CN112426874A - Biological filtration deodorization equipment - Google Patents

Abstract

The invention provides a biological filtering deodorization device, which comprises an air suction valve, a tower body, an air outlet, a circulating pipe, a nutrient tank and a base platform, wherein the air suction valve is welded on the side surface of the front end of the tower body, the right side of the tower body is riveted with the left side of the nutrient tank, the air outlet is welded on the top end of the tower body, the tower body comprises a filter belt, a spraying tank, a tower wall, a jacking tank and a soil grid, a heating device is arranged in the soil grid, in winter, a heating pipe is used for generating heat to radiate from the polymerizing tank, the frozen soil formed by soil is avoided, the activity range of microorganisms is reduced, the activity of the microorganisms inside is influenced, meanwhile, a connecting pipe is used for dispersing the microorganisms into a membrane storage tray, the microorganisms are conveyed into a branch pipe through an absorption pipe, the activity speed of the microorganisms is accelerated by a guide cavity, a biological membrane is formed by outputting from, the problem that the odor purification efficiency is slowed down due to the fact that the biomembrane cannot be completely replaced after being broken is avoided.

Description

Biological filtration deodorization equipment

Technical Field

The invention relates to the technical field of biological filtration equipment, in particular to biological filtration deodorization equipment.

Background

A biofiltration deodorization equipment is characterized in that according to biochemical characteristics of various toxic malodorous gases, organic pollutants in the malodorous gases are degraded or converted into harmless or low-harmful substances by utilizing microorganisms growing on the surfaces of solids, common solid biomembranes comprise soil and compost, mostly have a tower structure and are arranged in an animal farm for purifying the odor of excrement, residue and grains in a factory building, the living temperature of most microorganisms is between 15 and 45 ℃, and the proliferation of the microorganisms is accelerated along with the rise of the temperature in the temperature range.

The biofiltration equipment is used for deodorizing odor molecules by culturing a microbial film in biological filler on the filter tank, so that the temperature is sharply reduced at night in winter, the soil forms frozen soil to reduce the activity range of microorganisms, the activity of the microorganisms in the biofiltration equipment is influenced, the fusion composition speed of the biofilms is reduced, and the biofilms cannot be completely replaced after being broken, and the odor purification efficiency is reduced.

Disclosure of the invention technical problem (1)

Aiming at the defects of the prior art, the invention provides a biofiltration deodorization device, which aims to solve the problem that the odor purification efficiency is reduced due to the fact that the activity range of microorganisms is reduced by reducing the activity range of the microorganisms caused by the formation of frozen soil in winter and the fusion composition speed of a biological membrane is influenced.

In order to achieve the purpose, the invention is realized by the following technical scheme: the utility model provides a biofiltration deodorization equipment, its structure includes suction valve, tower body, gas vent, circulating pipe, nutrient groove, base station, suction valve welded connection is in tower body front end side, tower body right side and nutrient groove left side riveting are connected, gas vent welded connection is on the tower body top, circulating pipe flange joint is on the tower body right side, nutrient groove is built firmly and is connected on base station top right side, base station welded connection is in tower body bottom, the tower body includes the cassette, sprays groove, tower wall, jacking groove, soil check, the cassette interference fit is in the groove top that sprays, it builds firmly and connects in jacking groove top to spray the groove, inboard and the cassette welded connection in tower wall top, jacking tank bottom and soil check top flange joint, soil check welded connection is in tower wall bottom.

Preferably, the soil lattice comprises a heating device, a release disc, a bacterial soil groove, an air inlet and an electric connection pipe, the heating device is fixedly connected inside the bacterial soil groove, the release disc is welded at the top of the heating device, the bottom of the bacterial soil groove is fixedly connected with the air inlet, the middle of the air inlet is connected with the side face of the bottom of the electric connection pipe in a clamping manner, the top of the electric connection pipe is connected between the heating devices in a riveting manner, and the two heating devices are distributed on two sides of the bacterial soil groove by taking the electric connection pipe as the center.

