CN219209967U - Active carbon regeneration control device - Google Patents
Active carbon regeneration control device Download PDFInfo
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- CN219209967U CN219209967U CN202223382236.5U CN202223382236U CN219209967U CN 219209967 U CN219209967 U CN 219209967U CN 202223382236 U CN202223382236 U CN 202223382236U CN 219209967 U CN219209967 U CN 219209967U
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Abstract
The utility model relates to the technical field of activated carbon, in particular to an activated carbon regeneration control device. The technical proposal comprises: shell, first cavity and second cavity, first cavity has been seted up to inside one side of shell, and the inside centre of first cavity rotates installs the second shaft pole, and the one end of second shaft pole is fixed with the fretwork frame, and the bottom surface both ends of fretwork frame are fixed with vibration motor, the second cavity has been seted up to the inside opposite side of shell, and the inside bottom mounting of second cavity has the water tank, and outside top one side of water tank is connected with the second pipeline, and the outside top opposite side of water tank is connected with first pipeline. The utility model installs the shakable hollow frame in the first cavity, the active carbon is heated by steam which can shake after being poured into the first hopper, so as to spread the active carbon by shake and make it heated uniformly, and regain the adsorption capacity, and the heated gas is pumped into the filter box by the blower to filter, thus avoiding polluting the surrounding environment.
Description
Technical Field
The utility model relates to the technical field of activated carbon, in particular to an activated carbon regeneration control device.
Background
The active carbon is a black porous solid carbon, and is produced by crushing, molding or carbonizing and activating coal with uniform coal particles. The main component is carbon, and contains a small amount of elements such as oxygen, hydrogen, sulfur, nitrogen, chlorine and the like. The specific surface area of the common activated carbon is 500-1700 m < 2 >/g. Has strong adsorption performance and is an industrial adsorbent with extremely wide application. The activated carbon can be invalid and become solid waste after being used, and if the activated carbon is treated randomly, the activated carbon can cause environmental pollution, and some activated carbon even has a certain danger. The existing activated carbon regeneration equipment regenerates the activated carbon by heating, but the temperature distribution inside the equipment is uneven, so that the regeneration efficiency of the activated carbon is reduced, and meanwhile, the tail gas treatment is lacked, so that the pollution to the surrounding environment is caused. The application number is "CN201921104864.2" disclosed "an active carbon regenerating unit", it has solved its inside temperature distribution of present active carbon regeneration equipment inhomogeneous through specific technical structure setting, has reduced active carbon regeneration efficiency, lacks tail gas treatment simultaneously, has caused the problem of pollution to the surrounding environment, but still has a plurality of defects when in actual use like: the rotatable stirring rod is utilized to stir the activated carbon in the regeneration box, so that the activated carbon is uniformly heated by steam, and the adsorption capacity is obtained again, but particles near the stirring rod can move when the stirring rod stirs granular activated carbon, and the activated carbon close to the inner wall edge of the regeneration box is difficult to flick, so that the steam is heated unevenly, and the activated carbon can be heated uniformly completely after a long time.
Disclosure of Invention
The present utility model is directed to an activated carbon regeneration control device, which solves the problems set forth in the background art.
In order to achieve the above purpose, the present utility model provides the following technical solutions: the utility model provides an active carbon regeneration control device, includes shell, first cavity and second cavity, first cavity has been seted up to inside one side of shell, and the second shaft is installed in the middle of the inside of first cavity is rotated, and the one end of second shaft is fixed with the fretwork frame, and the bottom surface both ends of fretwork frame are fixed with vibration motor, the second cavity has been seted up to the inside opposite side of shell, and the inside bottom mounting of second cavity has the water tank, and outside top one side of water tank is connected with the second pipeline, and the outside top opposite side of water tank is connected with first pipeline, and the one end of first pipeline is connected with the second and goes into the hopper.
