CN216878586U - Macroporous resin adsorption device for waste gas treatment and purification - Google Patents
Macroporous resin adsorption device for waste gas treatment and purification Download PDFInfo
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- CN216878586U CN216878586U CN202121643268.9U CN202121643268U CN216878586U CN 216878586 U CN216878586 U CN 216878586U CN 202121643268 U CN202121643268 U CN 202121643268U CN 216878586 U CN216878586 U CN 216878586U
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02A—TECHNOLOGIES FOR ADAPTATION TO CLIMATE CHANGE
- Y02A50/00—TECHNOLOGIES FOR ADAPTATION TO CLIMATE CHANGE in human health protection, e.g. against extreme weather
- Y02A50/20—Air quality improvement or preservation, e.g. vehicle emission control or emission reduction by using catalytic converters
Abstract
The utility model relates to the technical field of waste gas treatment, in particular to a macroporous resin adsorption device for waste gas treatment and purification. The macroporous resin adsorption device for waste gas treatment and purification comprises a purification cylinder and a mixing disinfection connector, wherein an embedded filter cylinder fixedly installed is arranged in the purification cylinder, an adsorption component is clamped in the embedded filter cylinder, the mixing disinfection connector is erected on the purification cylinder, and the mixing disinfection connector is used for disinfecting filtered and adsorbed waste gas. The macroporous resin adsorption device for waste gas treatment and purification provided by the utility model can be used for filtering and purifying waste gas by utilizing the T-shaped activated carbon rod in the embedded filter cylinder, and meanwhile, the T-shaped activated carbon rod also plays a role in clamping the adsorption component, and after the waste gas enters the air filling cylinder, the waste gas enters the annular macroporous resin storage cavity through gas internal pressure and overflow from the air filling cylinder, and is filtered and adsorbed by the macroporous resin in the annular macroporous resin storage cavity.
Description
Technical Field
The utility model relates to the technical field of waste gas treatment, in particular to a macroporous resin adsorption device for waste gas treatment and purification.
Background
The macroporous resin is mainly prepared from styrene, divinylbenzene and the like, has stable physicochemical properties, is insoluble in acid, alkali and organic solvents, has good selectivity to organic matters, is not influenced by the existence of inorganic salts, strong ions and low molecular compounds, and has the adsorption principle of selectively adsorbing organic matters from a solution through physical adsorption so as to achieve the purposes of separation and purification.
The macroporous resin in the existing macroporous adsorption device has poor flowability, waste gas is difficult to disperse quickly and effectively after entering the macroporous resin, so that the purification and filtration effects are poor, and a filter cartridge with the built-in macroporous resin is difficult to mount, has too many inlets and is complicated to operate.
Therefore, it is necessary to provide a new macroporous resin adsorption device for exhaust gas treatment and purification to solve the above technical problems.
SUMMERY OF THE UTILITY MODEL
In order to solve the technical problem, the utility model provides a macroporous resin adsorption device for waste gas treatment and purification.
The utility model provides a macroporous resin adsorption device for waste gas treatment and purification, which comprises:
the purification device comprises a purification cylinder, a filter core and a filter core, wherein an embedded filter cylinder is fixedly arranged in the purification cylinder, and an adsorption component is clamped in the embedded filter cylinder;
the mixing disinfection connector is erected on the purification cylinder and is used for disinfecting filtered and adsorbed waste gas.
Preferably, the inner cylinder wall of the embedded filter cylinder is provided with a plurality of annularly distributed T-shaped inserting grooves, and the outer cylinder wall of the embedded filter cylinder corresponding to each T-shaped inserting groove is provided with a filter hole.
Preferably, a T-shaped activated carbon rod is inserted into each T-shaped insertion groove formed in the embedded filter cylinder.
Preferably, the adsorption component comprises an air filling cylinder, an embedding cylinder and a macroporous resin annular storage cavity, the embedding cylinder is fixedly embedded in the embedding cylinder and coaxially arranged, the accommodating cavity between the embedding cylinder and the air filling cylinder forms the macroporous resin annular storage cavity, and a plurality of annular-distributed clamping grooves are formed in the outer cylinder wall of the embedding cylinder.
