is not easy to be blocked, and the storage bin on the storage bracket is easier to receive illumination; wherein the staff can carry out a lot of reuse through reuse mechanism to the active carbon to reduce the cost of the foul gas in the purification treatment bin, and the active carbon is the loss article, and its activity can greatly reduced after long-term reuse, and the staff can accomplish the change to the active carbon fast through changing the dress mechanism cooperation reuse mechanism, improves the purification efficiency to the foul gas in the treatment bin.

Optionally, the recycling mechanism comprises a lifting frame fixedly arranged at the top of the outer side of the adsorption purification bin, a lifting connecting component arranged between the storage bracket and the lifting frame and used for connecting the storage bracket with the lifting frame and simultaneously driving the storage bracket to lift up and down, a horizontal moving component arranged between the storage bracket and the adsorption purification bin and used for driving the storage bracket to move towards one side close to or far away from the treatment bin, a turnover block fixedly arranged below the storage bracket, and a self-locking turnover connecting component arranged between the turnover block and the adsorption purification bin and used for driving the turnover block and the storage bracket to rotate along a horizontal axis and simultaneously locking the rotation angle of the storage bracket;

Lifting holes are formed in the top of one side, far away from the treatment bin, of the adsorption purification bin, and an opening and closing assembly used for opening or closing the lifting holes is further arranged on one side, close to the lifting holes, of the top of the adsorption purification bin.

Through adopting the technical scheme, when the activated carbon in the storage bin is used for absorbing malodorous gas for a period of time to be close to saturation, and the activated carbon is periodically insolated by the recycling mechanism, firstly, a worker moves the storage bracket to one side of the adsorption purification bin far away from the treatment bin through the horizontal movement component, namely, the right lower part of the lifting hole, then the worker opens the lifting hole through the opening and closing component and connects the storage bracket with the lifting frame through the lifting connection component, then the storage bracket is driven to move upwards through the lifting connection component again, so that the storage bracket passes through the lifting hole to move to the outer side of the adsorption purification bin, and then the worker can adjust the inclination angle of the storage bracket through the self-locking overturning connection component, so that the inside of the storage bin receives larger illumination area, the activated carbon in the storage bin is insolated, and malodorous smell is quickly decomposed and volatilized; after the activated carbon in the storage bin is insolated for a certain time, under the cooperation of the self-locking overturning connecting component, the horizontal moving component, the lifting connecting component and the like, the storage bracket is quickly moved back into the adsorption purification bin, and the lifting hole is sealed by the opening and closing component, so that the insolation treatment of the activated carbon can be completed, the activity of the activated carbon is improved, and the subsequent malodorous gas adsorption efficiency is higher; meanwhile, after the activated carbon is repeatedly used for a long time and the activity is greatly reduced, a worker can move the storage bracket to the outer top of the adsorption purification bin, then the storage bracket is rotated to be horizontal through the self-locking overturning connecting component, the storage bin is opened through the replacement mechanism, and the activated carbon in the storage bin is cleaned and replaced with new activated carbon; wherein the staff can make to deposit the support and remove to the outside of absorption purification bin fast through the cooperation effect of horizontal migration subassembly and lift coupling assembling, cooperates the upset effect of auto-lock upset coupling assembling simultaneously, can the quick adjustment deposit the illumination angle of support, improves the insolation efficiency to the active carbon.

Optionally, the lifting connection assembly comprises an electric hoist arranged on the lifting frame, a lifting block fixedly arranged below a steel wire rope of the electric hoist, a supporting block fixedly arranged above the storage bracket, and a connecting block fixedly arranged on one side of the supporting block close to the lifting block; the lifting block is provided with a connecting groove along the horizontal direction, and the connecting block is spliced into the connecting groove.

Through adopting the technical scheme, when the storage bracket is driven to ascend and descend by the lifting connecting component, firstly, a worker changes the working personnel to drive the storage bracket, the supporting block and the connecting block to move to one side close to the lifting block by the horizontal moving component, so that the connecting block is inserted into the connecting groove on one side of the lifting block, then the worker starts the electric hoist, the electric hoist drives the lifting block to move upwards, and the lifting block can drive the connecting block, the supporting block and the storage bracket to move upwards and pass through the lifting hole to move to the outer side of the adsorption purification bin; otherwise, the staff controls the reverse operation of electric hoist and can drive the lifter and deposit the support and move down, wherein the lifter will deposit the support and descend and adsorb and purify the back in the storehouse, the lifter is pegged graft to the lift downthehole this moment, thereby be convenient for follow-up deposit the support and be connected with the lifter, and deposit the support and descend and adsorb and purify the back in the storehouse, only need the staff to drive through starting horizontal migration subassembly and deposit the support and remove to one side of keeping away from the lifter, can make connecting block and lifter separation, thereby need not manual operation, can break off the connection of depositing support and lift coupling assembling fast, the convenience of staff operation is improved.

Optionally, the one side that the supporting shoe was kept away from to the connecting block has set firmly the anticreep piece, the anticreep groove with anticreep piece looks adaptation has still been seted up in the elevating block, anticreep groove and spread groove intercommunication, the anticreep piece is pegged graft to the anticreep inslot, the high sum of anticreep piece and connecting block height of spread groove is greater than or equal to.

Through adopting above-mentioned technical scheme, the high sum of anticreep piece and connecting block height of spread groove is greater than or equal to, promptly when horizontal migration subassembly drive deposit the support to be close to lift piece one side and remove, the lift piece drives the anticreep piece and can be located the spread groove and remove to anticreep groove one side, and the anticreep piece can peg graft to the anticreep inslot under the effect of gravity after the lift piece upwards moves afterwards to when making electric hoist drive lift piece oscilaltion, the lift piece is difficult for producing the separation with the connecting block, improves the stability that lift piece and connecting block are connected.