When the active carbon regeneration control device in the technical scheme is used, a worker firstly needs to supply power to the outside of the active carbon regeneration control device, the operation of the active carbon regeneration control device is controlled through the control panel, the worker firstly needs to add water into the water tank, the worker lifts the sealing cover, the water is poured into the second feeding hopper after lifting, the poured water is transmitted into the water tank through the first pipeline, the worker stops the water supplementing operation after a proper amount of water is transmitted, the sealing cover is rotated and closed again, the worker pours the active carbon to be regenerated into the first feeding hopper after the sealing cover is rotated and closed, the active carbon poured into the first feeding hopper can prop against the baffle plate, so that the baffle plate rotates and inclines, the active carbon can fall into the aggregation hopper, the active carbon is transmitted into the interior of the engraving frame through aggregation of the aggregation hopper, the worker stops pouring of the active carbon after a proper amount of water is transmitted, and the heating rod is started, the heating rod heats water in the water tank to generate steam, the steam is transmitted to the inner bottom end of the first cavity through the second pipeline, the steam reaching the position rises and penetrates through the interior of the engraving frame, activated carbon placed in the engraving frame is heated, a worker starts a vibration motor during heating, the vibration motor vibrates and vibrates the engraving frame, the vibrated engraving frame spreads the activated carbon placed in the interior for vibration, the activated carbon placed in the engraving frame can be uniformly heated by the steam to regain adsorption capacity, heated gas is sucked by the third pipeline and is transmitted to the interior of the fourth pipeline through the fan, the gas is transmitted to the interior of the filter tank through the fourth pipeline, the treated gas is filtered by a titanium dioxide filter device, a plasma filter device and a silicon dioxide filter device which are arranged in the filter tank, and the treated gas is discharged through the fifth pipeline, when the activated carbon is heated to obtain adsorption capacity, a worker starts a driving motor, the driving motor rotates a second shaft rod connected with an output end, the second shaft rod turns over with a hollow frame fixed in the middle, the activated carbon placed inside the hollow frame after the hollow frame turns over falls into the inside of a discharge hopper, the activated carbon is gathered together and transmitted to the inside of a box body placed at the bottom through the discharge hopper, and the worker takes out the box body placed inside from a material taking opening.
Preferably, heating rods are fixed on two sides of the inner part of the water tank. Through setting up the heating rod, make the water in the water tank can heat, reached the effect that heats water production steam.
Preferably, a fan is fixed at the top end of the second cavity, the input end of the fan is connected with a third pipeline, the output end of the fan is connected with a fourth pipeline, one end of the fourth pipeline is connected to the top end of the filter box, and the bottom end of the filter box is connected with a fifth pipeline. Through the cooperation of third pipeline and fan and fourth pipeline, make the gas after the active carbon heating can be by the suction and send to the inside of rose box, reached the effect of extraction and output, the internally mounted of rose box has titanium dioxide filter equipment, plasma filter equipment and silica filter equipment, can adsorb filter treatment to the harmful substance in the gas behind the heating active carbon, avoids directly arranging the polluted environment.
Preferably, the other end of the second shaft is connected with a driving motor, and the driving motor is fixed in the middle of the inside of the second cavity. Through the cooperation of second shaft pole and driving motor, make the fretwork frame can overturn in the inside of first cavity, reached power take off's effect.
Preferably, the inside top of first cavity is fixed with gathers the bucket, and the inside bottom mounting of first cavity has out the hopper, and the material mouth has been seted up to the bottom of going out the hopper. The installation that gathers the hopper makes through first income hopper row to the inside that the active carbon in the first cavity can gather the transmission to the fretwork frame, prevents to spill to the edge, and the installation that goes out the hopper makes the fretwork frame can be with its gathering transmission to the box body inside that the bottom was placed after the inside active carbon is poured out in the upset, and the box body that sets up of taking out the mouth makes the material that connects can be placed in, has provided the position that the material that connects to place.
Preferably, the outside top of shell is fixed with first income hopper, and the baffle is installed through first axostylus axostyle rotation to the inside of first income hopper, and the bottom surface of baffle is fixed with the balancing weight. The installation of first income hopper makes the active carbon that waits to regenerate can enter into the inside of first cavity through here, and the installation of baffle has blockked the gas after the heating active carbon and discharged from here, and the installation of balancing weight makes the baffle can keep parallel closed state at the normality, can rotate the slope when pouring the active carbon and receive the impact and open, and the pan feeding stops gas leakage from here when closing when opening.
Compared with the prior art, the utility model has the beneficial effects that:
1. the utility model installs the shakable hollow frame in the first cavity, the active carbon is heated by steam which can shake after being poured into the first hopper, so as to spread the active carbon by shake and make it heated uniformly, and regain the adsorption capacity, and the heated gas is pumped into the filter box by the blower to filter, thus avoiding polluting the surrounding environment.
Drawings
FIG. 1 is a schematic diagram of the internal structure of a front view of the present utility model;
FIG. 2 is a schematic diagram of the front view of the present utility model;
FIG. 3 is a schematic diagram of a side view of the present utility model;
FIG. 4 is a schematic top view of the present utility model;
fig. 5 is a schematic top view of a frame according to the present utility model.
In the figure: 1. a housing; 2. a first cavity; 3. an aggregation bucket; 4. discharging a hopper; 5. a frame is engraved; 6. a vibration motor; 7. a second shaft; 8. a first feeding hopper; 9. a baffle; 10. a first shaft; 11. balancing weight; 12. a third conduit; 13. a blower; 14. a fourth conduit; 15. a second cavity; 16. a filter box; 17. a fifth pipe; 18. a drive motor; 19. a second pipe; 20. a second feeding hopper; 21. a first pipe; 22. a water tank; 23. a heating rod; 24. and a material taking opening.