Preferably, the adsorption component is arranged in the embedded filter cylinder, and the embedded cylinder in the adsorption component is clamped with the T-shaped activated carbon rods inserted in the T-shaped insertion grooves through the clamping grooves.
Preferably, a plurality of communicating holes which are uniformly distributed are formed in the gas filling cylinder and the embedding cylinder in the adsorption assembly, and sufficient macroporous resin is stored in the annular macroporous resin storage cavity in the adsorption assembly.
Preferably, compounding disinfection connector includes ring pipe, honeycomb duct and threaded connection head, the ring pipe passes through the fixed gomphosis of pipe clamp in the purifying cylinder, just the ring pipe box is established in the outside of embedded straining a section of thick bamboo, set up the outage that a plurality of slope set up on the interior pipe surface of ring pipe, just fixed mounting has the honeycomb duct that extends the purifying cylinder on the ring pipe, fixed mounting has threaded connection head on the honeycomb duct.
Preferably, the bottom of the purification cylinder is fixedly provided with an exhaust device, the exhaust device consists of four curved tubes and a collecting tube, the four curved tubes are fixedly connected with an exhaust port at the bottom of the purification cylinder, and the other ends of the four curved tubes are fixedly embedded on a feed port of the collecting tube.
Preferably, the top of the purification cylinder is fixedly provided with a connecting pipe head, and an air inlet pipe orifice of the connecting pipe head is inserted into the air filling cylinder in the adsorption assembly.
Compared with the related art, the macroporous resin adsorption device for waste gas treatment and purification provided by the utility model has the following beneficial effects:
1. according to the utility model, the T-shaped activated carbon rod in the embedded filter cylinder can be used for filtering and purifying waste gas, and meanwhile, the T-shaped activated carbon rod also plays a role in clamping the adsorption component, so that other connecting pieces are not needed when the adsorption component is installed, the T-shaped activated carbon rod only needs to be inserted into the T-shaped insertion groove, and after a certain period, the T-shaped activated carbon rod is taken out and then replaced by a new T-shaped activated carbon rod;
2. according to the utility model, the embedded filter cylinder is placed in the embedded filter cylinder, the clamping grooves formed in the embedded filter cylinder are clamped with the T-shaped activated carbon rods inserted in the T-shaped insertion grooves, so that the installation of the adsorption component is completed, and then the macroporous resin is put into the annular macroporous resin storage cavity, so that after waste gas enters the air filling cylinder, the waste gas enters the annular macroporous resin storage cavity through the internal pressure of the gas and overflows from the air filling cylinder, and is filtered and adsorbed by the macroporous resin in the annular macroporous resin storage cavity.
Drawings
FIG. 1 is a schematic structural diagram of a preferred embodiment of a macroporous resin adsorption device for purification of waste gas treatment provided by the present invention;
FIG. 2 is a schematic cross-sectional view of the purification cartridge of FIG. 1;
FIG. 3 is a schematic view of the in-line cartridge and adsorbent assembly of the purification cartridge of FIG. 1;
FIG. 4 is a schematic view of the in-line filter cartridge of FIG. 3;
fig. 5 is a schematic structural view of the adsorption assembly shown in fig. 3.
The reference numbers in the figures: 1. a purification cartridge; 2. an in-line filter cartridge; 2a, inserting a T-shaped inserting groove; 2b, filtering holes; 3. an adsorption component; 31. filling an air cylinder; 32. a fitting cylinder; 32a, an engagement groove; 33. a macroporous resin annular storage cavity; 4. a T-shaped activated carbon rod; 5. a mixing sterilizing connector; 51. an annular tube; 52. a flow guide pipe; 53. a threaded connector; 6. an exhaust; 7. connecting the tube head.
Detailed Description
In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the utility model and are not intended to limit the utility model.
Specific implementations of the present invention are described in detail below with reference to specific embodiments.
Referring to fig. 1 to 5, an embodiment of the present invention provides a macroporous resin adsorption device for exhaust gas treatment and purification, including: a purification cylinder 1 and a mixing sterilizing connector 5.