Optionally, the self-locking overturning connecting component comprises two supporting seats respectively and fixedly arranged at the top of the adsorption purification bin at intervals, a rotating shaft rotatably connected to the supporting seats, a worm wheel fixedly sleeved on the outer side of one rotating shaft, a worm rotatably connected to the top of the adsorption purification bin, a driving motor arranged at one end of the worm, and a connecting part arranged between the rotating shaft and an overturning block at the bottom of the storage bracket and used for connecting the rotating shaft and the overturning block;

The two supporting seats are respectively positioned at two sides of the length direction of the lifting hole, and the worm is meshed with the worm wheel.

Through adopting the technical scheme, when the illumination angle of the storage bracket is adjusted through the self-locking overturning connecting component, the storage bracket is driven to pass through the lifting hole upwards through the lifting connecting component to completely move to the outer side of the top of the adsorption purification bin, then the rotating shaft is connected with the bottom of the storage bracket through the connecting component, then the driving motor is started, the driving motor drives the worm to rotate, the worm drives the worm wheel to rotate, the worm wheel drives the rotating shaft to rotate, and the rotating shaft can drive the storage bracket to rotate through the connecting component so as to adjust the illumination angle of the storage bracket; the rotary shaft can be connected or disconnected with the storage support quickly by operating the connecting component, so that the operation of the working personnel is facilitated, the worm and the worm wheel have self-locking property, and after the inclination angle of the storage support is adjusted by the working personnel, the activated carbon in the storage support reaches a better illumination angle, the storage support can be kept at the inclination angle for a long time under the condition of no power input, so that energy is saved.

Optionally, the connecting part comprises an inserting block which is connected with one side of the rotating shaft close to the overturning block in a sliding way and an electric telescopic rod which is arranged between the inserting block and the rotating shaft; the rotary shaft is internally provided with a sliding groove matched with the plug-in block, and the turnover block is also provided with a plug-in groove matched with the plug-in block.

Through adopting above-mentioned technical scheme, when making rotation axis and depositing the support bottom and being connected through adapting unit, at first the staff drives through lifting connection part and deposits the support and upwards remove to the outer top of absorption purification bin to make the spliced block align with the spliced groove of depositing support bottom upset piece, then the staff starts electric telescopic handle, electric telescopic handle can drive the spliced block and be located sliding in the groove and slide, and makes the free end of spliced block peg graft to the spliced inslot simultaneously, can realize the rotation axis and deposit the connection of support.

Optionally, the connecting component further comprises an infrared emitter connected to the supporting seat and used for emitting infrared light beams;

the infrared receiver is connected with the storage bracket and used for receiving the infrared light beam and then sending out a detection signal;

And the controller is connected with the infrared receiver and the lifting connecting component and is used for receiving the detection signal and outputting a control signal so that the lifting connecting component stops driving the storage bracket to move.

Through adopting above-mentioned technical scheme, the staff controls the in-process of depositing the support and upwards moving through lifting connection subassembly, after the grafting piece removes to with the jack-in groove parallel and level, infrared receiver received infrared beam that infrared transmitter sent this moment and sent detection signal, output control signal to lifting connection subassembly behind the controller received detection signal to make lifting connection subassembly stop driving and deposit the support and remove, thereby make the staff need not to observe the relative position of adjusting grafting piece and jack-in groove through the people's eye, improvement staff's convenience and precision.

Optionally, the horizontal moving assembly comprises a guide rail fixedly arranged in the adsorption purification cabin, a moving frame slidingly connected above the guide rail, a plurality of rollers rotatably connected on the moving frame, a band-type brake motor arranged between the rotating shaft of one roller and the moving frame, and a plurality of fixed blocks fixedly arranged on the moving frame and distributed at intervals along the vertical direction;

The movable rack is characterized in that a guide rail groove matched with the guide rail is formed below the movable rack, the idler wheels and the guide rail are both positioned in the guide rail groove, the idler wheels are abutted to the top of the guide rail, the fixed blocks are symmetrically distributed on two sides of the height direction of the storage rack, the fixed blocks are provided with fixed grooves matched with the storage rack, and the storage rack is slidably inserted into the fixed grooves along the vertical direction.

Through adopting above-mentioned technical scheme, when driving the storage support through horizontal migration subassembly and removing to the side that is close to or keeps away from the lift hole, at first the staff starts the band-type brake motor, and then band-type brake motor drives the gyro wheel and rotates, and the gyro wheel drives the movable frame and removes, and the movable frame can drive the storage support through the fixed block and remove, and wherein the staff only need to start the band-type brake motor and can realize the removal of storage support to make the staff insolate or change during operation more convenient, high-efficient to the active carbon; and the band-type brake motor has self-locking property after power failure, and after a worker moves the storage bracket into the processing bin, the storage bracket is not easy to shake and move.

Optionally, the opening and closing assembly comprises a waterproof cover plate hinged to the outer top wall of the adsorption purification bin and close to one side of the lifting hole, a magnet strip fixedly arranged on the waterproof cover plate, and an iron plate fixedly arranged on the outer top wall of the adsorption purification bin.

Through adopting above-mentioned technical scheme, when depositing the support and transferring and getting into and adsorb and purifying the storehouse in the back, staff rotatable waterproof apron is shutoff with the lift hole to make inside difficult getting into of sleet and adsorb purifying the storehouse, and waterproof apron closes the back, magnet strip and iron plate adsorb each other, thereby make waterproof apron be difficult for receiving influence such as wind-force to open, improve waterproof apron's stability.