Detailed Description
The technical scheme of the utility model is further described below with reference to the attached drawings and specific embodiments.
Example 1
As shown in fig. 1, fig. 2, fig. 3, fig. 4 and fig. 5, the active carbon regeneration control device provided by the utility model comprises a shell 1, a first cavity 2 and a second cavity 15, wherein the first cavity 2 is arranged on one side of the inside of the shell 1, a second shaft rod 7 is rotatably arranged in the middle of the inside of the first cavity 2, one end of the second shaft rod 7 is fixedly provided with a hollow frame 5, two ends of the bottom surface of the hollow frame 5 are fixedly provided with vibrating motors 6, the other side of the inside of the shell 1 is provided with the second cavity 15, the bottom end of the inside of the second cavity 15 is fixedly provided with a water tank 22, one side of the top end of the outside of the water tank 22 is connected with a second pipeline 19, the other side of the top end of the outside of the water tank 22 is connected with a first pipeline 21, and one end of the first pipeline 21 is connected with a second feeding hopper 20.
The worker needs to supply power to the outside of the water tank 22 through the control panel to control the operation of the water tank, the worker needs to add water into the water tank 22, the worker lifts the sealing cover, the water is poured into the second water inlet hopper 20 after lifting, the poured water is transmitted into the water tank 22 through the first pipeline 21, the worker stops the water supplementing operation after a proper amount of water is transmitted, the sealing cover is rotated and closed again, the worker pours the active carbon to be regenerated into the first water inlet hopper 8 after the sealing cover is rotated and closed, the active carbon poured into the first water inlet hopper 8 can press the baffle 9, so that the baffle 9 rotates and inclines, the active carbon can fall into the aggregation hopper 3, the active carbon is transmitted into the hollow frame 5 through aggregation of the aggregation hopper 3, the worker stops pouring of the active carbon after a proper amount of water is transmitted, the heating rod 23 is started, the heating rod 23 heats the water in the water tank 22 to generate steam, the steam is transmitted to the inner bottom end of the first cavity 2 through the second pipeline 19, the steam reaching the position rises and penetrates through the interior of the hollow frame 5, activated carbon placed in the hollow frame 5 is heated, a worker starts the vibration motor 6 during heating, the vibration motor 6 vibrates and vibrates the hollow frame 5, the vibrated hollow frame 5 spreads the activated carbon placed in the interior for vibration, the activated carbon placed in the hollow frame 5 can be uniformly heated by the steam, the adsorption capacity is obtained again, heated gas is sucked by the third pipeline 12 and is transmitted to the interior of the fourth pipeline 14 through the fan 13, the gas is transmitted to the interior of the filter box 16 through the fourth pipeline 14, the processed gas is filtered by the titanium dioxide filter device, the plasma filter device and the silicon dioxide filter device which are arranged in the filter box 16, and the processed gas is discharged through the fifth pipeline 17, when the activated carbon is heated to obtain adsorption capacity, a worker starts the driving motor 18, the driving motor 18 rotates the second shaft rod 7 connected with the output end, the second shaft rod 7 overturns with the middle fixed hollow frame 5, the activated carbon placed inside the hollow frame 5 overturns and falls into the discharge hopper 4, the activated carbon is gathered and transmitted to the inside of the box placed at the bottom through the discharge hopper 4, and the worker takes out the box placed inside from the material taking opening 24.
Example two
As shown in fig. 1, 2, 3, 4 and 5, the activated carbon regeneration control device according to the present utility model further includes, compared to the first embodiment: the inside both sides of water tank 22 are fixed with heating rod 23, the inside top of second cavity 15 is fixed with fan 13, the input of fan 13 is connected with third pipeline 12, the output of fan 13 is connected with fourth pipeline 14, the one end of fourth pipeline 14 is connected to the outside top of filter tank 16, the outside bottom of filter tank 16 is connected with fifth pipeline 17, the other end of second shaft 7 is connected with driving motor 18, and driving motor 18 is fixed in the middle of the inside of second cavity 15, the inside top of first cavity 2 is fixed with gathering hopper 3, the inside bottom mounting of first cavity 2 has ejection of compact fill 4, material taking hole 24 has been seted up to the bottom of ejection of compact fill 4, the outside top of shell 1 is fixed with first income hopper 8, the baffle 9 is installed through first axostylus axostyle 10 rotation to the inside of first income hopper 8, the bottom surface of baffle 9 is fixed with balancing weight 11.