Preferably, the heating device comprises a heating pipe, a flow port and a polymerization groove, the heating pipe is embedded and fixedly connected in the polymerization groove, the flow port is in interference fit with the top of the heating pipe, two sides of the top end of the polymerization groove are connected with the flow port in a flange mode, ten polymerization grooves are arranged in the polymerization groove, and the polymerization grooves are oppositely and equidistantly arranged on the outer side of the heating pipe.

Preferably, the flow port comprises an exhaust pipe, an inserting rod and a flat sliding block, the exhaust pipe is welded at the top end of the inserting rod, the flat sliding block is fixedly connected to the inner side of the exhaust pipe in an embedded mode, and the flat sliding block is in a half-angle trapezoid shape and is installed inside two ends of the exhaust pipe.

Preferably, the release disc comprises a connecting pipe, a membrane storage disc and a discharge port, the connecting pipe is connected to the bottom of the discharge port in a welded mode, the membrane storage disc is connected to the inside of the connecting pipe in an embedded mode, the discharge port is connected to the top of the membrane storage disc in a flange mode, the connecting pipe is trapezoidal in shape and installed in an inverted mode, and the thickness of the membrane storage disc is two centimeters.

Preferably, the membrane storage plate comprises an absorption tube, a fusion groove and split tubes, wherein the absorption tube is connected to the rear end of the fusion groove through bolts, the fusion groove is embedded in the front part of the split tube, the split tubes are embedded and connected to the inner side of the absorption tube, the split tubes are twenty-four in number, and the split tubes are distributed around the inner side of the absorption tube by taking the fusion groove as the center.

Preferably, the split tube comprises a converging tube, a guide cavity and a bobbin, the top end of the middle part of the converging tube is fixedly connected to the bottom of the bobbin in a penetrating mode, two ends of the bottom of the guide cavity are connected with the top end of the converging tube in a welding mode, the bobbin is connected to the top end of the guide cavity in a welding mode, and the top column of the middle part of the converging tube and the guide cavity are made of linear plates.

(II) advantageous effects

The invention provides a biological filtering and deodorizing device. The method has the following beneficial effects:

1. according to the invention, the heating device is arranged in the soil grid, and the heating pipe is used for generating heat to be emitted from the polymerization tank in winter, so that the soil is prevented from forming frozen soil, the activity range of microorganisms is reduced, and the activity of the microorganisms in the soil is influenced.

2. The invention utilizes the connecting pipe to disperse the microorganisms into the membrane storage disc, and the microorganisms are conveyed into the branch pipe through the absorption pipe, the movement speed of the microorganisms is accelerated by the guide cavity, and the microorganisms are output from the bobbin pipe to the fusion tank to form a biological membrane which is stored in the fusion tank, so that the problem that the odor purification efficiency is reduced because the biological membrane cannot be completely replaced after being broken is avoided.

Drawings

FIG. 1 is a schematic view showing the construction of a biofiltration deodorization apparatus according to the present invention;

fig. 2 is a schematic structural view of a tower body according to the present invention;

FIG. 3 is a schematic view of the structure of a soil grid according to the present invention;

FIG. 4 is a schematic structural view of a heating apparatus according to the present invention;

FIG. 5 is a schematic view of the structure of a flow port of the present invention;

FIG. 6 is a schematic view of the structure of the release tray of the present invention;

FIG. 7 is a schematic structural view of a film storage tray according to the present invention;

FIG. 8 is a schematic structural view of the tapping pipe according to the present invention;

in the figure: the device comprises a suction valve-1, a tower body-2, an exhaust port-3, a circulating pipe-4, a nutrient tank-5, a base platform-6, a filter belt-21, a spraying tank-22, a tower wall-23, a jacking tank-24, a soil grid-25, a heating device-241, a release disc-242, a bacteria soil tank-243, an air inlet-244, an electric connecting pipe-245, a heating pipe-a 1, a flow port-a 2, a polymerization tank-a 3, an air pipe-a 21, an insertion rod-a 22, a flat sliding block-a 23, a connecting pipe-b 1, a membrane storage disc-b 2, an exhaust port-b 3, an absorption pipe-b 21, a fusion tank-b 22, a split pipe-b 23, a bundling pipe-c 1, a guide cavity-c 2 and a bobbin-c 3.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Example 1