Optionally, the reloading mechanism comprises two supporting frames hinged to two sides of the storage bracket respectively, a ventilation baffle fixedly arranged in the supporting frames, and a fixing piece arranged between one side of the supporting frames away from the hinge shaft and the storage bracket and used for fixing the ventilation baffle; a plurality of ventilation holes are formed in the ventilation baffles, and two ventilation baffles are respectively positioned on two sides of the storage bin.

Through adopting the technical scheme, after the activity of the activated carbon is greatly reduced for a long time in a repeated use mode, when a worker changes the activated carbon in the storage bracket through the changing mechanism, firstly, the worker moves the storage bracket to the outer top of the adsorption purification bin through the repeated use mechanism and rotates the storage bracket to the horizontal, then, the fixing piece at one side of the lower ventilation baffle is released, a plurality of storage bins on the storage bracket can be opened, then the activated carbon with the activity greatly reduced falls to the outer side of the storage bin under the action of gravity, then, the ventilation baffle at the lower side is fixed through the fixing piece, the fixing piece at one side of the upper ventilation baffle is released, the upper ventilation baffle is opened, and new activated carbon is added into the storage bin, so that the change of the activated carbon can be completed; wherein the ventilation baffle not only can support the activated carbon in the storage bin, but also the air vent on the ventilation baffle is favorable for carrying out gas exchange between the storage bin and the treatment bin, and the replacement mechanism is matched with the recycling mechanism to quickly rotate the storage bracket to the level, thereby facilitating the replacement work of the subsequent activated carbon and improving the purification efficiency of malodorous gas in the treatment bin.

In summary, the present application includes at least one of the following beneficial technical effects:

The staff can repeatedly use the activated carbon for a plurality of times through the recycling mechanism, so that the cost of purifying the malodorous gas in the treatment bin is reduced, the activated carbon is a waste product, the activity of the waste product can be greatly reduced after long-term repeated use, the staff can quickly complete the replacement of the activated carbon through the replacement mechanism and the recycling mechanism, and the purification efficiency of the malodorous gas in the treatment bin is improved;

After the activated carbon in the storage bin is used for a period of time to absorb malodorous gas to be close to saturation, a worker periodically moves the storage bracket to the outer top of the adsorption purification bin through the recycling mechanism, and adjusts the inclination angle of the storage bracket, so that the inside of the storage bin can receive larger illumination area, the activated carbon in the storage bin is subjected to rapid insolation, on one hand, the malodorous gas absorbed in the activated carbon is rapidly decomposed under the illumination, on the other hand, the air in the treatment bin is relatively moist, the activated carbon can absorb water vapor in the air, the humidity in the treatment bin is reduced, the working environment in the treatment bin is improved, the moisture in the activated carbon can be evaporated after insolation, the activity of the activated carbon is improved, and the efficiency of subsequent malodorous gas absorption is higher;

Through the cooperation of the horizontal moving assembly and the lifting connecting assembly, the storage bracket can be quickly moved to the outer side of the adsorption purification bin, and simultaneously, the illumination angle of the storage bracket can be quickly adjusted by matching with the overturning effect of the self-locking overturning connecting assembly, so that the insolation efficiency of activated carbon is improved;

When the horizontal moving assembly drives the storage bracket to move to one side close to or far away from the lifting hole, a worker can move the storage bracket only by starting the band-type brake motor, so that the worker can more conveniently and efficiently insolate or replace the activated carbon; the band-type brake motor has self-locking property after power failure, and after a worker moves the storage bracket into the processing bin, the storage bracket is not easy to shake and move;

After the lifting block in the lifting connecting assembly lowers the storage bracket into the adsorption purification cabin, the lifting block is inserted into the lifting hole at the moment, so that the connection between the storage bracket and the lifting block is convenient to follow-up, after the storage bracket is lowered into the adsorption purification cabin, only a worker needs to drive the storage bracket to move to one side far away from the lifting block by starting the horizontal moving assembly, and the connecting block and the lifting block can be separated, so that the connection between the storage bracket and the lifting connecting assembly can be quickly disconnected without manual operation, and the convenience of the worker in operation is improved; the anti-drop block is fixedly arranged on one side of the connecting block, which is far away from the supporting block, and the height of the connecting groove is larger than or equal to the sum of the heights of the anti-drop block and the connecting block, namely, when the horizontal moving assembly drives the storage bracket to move towards one side, which is close to the lifting block, the lifting block drives the anti-drop block to move in the connecting groove and to one side of the anti-drop groove, and then the anti-drop block is inserted into the anti-drop groove under the action of gravity after the lifting block moves upwards, so that when the electric hoist drives the lifting block to lift up and down, the lifting block is not easy to separate from the connecting block, and the connection stability of the lifting block and the connecting block is improved;

The self-locking overturning connecting assembly has the advantages that a worker can quickly connect or disconnect the rotating shaft and the storage bracket by controlling the connecting component, so that the operation of the worker is facilitated, the worm and the worm wheel have self-locking property, and after the worker adjusts the inclination angle of the storage bracket to enable the activated carbon in the storage bracket to reach a better illumination angle, the storage bracket can keep the inclination angle for a long time under the condition of no power input, and energy is saved;

In the process that a worker controls the storage bracket to move upwards through the lifting connecting assembly, when the plug-in block moves to be flush with the plug-in groove, the infrared receiver receives the infrared beam sent by the infrared transmitter and sends a detection signal, and the controller outputs a control signal to the lifting connecting assembly after receiving the detection signal, so that the lifting connecting assembly stops driving the storage bracket to move, the worker does not need to observe and adjust the relative position of the plug-in block and the plug-in groove through human eyes, and the convenience and the accuracy of the operation of the worker are improved;

The ventilation baffle in the reloading mechanism not only can support the activated carbon in the storage bin, but also the ventilation holes on the ventilation baffle are beneficial to carrying out gas exchange between the storage bin and the treatment bin, and the reloading mechanism is matched with the recycling mechanism to quickly rotate the storage bracket to be horizontal, so that the subsequent activated carbon replacement work is facilitated, and the purification efficiency of malodorous gas in the treatment bin is improved.