In an embodiment of the present invention, referring to fig. 2 and 3, an embedded filter cartridge 2 is fixedly installed in the purification cartridge 1, an inner wall of the embedded filter cartridge 2 is provided with a plurality of annularly distributed T-shaped insertion grooves 2a, an outer wall of the embedded filter cartridge 2 corresponding to each T-shaped insertion groove 2a is provided with a filter hole 2b, each T-shaped insertion groove 2a provided in the embedded filter cartridge 2 is inserted with a T-shaped activated carbon rod 4, and an adsorption component 3 is clamped in the embedded filter cartridge 2.
It should be noted that: utilize embedded T type activated carbon rod 4 who strains in the section of thick bamboo 2 can filter, the effect of purification to waste gas, T type activated carbon rod 4 still plays the joint effect to adsorption element 3 simultaneously for need not other connecting pieces during the installation of adsorption element 3, and T type activated carbon rod 4 only need insert establish the T type insert establish in groove 2a can, and take out behind the certain period T type activated carbon rod 4 and more renew T type activated carbon rod 4.
In the embodiment of the present invention, referring to fig. 2, 4 and 5, the adsorption assembly 3 includes an air-filling cylinder 31, an engaging cylinder 32 and a macroporous resin annular storage chamber 33, the coaxially arranged air-filling cylinder 31 is fixedly engaged in the engaging cylinder 32, and the cavity between the embedded cylinder 32 and the air filling cylinder 31 forms a large-hole resin annular storage cavity 33, the outer wall of the embedding cylinder 32 is provided with a plurality of clamping grooves 32a which are distributed annularly, the adsorption component 3 is arranged in the embedded filter cylinder 2, and the embedding cylinder 32 in the adsorption component 3 is clamped with the T-shaped activated carbon rods 4 inserted in the T-shaped inserting grooves 2a through the clamping grooves 32a, the air filling cylinder 31 and the embedding cylinder 32 in the adsorption component 3 are both provided with a plurality of communicating holes which are uniformly distributed, and the annular macroporous resin storage cavity 33 in the adsorption component 3 stores enough macroporous resin.
It should be noted that: placing the embedded cylinder 32 into the embedded filter cylinder 2, simultaneously clamping the clamping grooves 32a formed in the embedded cylinder 32 with the T-shaped activated carbon rods 4 inserted into the T-shaped insertion grooves 2a to complete the installation of the adsorption component 3, subsequently putting the macroporous resin into the macroporous resin annular storage cavity 33, and after waste gas enters the gas filling cylinder 31, allowing the waste gas to enter the macroporous resin annular storage cavity 33 through gas internal pressure and overflow from the gas filling cylinder 31, and filtering and adsorbing the waste gas by the macroporous resin in the macroporous resin annular storage cavity 33;
it should also be noted that: with the increase of the amount of the waste gas in the inflator 31, the waste gas is continuously dispersed into the annular storage cavity 33 of the macroporous resin and is treated by the macroporous resin, on one hand, the inflator 31 can filter slightly larger impurities in the waste gas, on the other hand, the inflator 31 drives the waste gas to be subjected to distributed filtration, and the filtration effect and the flowability of the macroporous resin in the annular storage cavity 33 of the macroporous resin are improved.
In the present embodiment: after the suction unit 3 is used for a certain period of time, the suction unit 3 is taken out and the air-filled cylinder 31 and the fitting cylinder 32 are cleaned.
In the embodiment of the present invention, referring to fig. 1, an exhaust device 6 is fixedly installed at the bottom of the purification cylinder 1, the exhaust device 6 is composed of four curved tubes and a collecting tube, the four curved tubes are fixedly connected with an exhaust port at the bottom of the purification cylinder 1, the other ends of the four curved tubes are fixedly embedded on a feed port of the collecting tube, a connector head 7 is fixedly installed at the top of the purification cylinder 1, an air inlet pipe orifice of the connector head 7 is inserted into an air filling cylinder 31 in the adsorption assembly 3, the connector head 7 is connected with an exhaust gas pipe, and the collecting tube in the exhaust device 6 is communicated with a water pipe of a wastewater recovery tank.