As shown in fig. 1 to 5, the embodiment of the invention provides a biological filtration deodorization device, which comprises an air suction valve 1, a tower body 2, an air exhaust port 3, a circulation pipe 4, a nutrient tank 5 and a base 6, wherein the air suction valve 1 is welded on the side surface of the front end of the tower body 2, the right side of the tower body 2 is riveted with the left side of the nutrient tank 5, the air exhaust port 3 is welded on the top end of the tower body 2, the circulation pipe 4 is connected on the right side of the tower body 2 by a flange, the nutrient tank 5 is fixedly embedded on the right side of the top of the base 6, the base 6 is welded on the bottom end of the tower body 2, the tower body 2 comprises a filter belt 21, a spray tank 22, a tower wall 23, a jacking tank 24 and a soil grid 25, the filter belt 21 is in interference fit above the spray tank 22, the spray tank 22 is fixedly connected above the jacking tank 24, the inner side of the top of the tower wall 23 is, the soil grid 25 is welded to the bottom end of the tower wall 23.

The soil grid 25 comprises a heating device 251, a release disc 252, a soil and bacteria trough 253, air inlets 254 and an electric connection pipe 255, wherein the heating device 251 is fixedly connected inside the soil and bacteria trough 253, the release disc 252 is welded and connected to the top of the heating device 251, the bottom of the soil and bacteria trough 253 is fixedly connected with the air inlets 254, the middle of each air inlet 254 is connected with the side face of the bottom end of the electric connection pipe 255 in a clamping manner, the top of the electric connection pipe 255 is connected between the heating devices 251 in a riveting manner, the two heating devices 251 are shared, the electric connection pipes 255 are distributed inside the soil and bacteria trough 253 as centers, heat is generated inside the soil and the temperature of the soil is increased to prevent frozen soil from being formed.

The heating device 241 comprises a heating pipe a1, a flow port a2 and a polymerization groove a3, wherein the heating pipe a1 is fixedly connected in the polymerization groove a3 in an embedded mode, the flow port a2 is in interference fit with the top of the heating pipe a1, two sides of the top end of the polymerization groove a3 are in welded connection with the flow port a2, ten polymerization grooves a3 are arranged on the outer side of the heating pipe a1 in an opposite and equidistant mode, and microorganisms can enter the flow port a2 from the pipeline while heat is dissipated to the outer side through the polymerization groove a 3.

The flow port a2 comprises an exhaust pipe a21, an insertion rod a22 and a flat slider a23, the exhaust pipe a21 is connected to the top end of the insertion rod a22 in a welding mode, the flat slider a23 is connected to the inner side of the exhaust pipe a21 in an embedding mode, the flat slider a23 is in a half-angle trapezoid shape and is installed inside two ends of an exhaust pipe a21, and the moving speed of microorganisms is improved through the flat slider a 23.

The specific working process is as follows:

in the invention, an air suction valve 1 sucks odor into a tower body 2, water is sucked into a spraying groove 22 on a tower wall 23 by a circulating pipe 4, the odor is input into a soil lattice 25 from an air inlet 254, a biomembrane is released by the soil lattice 25 to wrap odor molecules in a jacking groove 24, the odor molecules are purified by the spraying groove 22 and a filter belt 21 and then are discharged from an air outlet 3, a heating device 251 is powered by an electric connecting pipe 255 in the soil lattice 25 in winter, a heating pipe a1 generates heat and is emitted into a bacterial soil groove 253 from a polymerization groove a3, the temperature of the soil is increased to avoid forming frozen soil, an insertion rod a22 fixes an air pipe a21 on the upper side of the heating pipe a1, so that microorganisms can enter into a flow port a2 from a polymerization groove a3, and the activity speed of the microorganisms is increased by a flat slide block a23, so that a large amount of microorganisms can be input into a release disc 252.