In this embodiment, as shown in fig. 1, by providing the heating rod 23, the water in the water tank 22 can be heated, so as to achieve the effect of heating the water to generate steam;
as shown in fig. 1, through the cooperation of the third pipeline 12, the fan 13 and the fourth pipeline 14, the gas heated by the activated carbon can be pumped into the filter box 16 and delivered to the interior of the filter box 16, so that the effects of pumping and outputting are achieved, and the titanium dioxide filter device, the plasma filter device and the silicon dioxide filter device are arranged in the filter box 16, so that the harmful substances in the gas heated by the activated carbon can be adsorbed and filtered, and the direct discharge pollution to the environment is avoided;
as shown in fig. 1 and 5, the hollow frame 5 can be turned inside the first cavity 2 through the cooperation of the second shaft rod 7 and the driving motor 18, so that the effect of power output is achieved;
as shown in fig. 1 and 2, the collecting hopper 3 is installed to enable the activated carbon discharged into the first cavity 2 through the first feeding hopper 8 to be collected and transferred into the interior of the hollow frame 5, so that the activated carbon is prevented from being scattered to the edge, the discharging hopper 4 is installed to enable the hollow frame 5 to be collected and transferred into a box body placed at the bottom end after the activated carbon in the hollow frame 5 is turned over and poured out, the material taking opening 24 is formed to enable the box body receiving materials to be placed in the box body, and a material receiving placement position is provided;
as shown in fig. 1, 2, 3 and 4, the first feeding hopper 8 is installed to enable activated carbon to be regenerated to enter the first cavity 2 through the first feeding hopper, the baffle 9 is installed to prevent gas after the activated carbon is heated from being discharged from the first cavity, the counterweight 11 is installed to enable the baffle 9 to keep a parallel closing state in a normal state, the activated carbon is poured into the first feeding hopper to be obliquely opened in a rotating mode when impacted, and the activated carbon is prevented from leaking from the baffle 9 when the activated carbon is poured into the first feeding hopper to be closed.
The above-described embodiments are merely a few preferred embodiments of the present utility model, and many alternative modifications and combinations of the above-described embodiments will be apparent to those skilled in the art based on the technical solutions of the present utility model and the related teachings of the above-described embodiments.
Claims (6)
1. The utility model provides an active carbon regeneration control device, includes shell (1), first cavity (2) and second cavity (15), its characterized in that: first cavity (2) have been seted up to inside one side of shell (1), rotate in the middle of the inside of first cavity (2) and install second shaft (7), and the one end of second shaft (7) is fixed with fretwork frame (5), and the bottom surface both ends of fretwork frame (5) are fixed with vibration motor (6), second cavity (15) have been seted up to the inside opposite side of shell (1), and the inside bottom mounting of second cavity (15) has water tank (22), and outside top one side of water tank (22) is connected with second pipeline (19), and the outside top opposite side of water tank (22) is connected with first pipeline (21), and the one end of first pipeline (21) is connected with second income hopper (20).
2. The activated carbon regeneration control device according to claim 1, characterized in that: heating rods (23) are fixed on two sides of the inside of the water tank (22).
3. The activated carbon regeneration control device according to claim 1, characterized in that: the inside top of second cavity (15) is fixed with fan (13), and the input of fan (13) is connected with third pipeline (12), and the output of fan (13) is connected with fourth pipeline (14), and the one end of fourth pipeline (14) is connected to the outside top of filter tank (16), and the outside bottom of filter tank (16) is connected with fifth pipeline (17).
4. The activated carbon regeneration control device according to claim 1, characterized in that: the other end of the second shaft (7) is connected with a driving motor (18), and the driving motor (18) is fixed in the middle of the inside of the second cavity (15).
5. The activated carbon regeneration control device according to claim 1, characterized in that: the collecting hopper (3) is fixed at the top end of the first cavity (2), the discharging hopper (4) is fixed at the bottom end of the first cavity (2), and the material taking opening (24) is formed in the bottom end of the discharging hopper (4).
6. The activated carbon regeneration control device according to claim 1, characterized in that: the novel automatic feeding device is characterized in that a first feeding hopper (8) is fixed at the top end of the outer portion of the outer shell (1), a baffle plate (9) is rotatably installed in the first feeding hopper (8) through a first shaft rod (10), and a balancing weight (11) is fixed on the bottom surface of the baffle plate (9).
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CN202223382236.5U CN219209967U (en) | 2022-12-16 | 2022-12-16 | Active carbon regeneration control device |
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CN202223382236.5U CN219209967U (en) | 2022-12-16 | 2022-12-16 | Active carbon regeneration control device |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
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CN117816139A (en) * | 2024-01-18 | 2024-04-05 | 江苏神鹤科技发展有限公司 | Adsorbent desorption regenerating unit |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
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CN117816139A (en) * | 2024-01-18 | 2024-04-05 | 江苏神鹤科技发展有限公司 | Adsorbent desorption regenerating unit |
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