In an embodiment of the present invention, referring to fig. 1 and 2, the mixing sterilizing connector 5 is mounted on the purifying cylinder 1, and the filtered and adsorbed waste gas is sterilized by the mixing sterilizing connector 5, the mixing sterilizing connector 5 includes an annular pipe 51, a flow guide pipe 52 and a threaded connector 53, the annular pipe 51 is fixedly embedded in the purifying cylinder 1 by a pipe clamp, the annular pipe 51 is sleeved outside the embedded filter cylinder 2, a plurality of exhaust holes are formed in an inner pipe surface of the annular pipe 51, the flow guide pipe 52 extending out of the purifying cylinder 1 is fixedly mounted on the annular pipe 51, and the threaded connector 53 is fixedly mounted on the flow guide pipe 52.
It should be noted that: with threaded connection 53 and the outlet connection of disinfection jar to the antiseptic solution is arranged to purification section of thick bamboo 1 in and is mixed with the waste gas after purifying from annular pipe 51, disinfection and washing, because set up the outage that a plurality of slope set up on annular pipe 51's the interior pipe surface, consequently the antiseptic solution is driven waste gas after the discharge and is the annular flow, has further improved the mixed degree of antiseptic solution and waste gas and the washing effect of antiseptic solution to waste gas.
The working principle of the macroporous resin adsorption device for waste gas treatment and purification provided by the utility model is as follows:
connecting the connector head 7 with an exhaust gas exhaust pipe, communicating a collecting pipe in an exhaust device 6 with a water pipe of a wastewater recovery tank, placing the embedded cylinder 32 into the embedded filter cylinder 2, simultaneously clamping a clamping groove 32a formed in the embedded cylinder 32 with a T-shaped activated carbon rod 4 inserted in the T-shaped insertion groove 2a to complete the installation of the adsorption component 3, subsequently putting macroporous resin into the macroporous resin annular storage cavity 33, so that after the exhaust gas enters the air filling cylinder 31, the exhaust gas overflows to the air filling cylinder 31 through the internal pressure of the gas to enter the macroporous resin annular storage cavity 33, and is filtered and adsorbed by the macroporous resin in the macroporous resin annular storage cavity 33, and the T-shaped activated carbon rod 4 in the embedded filter cylinder 2 can filter and purify the exhaust gas, and along with the increase of the amount of the exhaust gas in the air filling cylinder 31, the exhaust gas is continuously dispersed into the macroporous resin annular storage cavity 33 and is treated by the macroporous resin, on one hand, the gas filling cylinder 31 can filter slightly larger impurities in the waste gas, on the other hand, the gas filling cylinder 31 drives the waste gas to carry out distributed filtration, the filtration effect and the flowability of the macroporous resin in the annular macroporous resin storage cavity 33 are improved, meanwhile, the T-shaped activated carbon rod 4 also plays a role in clamping the adsorption component 3, so that other connecting pieces are not needed when the adsorption component 3 is installed, and the T-shaped activated carbon rod 4 only needs to be inserted into the T-shaped insertion groove 2a, the threaded connector 53 is connected with the water outlet of the disinfection tank, so that the disinfectant is discharged from the annular pipe 51 into the purifying cylinder 1 and is mixed, disinfected and washed with the purified exhaust gas, because the inner pipe surface of the annular pipe 51 is provided with a plurality of liquid discharge holes which are obliquely arranged, the waste gas is driven to flow in an annular shape after the disinfectant is discharged, and the mixing degree of the disinfectant and the waste gas and the washing effect of the disinfectant on the waste gas are further improved.
The circuits and controls involved in the present invention are prior art and will not be described in detail herein.
The above description is only an embodiment of the present invention, and not intended to limit the scope of the present invention, and all modifications of equivalent structures and equivalent processes, which are made by using the contents of the present specification and the accompanying drawings, or directly or indirectly applied to other related technical fields, are included in the scope of the present invention.