Drawings

FIG. 1 is a schematic diagram of a sebacic acid wastewater treatment chamber exhaust gas treatment apparatus according to an embodiment of the present application;

FIG. 2 is a schematic diagram showing a partial structure of an exhaust gas treatment device of a sebacic acid wastewater tank treatment chamber;

FIG. 3 is a partial cross-sectional view showing an effluent treatment plant for a sebacic acid wastewater treatment chamber;

FIG. 4 is a partial cross-sectional view showing the storage rack moving to a side directly below the lifting hole;

FIG. 5 is a schematic view showing a partially enlarged structure of the portion A in FIG. 4;

FIG. 6 is a schematic view showing the structure in which the storage rack is moved to the outside top of the adsorption purification chamber;

FIG. 7 is a schematic view showing a partially enlarged structure of a portion B in FIG. 6;

FIG. 8 is a partial cross-sectional view showing the self-locking flip connection assembly;

FIG. 9 is a schematic view showing the structure of the removal of activated carbon from the storage rack by the reloading mechanism;

Fig. 10 is a schematic view showing a structure in which new activated carbon is added to the storage rack by the reloading mechanism.

Reference numerals illustrate: 1. a processing chamber; 2. an adsorption purification bin; 21. lifting holes; 3. storing the bracket; 4. a storage compartment; 5. a reloading mechanism; 51. a support frame; 52. a ventilation baffle; 53. a fixing member; 6. a recycling mechanism; 61. a lifting frame; 62. lifting the connecting component; 621. an electric hoist; 622. a lifting block; 6221. a connecting groove; 6222. an anti-drop groove; 623. a support block; 624. a connecting block; 625. an anti-falling block; 63. a horizontal movement assembly; 631. a guide rail; 632. a moving rack; 6321. a guide rail groove; 633. a roller; 634. a band-type brake motor; 635. a fixed block; 6351. a fixing groove; 64. a turnover block; 641. a plug-in groove; 65. the self-locking overturning connecting component; 651. a support base; 652. a rotation shaft; 6521. a slip groove; 653. a worm wheel; 654. a worm; 655. a driving motor; 656. a connecting member; 6561. a plug block; 6562. an electric telescopic rod; 6563. an infrared emitter; 6564. an infrared receiver; 66. an opening and closing assembly; 661. a waterproof cover plate; 662. a magnet bar; 663. an iron plate.

Detailed Description

The application is described in further detail below with reference to fig. 1-10.

The embodiment of the application discloses a waste gas treatment device for a treatment bin of a sebacic acid sewage pool. Referring to fig. 1 to 3, the exhaust gas treatment apparatus includes a plurality of adsorption purification chambers 2 for being disposed outside the treatment chamber 1, a storage rack 3 being disposed in the adsorption purification chambers 2, and a plurality of storage chambers 4 for storing activated carbon being disposed in the storage rack 3. The storage bracket 3 is also provided with a reloading mechanism 5, and the reloading mechanism 5 is used for enabling the storage bin 4 to exchange gas with the processing bin 1, and simultaneously facilitating the opening or closing of the storage bin 4 to replace active carbon. A recycling mechanism 6 is arranged between the storage bracket 3 and the adsorption purification bin 2, and the recycling mechanism 6 is used for moving the storage bracket 3 to the outer top of the adsorption purification bin 2 and adjusting the inclination angle of the storage bracket 3 so as to rapidly insolate the activated carbon in the storage bin 4, so that malodorous gas absorbed in the activated carbon is rapidly decomposed under illumination, and the effect of repeatedly recycling the activated carbon for a plurality of times is achieved; and the storage bracket 3 moves to the outer top of the adsorption purification bin 2, so that the storage bin 4 on the storage bracket 3 is not easy to be blocked and is easier to receive illumination.

After the foul water in the sewage pool emits foul gas, the foul gas enters the storage bin 4 on the storage bracket 3 through the reloading mechanism 5, and then the foul gas can be absorbed and separated by the activated carbon in the storage bin 4, so that the foul smell in the treatment bin 1 is reduced, the working environment in the treatment bin 1 is purified, and the uncomfortable feeling of staff is greatly relieved. Then, the activated carbon has saturation on the absorption of gas, when the activated carbon in the storage bin 4 is used for a period of time to absorb the malodorous gas and is close to saturation, a worker periodically moves the storage bracket 3 to the outer top of the adsorption purification bin 2 through the recycling mechanism 6, adjusts the inclination angle of the storage bracket 3, so that the inside of the storage bin 4 can accept larger illumination area, and enables the activated carbon in the storage bin 4 to be quickly insolated, so that on one hand, the malodorous gas absorbed in the activated carbon is quickly decomposed under illumination, on the other hand, the air in the treatment bin 1 is more humid, the activated carbon can absorb water vapor in the air, the humidity in the treatment bin 1 is reduced, the working environment in the treatment bin 1 is improved, the moisture in the activated carbon can be evaporated after insolation, the activity of the activated carbon is improved, and the subsequent malodorous gas adsorption efficiency is higher. And the activated carbon is a waste product, the activity of the activated carbon can be greatly reduced after long-term repeated use, and a worker can quickly complete the replacement of the activated carbon by matching the replacement mechanism 5 with the repeated use mechanism 6, so that the purification efficiency of malodorous gas in the treatment bin 1 is improved.