Claims (9)
1. The utility model provides a waste gas treatment purifies uses macroporous resin adsorption equipment which characterized in that includes:
the device comprises a purification cylinder (1), wherein an embedded filter cylinder (2) is fixedly installed in the purification cylinder (1), and an adsorption component (3) is clamped in the embedded filter cylinder (2);
compounding disinfection connector (5), compounding disinfection connector (5) erect on purifying cylinder (1), through compounding disinfection connector (5) carry out disinfection treatment to filteration, absorbent waste gas.
2. The macroporous resin adsorption device for exhaust gas treatment and purification according to claim 1, wherein the inner wall of the inline filter cartridge (2) is provided with a plurality of annularly distributed T-shaped insertion grooves (2a), and the outer wall of the inline filter cartridge (2) corresponding to each T-shaped insertion groove (2a) is provided with a filter hole (2 b).
3. The macroporous resin adsorption device for exhaust gas treatment and purification according to claim 2, wherein a T-shaped activated carbon rod (4) is inserted into each T-shaped insertion groove (2a) formed in the embedded filter cartridge (2).
4. The macroporous resin adsorption device for exhaust gas treatment and purification according to claim 1, wherein the adsorption component (3) comprises an air filling cylinder (31), an embedding cylinder (32) and a macroporous resin annular storage cavity (33), the air filling cylinder (31) coaxially arranged is fixedly embedded in the embedding cylinder (32), a cavity between the embedding cylinder (32) and the air filling cylinder (31) forms the macroporous resin annular storage cavity (33), and a plurality of annularly distributed clamping grooves (32a) are formed in the outer cylinder wall of the embedding cylinder (32).
5. The macroporous resin adsorption device for exhaust gas treatment and purification according to claim 3 or 4, wherein the adsorption module (3) is built in the inline filter cartridge (2), and the engaging cylinder (32) in the adsorption module (3) is engaged with the T-shaped activated carbon rods (4) inserted in the T-shaped insertion grooves (2a) through the engaging grooves (32 a).
6. The macroporous resin adsorption device for exhaust gas treatment and purification according to claim 4, wherein the air filling cylinder (31) and the embedding cylinder (32) in the adsorption module (3) are both provided with a plurality of uniformly distributed communication holes, and a sufficient amount of macroporous resin is stored in the annular macroporous resin storage cavity (33) in the adsorption module (3).
7. The macroporous resin adsorption device for exhaust gas treatment and purification according to claim 1, wherein the mixed material disinfection connector (5) comprises an annular pipe (51), a flow guide pipe (52) and a threaded connector (53), the annular pipe (51) is fixedly embedded in the purification cylinder (1) through a pipe clamp, the annular pipe (51) is sleeved on the outer side of the embedded type filter cylinder (2), a plurality of obliquely arranged liquid discharge holes are formed in the inner pipe surface of the annular pipe (51), the flow guide pipe (52) extending out of the purification cylinder (1) is fixedly installed on the annular pipe (51), and the threaded connector (53) is fixedly installed on the flow guide pipe (52).
8. The macroporous resin adsorption device for exhaust gas treatment and purification according to claim 1, wherein an exhaust ventilator (6) is fixedly installed at the bottom of the purification cylinder (1), the exhaust ventilator (6) comprises four curved tubes and a collecting tube, the four curved tubes are fixedly connected with an exhaust port at the bottom of the purification cylinder (1), and the other ends of the four curved tubes are fixedly embedded on a feeding port of the collecting tube.
9. The macroporous resin adsorption device for exhaust gas treatment and purification according to claim 1, wherein a connector head (7) is fixedly mounted on the top of the purification cartridge (1), and an air inlet pipe orifice of the connector head (7) is inserted into an air filling cartridge (31) in the adsorption assembly (3).
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CN202121643268.9U CN216878586U (en) | 2021-07-20 | 2021-07-20 | Macroporous resin adsorption device for waste gas treatment and purification |
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CN202121643268.9U CN216878586U (en) | 2021-07-20 | 2021-07-20 | Macroporous resin adsorption device for waste gas treatment and purification |
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