Referring to fig. 3 and 4, the recycling mechanism 6 includes a lifting frame 61 fixedly arranged at the top of the outer side of the adsorption and purification chamber 2, a lifting connection assembly 62 is arranged between the storage bracket 3 and the lifting frame 61, a lifting hole 21 is formed in the top of one side of the adsorption and purification chamber 2 away from the treatment chamber 1, and the lifting connection assembly 62 is used for connecting the storage bracket 3 with the lifting frame 61 and driving the storage bracket 3 to be located in the lifting hole 21 to lift up and down. A horizontal moving component 63 is arranged between the storage bracket 3 and the adsorption purification bin 2, and the horizontal moving component 63 is used for driving the storage bracket 3 to move towards one side close to or far away from the treatment bin 1. The turnover block 64 is fixedly arranged below the storage bracket 3, a self-locking turnover connecting assembly 65 is arranged between the turnover block 64 and the adsorption purification bin 2, and the self-locking turnover connecting assembly 65 is used for driving the turnover block 64 and the storage bracket 3 to rotate along a horizontal axis and locking the rotation angle of the storage bracket 3. The adsorption purification bin 2 is provided with an opening and closing assembly 66 on one side of the top close to the lifting hole 21, and the opening and closing assembly 66 is used for opening or closing the lifting hole 21.

When activated carbon in the storage bin 4 is used for absorbing malodorous gas for a period of time to be close to saturation, and the activated carbon is periodically subjected to insolation treatment through the recycling mechanism 6, firstly, a worker moves the storage bracket 3 to one side, far away from the treatment bin 1, of the adsorption purification bin 2 through the horizontal movement component 63, namely, directly under the lifting hole 21, then the worker opens the lifting hole 21 through the opening and closing component 66, and connects the storage bracket 3 with the lifting frame 61 through the lifting connection component 62, then drives the storage bracket 3 to move upwards through the lifting connection component 62 again, so that the storage bracket 3 passes through the lifting hole 21 to move to the outer side of the adsorption purification bin 2, and then the worker can adjust the inclination angle of the storage bracket 3 through the self-locking overturning connection component 65, so that the inside of the storage bin 4 receives a larger illumination area, the activated carbon in the storage bin 4 is insolated, and malodorous smell is quickly decomposed and volatilized.

After the activated carbon in the storage bin 4 is exposed to the sun for a certain time, under the cooperation of the self-locking overturning connecting component 65, the horizontal moving component 63, the lifting connecting component 62 and the like, the storage bracket 3 is quickly moved back into the adsorption purification bin 2, the lifting hole 21 is sealed through the opening and closing component 66, the exposure treatment of the activated carbon can be completed, the activity of the activated carbon is improved, the subsequent malodorous gas adsorption efficiency is higher, meanwhile, after the activated carbon is repeatedly used for a long time, the activated carbon is greatly reduced, a worker can move the storage bracket 3 to the outer top of the adsorption purification bin 2, then the self-locking overturning connecting component 65 enables the storage bracket 3 to rotate to the horizontal, and the storage bin 4 is opened through the replacement mechanism 5, so that the activated carbon in the storage bin 4 is cleaned and replaced with new activated carbon.

Referring to fig. 3 and 4, the horizontal moving assembly 63 includes two guide rails 631 fixed in parallel in the adsorption and purification bin 2, a moving frame 632 is slidingly connected above the guide rails 631, a plurality of rollers 633 are rotatably connected on the moving frame 632, a guide rail groove 6321 matched with the guide rails 631 is formed below the moving frame 632, the rollers 633 and the guide rails 631 are both positioned in the guide rail groove 6321, and the rollers 633 are abutted to the tops of the guide rails 631; a band-type brake motor 634 is provided between the rotation shaft of one of the rollers 633 and the moving frame 632. A plurality of fixed blocks 635 are fixedly arranged on two sides of the movable frame 632, the fixed blocks 635 are uniformly distributed at intervals along the vertical direction, fixed grooves 6351 matched with the storage support 3 are formed in the fixed blocks 635, and the storage support 3 is slidably inserted into the fixed grooves 6351 along the vertical direction. The band-type brake motor 634 has self-locking property after power failure, and after a worker moves the storage bracket 3 into the processing bin 1, the storage bracket 3 is not easy to shake and move.

When the horizontal moving assembly 63 drives the storage bracket 3 to move towards one side close to or far away from the lifting hole 21, firstly, a worker starts the band-type brake motor 634, then the band-type brake motor 634 drives the roller 633 to rotate, the roller 633 drives the moving frame 632 to move, the moving frame 632 can drive the storage bracket 3 to move through the fixed block 635, and the worker can realize the movement of the storage bracket 3 only by starting the band-type brake motor 634, so that the worker can insolate or replace active carbon more conveniently and efficiently.

Referring to fig. 4 and 5, the elevation connection assembly 62 includes an electric hoist 621 provided on the elevation frame 61, and an elevation block 622 is fixedly provided under a wire rope of the electric hoist 621. A supporting block 623 is fixedly arranged above the storage bracket 3, a connecting block 624 is fixedly arranged on one side, close to the lifting block 622, of the supporting block 623, the lifting block 622 is provided with a connecting groove 6221 along the horizontal direction, and the connecting block 624 can be inserted into the connecting groove 6221. The connecting block 624 is fixed with a drop-off preventing block 625 on one side far away from the supporting block 623, the lifting block 622 is also provided with a drop-off preventing groove 6222 matched with the drop-off preventing block 625, the drop-off preventing groove 6222 is communicated with the connecting groove 6221, and the height of the connecting groove 6221 is greater than or equal to the sum of the heights of the drop-off preventing block 625 and the connecting block 624, namely, the drop-off preventing block 625 can be positioned in the connecting groove 6221 to slide and be inserted into the drop-off preventing groove 6222.

When the storage bracket 3 is driven to lift up and down by the lifting connecting component 62, firstly, a worker drives the storage bracket 3, the supporting block 623 and the connecting block 624 to move to a side close to the lifting block 622 through the horizontal moving component 63, so that the connecting block 624 and the anti-falling block 625 are inserted into the connecting groove 6221 at one side of the lifting block 622, then the worker starts the electric hoist 621, the electric hoist 621 drives the lifting block 622 to move upwards, the anti-falling block 625 is inserted into the anti-falling groove 6222 under the gravity action of the storage bracket 3, and then the lifting block 622 drives the connecting block 624, the supporting block 623 and the storage bracket 3 to move upwards and pass through the lifting hole 21 to move to the outer side of the adsorption purification bin 2; otherwise, the staff controls the electric hoist 621 to reversely run and can drive the lifting block 622 and the storage bracket 3 to move downwards, wherein the lifting block 622 is used for placing the storage bracket 3 into the adsorption purification bin 2, the lifting block 622 is inserted into the lifting hole 21 at the moment, so that the subsequent connection of the storage bracket 3 and the lifting block 622 is facilitated, and after the storage bracket 3 is placed into the adsorption purification bin 2, the staff only needs to drive the storage bracket 3 to move towards one side far away from the lifting block 622 by starting the horizontal movement assembly 63, and the connecting block 624 and the lifting block 622 can be separated, namely, the connection of the storage bracket 3 and the lifting connection assembly 62 is rapidly disconnected.

Referring to fig. 6 to 8, the self-locking turnover connection assembly 65 includes two supporting seats 651 respectively fixed at the top of the adsorption purification chamber 2 at intervals, and the two supporting seats 651 are respectively located at both sides of the lifting hole 21 in the length direction. The rotary shaft 652 is connected to the support seat 651 in a rotary mode, a worm wheel 653 is fixedly sleeved on the outer side of one rotary shaft 652, a worm 654 is connected to the top of the adsorption purification bin 2 in a rotary mode, the worm 654 is meshed with the worm wheel 653, a driving motor 655 is arranged at one end of the worm 654, a connecting part 656 is arranged between the rotary shaft 652 and the bottom overturning block 64 of the storage bracket 3, and the connecting part 656 is used for connecting the rotary shaft 652 with the bottom of the storage bracket 3.

Referring to fig. 8, the connection member 656 includes a plug 6561 slidingly connected to one side of the rotating shaft 652 near the turning block 64, a sliding groove 6521 adapted to the plug 6561 is formed in the rotating shaft 652, a plug 641 adapted to the plug 6561 is also formed on the turning block 64, the plug 6561 can slide in the sliding groove 6521, and the end can be plugged into the plug 641. An electric telescopic rod 6562 is also arranged between the plug-in block 6561 and the rotating shaft 652. The connection member 656 further comprises an infrared emitter 6563, an infrared receiver 6564, and a controller, wherein the infrared emitter 6563 is connected to the supporting seat 651 for emitting an infrared beam. The infrared receiver 6564 is connected to the storage rack 3, and is used for receiving the infrared beam and sending out a detection signal. The controller is connected to the infrared receiver 6564 and the electric hoist 621 in the lifting connection assembly 62, and is configured to receive the detection signal and output a control signal to stop the electric hoist 621 from driving the storage rack 3 to move.

When the illumination angle of the storage bracket 3 is regulated by the self-locking overturning connecting component 65, the storage bracket 3 is driven to move upwards through the lifting hole 21 to the outside of the top of the adsorption purification bin 2 through the lifting connecting component 62, when the plug 6561 moves to be flush with the plug 641, the infrared receiver 6564 receives infrared light beams emitted by the infrared emitter 6563 and emits detection signals, the controller receives the detection signals and then outputs control signals to the electric hoist 621 in the lifting connecting component 62, so that the electric hoist 621 stops driving the storage bracket 3 to move, then the electric telescopic rod 6562 drives the plug 6561 to slide in the sliding groove 6521, the free end of the plug 6561 is simultaneously plugged into the plug groove 641, connection of the rotating shaft 652 and the storage bracket 3 can be realized, then a worker starts the driving motor 655, the driving motor 655 drives the worm 654 to rotate, the worm 654 drives the worm 653 to rotate, the rotating shaft 652 drives the rotating shaft 652 to rotate, the plug 6561 and the storage bracket 3 to rotate so as to regulate the illumination angle of the worm 653, and the worm wheel 653 have self-locking property, and the work worker can adjust the inclination angle of the storage bracket 3 to enable the active carbon bracket 3 to be stored in a long time without the inclination of the active carbon bracket 3, and the active carbon bracket can be stored in a long time.

Referring to fig. 6 and 7, the opening and closing assembly 66 includes a waterproof cover plate 661 hinged to the outer top wall of the adsorption purification chamber 2 and close to one side of the lifting hole 21, and a magnet bar 662 is fixedly arranged on the waterproof cover plate 661 and embedded in the waterproof cover plate 661. An iron plate 663 is fixedly arranged on the outer top wall of the adsorption purification bin 2, the iron plate 663 is embedded in the outer side wall of the adsorption purification bin 2, and the magnet strip 662 and the iron plate 663 can be mutually adsorbed.

After the storage bracket 3 is placed into the adsorption purification bin 2, the waterproof cover plate 661 can be rotated by a worker to plug the lifting hole 21, so that rain, snow and the like are not easy to enter the adsorption purification bin 2, and after the waterproof cover plate 661 is closed, the magnet strips 662 and the iron plates 663 are mutually adsorbed, so that the waterproof cover plate 661 is not easy to be opened due to influence of wind force and the like, and the stability of the waterproof cover plate 661 is improved.

Referring to fig. 9 and 10, the reloading mechanism 5 includes two supporting frames 51 hinged to two sides of the storage rack 3 respectively, ventilation baffles 52 are fixedly arranged in the supporting frames 51, the two ventilation baffles 52 are located on two sides of the storage bin 4 respectively, and a plurality of ventilation holes are formed in the ventilation baffles 52. A fixing piece 53 is arranged between one side, away from the hinge shaft, of the supporting frame 51 and the storage bracket 3, the fixing piece 53 is used for fixing the ventilation baffle plate 52, and the fixing piece 53 is of a buckle structure and can also be connected by bolts, nuts and the like. Wherein the ventilation baffle plate 52 not only can support the active carbon in the storage bin 4, but also the ventilation holes on the ventilation baffle plate 52 are beneficial to the gas exchange between the storage bin 4 and the treatment bin 1.

When the active carbon is a waste product and the activity of the active carbon is greatly reduced after long-term repeated use, a worker changes the active carbon in the storage bracket 3 through the reloading mechanism 5, firstly, the worker moves the storage bracket 3 to the outer top of the adsorption purification bin 2 through the repeated use mechanism 6 and rotates the storage bracket to the horizontal position, then, the buckles on one side of the ventilation baffle 52 below are released, a plurality of storage bins 4 on the storage bracket 3 can be opened, then, the active carbon with the activity greatly reduced falls to the outer side of the storage bin 4 under the action of gravity, then, the ventilation baffle 52 below is fixed through the buckles, the buckles on one side of the ventilation baffle 52 above are released, the ventilation baffle 52 above is opened, and new active carbon is added into the storage bin 4, so that the change of the active carbon can be completed.

The embodiment of the application provides an implementation principle of a sebacic acid wastewater pool treatment bin waste gas treatment device, which comprises the following steps: after the sewage in the sewage pool emits malodorous gas, the malodorous gas enters a storage bin 4 on a storage bracket 3 through a reloading mechanism 5, and then the malodorous gas is absorbed and separated by activated carbon in the storage bin 4, so that malodorous smell in a treatment bin 1 is reduced, the working environment in the treatment bin 1 is purified, and discomfort of staff is greatly relieved; then, the activated carbon has saturation on the absorption of gas, when the activated carbon in the storage bin 4 is used for a period of time to absorb malodorous gas and is close to saturation, a worker periodically moves the storage bracket 3 to one side of the adsorption purification bin 2 far away from the treatment bin 1 through the horizontal movement component 63, namely, directly under the lifting hole 21, then the storage bracket 3 is detachably connected with the lifting block 622, then the electric hoist 621 is started to drive the storage bracket 3 to move upwards, so that the storage bracket 3 moves to the outer side of the adsorption purification bin 2 through the lifting hole 21, then the worker adjusts the inclination angle of the storage bracket 3 through the self-locking overturning connection component 65, so that the storage bin 4 is subjected to larger illumination area, on one hand, the malodorous gas absorbed by the activated carbon is rapidly decomposed under illumination, on the other hand, the air in the treatment bin 1 is relatively moist, the activated carbon can absorb water vapor in the air, the humidity in the treatment bin 1 is reduced, the working environment in the treatment bin 1 is improved, the moisture in the activated carbon can be evaporated after the air is exposed, the activated carbon is enabled to be enabled to move to the outer side of the adsorption bin 2, the subsequent malodorous gas is enabled to be easier to absorb the gas, and the storage bin 3 is enabled to move to be blocked by the self-locking overturning connection component 65, so that the storage bin 4 is not to accept the upper side of the adsorption bin 2; wherein the staff can carry out a lot of reuse through reuse mechanism 6 to the cost of malodorous gas in the purification treatment bin 1 is reduced, and the active carbon is the loss article, and its activity can greatly reduced after long-term reuse, and the staff can accomplish the change to the active carbon fast through changing dress mechanism 5 cooperation reuse mechanism 6, improves the purification efficiency to malodorous gas in the treatment bin 1.

The above embodiments are not intended to limit the scope of the present application, so: all equivalent changes in structure, shape and principle of the application should be covered in the scope of protection of the application.

Claims (9)

1. The utility model provides a sebacic acid effluent water sump treatment bin exhaust-gas treatment device which characterized in that: the device comprises a plurality of adsorption purification chambers (2) arranged on the outer side of a treatment chamber (1), a storage bracket (3) arranged in the adsorption purification chambers (2), a plurality of storage chambers (4) arranged in the storage bracket (3) and used for storing active carbon, a change mechanism (5) arranged on the storage bracket (3) and used for enabling the storage chambers (4) to exchange gas with the treatment chamber (1) and facilitating the opening or closing of the storage chambers (4) to change the active carbon, and a recycling mechanism (6) arranged between the storage bracket (3) and the adsorption purification chambers (2) and used for moving the storage bracket (3) to the outer top of the adsorption purification chambers (2) and adjusting the inclination angle of the storage bracket (3) so as to rapidly insolate the active carbon in the storage chambers (4);

The recycling mechanism (6) comprises a lifting frame (61) fixedly arranged at the top of the outer side of the adsorption purification bin (2), a lifting connecting component (62) arranged between the storage bracket (3) and the lifting frame (61) and used for connecting the storage bracket (3) with the lifting frame (61) and driving the storage bracket (3) to lift up and down, a horizontal moving component (63) arranged between the storage bracket (3) and the adsorption purification bin (2) and used for driving the storage bracket (3) to move towards one side close to or far away from the treatment bin (1), a turnover block (64) fixedly arranged below the storage bracket (3), and a self-locking turnover connecting component (65) arranged between the turnover block (64) and the adsorption purification bin (2) and used for driving the turnover block (64) and the storage bracket (3) to rotate along a horizontal axis and locking the rotation angle of the storage bracket (3);

Lifting holes (21) are formed in the top of one side, far away from the treatment bin (1), of the adsorption purification bin (2), and an opening and closing assembly (66) used for opening or closing the lifting holes (21) is further arranged on one side, close to the lifting holes (21), of the top of the adsorption purification bin (2).

2. The sebacic acid wastewater treatment cabin exhaust gas treatment device according to claim 1, wherein: the lifting connecting assembly (62) comprises an electric hoist (621) arranged on the lifting frame (61), a lifting block (622) fixedly arranged below a steel wire rope of the electric hoist (621), a supporting block (623) fixedly arranged above the storage bracket (3), and a connecting block (624) fixedly arranged on one side, close to the lifting block (622), of the supporting block (623); the lifting block (622) is provided with a connecting groove (6221) along the horizontal direction, and the connecting block (624) is inserted into the connecting groove (6221).

3. The sebacic acid wastewater treatment cabin exhaust gas treatment device according to claim 2, wherein: one side of supporting shoe (623) is kept away from to connecting block (624) has set firmly anticreep piece (625), anticreep groove (6222) with anticreep piece (625) looks adaptation have still been seted up in elevating block (622), anticreep groove (6222) and spread groove (6221) intercommunication, anticreep piece (625) peg graft to in anticreep groove (6222), the high sum of anticreep piece (625) and connecting block (624) of highly being greater than or equal to of spread groove (6221).

4. The sebacic acid wastewater treatment cabin exhaust gas treatment device according to claim 1, wherein: the self-locking overturning connecting assembly (65) comprises two supporting seats (651) which are respectively fixedly arranged at the top of the adsorption purification bin (2) at intervals, a rotating shaft (652) which is rotatably connected to the supporting seats (651), a worm wheel (653) which is fixedly sleeved outside one of the rotating shafts (652), a worm (654) which is rotatably connected to the top of the adsorption purification bin (2), a driving motor (655) which is arranged at one end of the worm (654), and a connecting part (656) which is arranged between the rotating shaft (652) and an overturning block (64) at the bottom of the storage bracket (3) and used for connecting the rotating shaft (652) and the overturning block;

the two supporting seats (651) are respectively positioned at two sides of the length direction of the lifting hole (21), and the worm (654) is meshed with the worm wheel (653).

5. The sebacic acid wastewater treatment cabin exhaust gas treatment device according to claim 4, wherein: the connecting component (656) comprises a plug-in block (6561) which is connected to one side of the rotating shaft (652) close to the overturning block (64) in a sliding way, and an electric telescopic rod (6562) which is arranged between the plug-in block (6561) and the rotating shaft (652); the rotary shaft (652) is internally provided with a sliding groove (6521) matched with the plug-in block (6561), and the turnover block (64) is also provided with a plug-in groove (641) matched with the plug-in block (6561).

6. The sebacic acid wastewater treatment cabin exhaust gas treatment device according to claim 5, wherein: the connecting part (656) further comprises an infrared emitter (6563) connected to the supporting seat (651) for emitting infrared light beams;

An infrared receiver (6564) connected to the storage bracket (3) for receiving the infrared beam and emitting a detection signal;

and the controller is connected with the infrared receiver (6564) and the lifting connecting component (62) and is used for receiving the detection signal and outputting the control signal so as to enable the lifting connecting component (62) to stop driving the storage bracket (3) to move.

7. The sebacic acid wastewater treatment cabin exhaust gas treatment device according to claim 1, wherein: the horizontal moving assembly (63) comprises a guide rail (631) fixedly arranged in the adsorption purification bin (2), a moving frame (632) connected above the guide rail (631) in a sliding manner, a plurality of rollers (633) rotatably connected to the moving frame (632), a band-type brake motor (634) arranged between the rotating shaft of one of the rollers (633) and the moving frame (632), and a plurality of fixed blocks (635) fixedly arranged on the moving frame (632) and distributed at intervals along the vertical direction;

Guide rail (631) groove with guide rail (631) looks adaptation is seted up to movable frame (632) below, gyro wheel (633) and guide rail (631) all are located guide rail (631) inslot, just gyro wheel (633) and guide rail (631) top butt, a plurality of fixed block (635) symmetric distribution is in the both sides of depositing support (3) direction of height, just set up fixed slot (6351) with depositing support (3) looks adaptation on fixed block (635), deposit support (3) and slide along vertical direction and peg graft in fixed slot (6351).

8. The sebacic acid wastewater treatment cabin exhaust gas treatment device according to claim 1, wherein: the opening and closing assembly (66) comprises a waterproof cover plate (661) hinged to the outer top wall of the adsorption purification bin (2) and close to one side of the lifting hole (21), a magnet strip (662) fixedly arranged on the waterproof cover plate (661), and an iron plate (663) fixedly arranged on the outer top wall of the adsorption purification bin (2).

9. The sebacic acid wastewater treatment cabin exhaust gas treatment device according to any one of claims 1-8, wherein: the reloading mechanism (5) comprises two supporting frames (51) hinged to two sides of the storage bracket (3) respectively, a ventilation baffle plate (52) fixedly arranged in the supporting frames (51), and a fixing piece (53) arranged between one side, away from the hinge shaft, of the supporting frames (51) and the storage bracket (3) and used for fixing the ventilation baffle plate (52); a plurality of ventilation holes are formed in the ventilation baffles (52), and the two ventilation baffles (52) are respectively located on two sides of the storage bin (4).