Example 2

As shown in fig. 6 to 8, the embodiment of the present invention provides a biofiltration deodorization apparatus,

the releasing disc 242 comprises a connecting pipe b1, a film storage disc b2 and a discharge port b3, the connecting pipe b1 is welded at the bottom of the discharge port b3, the film storage disc b2 is fixedly connected inside the connecting pipe b1, the discharge port b3 is connected to the top of the film storage disc b2 in a flange mode, the connecting pipe b1 is trapezoidal in shape and is installed in an inverted state, the thickness of the film storage disc b2 is two centimeters, microorganisms can be dispersed into the film storage disc b2 through the connecting pipe b1 and stored under the condition that the microorganisms are redundant by utilizing the thickness of the film storage disc b 2.

Wherein, the film storage tray b2 comprises an absorption tube b21, a fusion groove b22 and a split tube b23, the absorption tube b21 is bolted at the rear end of the fusion groove b22, the fusion groove b22 is embedded at the front part of the split tube b23, the split tube b23 is embedded and connected at the inner side of the absorption tube b21, the split tube b23 has 24 pieces in total and is distributed around the inner side of the absorption tube b21 by taking the fusion groove b22 as the center, so that the microorganism can be more quickly molded in the fusion groove b22 after being output.

The split pipe b23 comprises a converging pipe c1, a guide cavity c2 and a bobbin c3, the top end of the middle part of the converging pipe c1 is connected to the middle part of the bobbin c3 in a penetrating and embedding manner, the two ends of the bottom of the guide cavity c2 are connected with the top end of the outer side of the converging pipe c1 in an embedding manner, the bobbin c3 is connected to the top end of the guide cavity c2 in a welding manner, the top column of the middle part of the converging pipe c1 and the guide cavity c2 are made of linear plates, and the moving speed of microorganisms in the converging pipe c1 and the guide cavity c2 is increased through.

The specific working process is as follows:

in the invention, microorganisms can be dispersed into the membrane storage disc b2 by the connecting pipe b1, the microorganisms are conveyed into the opening pipe b23 through the absorption pipe b21, the activity speed of the microorganisms is increased by the streamline plate of the guide cavity c2 after the microorganisms enter the bundling pipe c1, the microorganisms are output into the fusion tank b22 from the bobbin c3 to form a biological membrane, and meanwhile, the microorganisms are stored in the fusion tank b22 under the condition of redundant microorganisms by the thickness of the membrane storage disc b2, so that the phenomenon that the biological membrane cannot be completely replaced after being broken is avoided, and the odor purification efficiency is reduced.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (7)

1. The utility model provides a biofiltration deodorization equipment, its structure includes suction valve (1), tower body (2), gas vent (3), circulating pipe (4), nutrient groove (5), base station (6), suction valve (1) welded connection is in tower body (2) front end side, tower body (2) right side and nutrient groove (5) left side riveting are connected, gas vent (3) welded connection is on tower body (2) top, circulating pipe (4) flange joint is on tower body (2) right side, nutrient groove (5) are inlayed solid and are connected on base station (6) top right side, base station (6) welded connection is in tower body (2) bottom, its characterized in that:

tower body (2) include cassette (21), spray tank (22), tower wall (23), jacking groove (24), soil check (25), cassette (21) interference fit is in spray tank (22) top, spray tank (22) built-in connection is in jacking groove (24) top, tower wall (23) top inboard and cassette (21) welded connection, jacking groove (24) bottom and soil check (25) top flange joint, soil check (25) welded connection is in tower wall (23) bottom.

2. A biofiltration deodorizing device according to claim 1, characterized in that: soil check (25) include heating device (251), release dish (252), fungus soil box (253), air inlet (254), electricity union coupling pipe (255), heating device (251) are connected in the inside of fungus soil box (253) in a set-in, release dish (252) welded connection is at heating device (251) top, fungus soil box (253) bottom and air inlet (254) are connected in a set-in, air inlet (254) middle part and electricity union coupling pipe (255) bottom side block are connected, electricity union coupling pipe (255) top riveting is connected between heating device (251).

3. A biofiltration deodorizing device according to claim 2, characterized in that: the heating device (241) comprises a heating pipe (a1), a flow port (a2) and a polymerization groove (a3), wherein the heating pipe (a1) is fixedly connected in the polymerization groove (a3), the flow port (a2) is in interference fit with the top of the heating pipe (a1), and two sides of the top end of the polymerization groove (a3) are in flange connection with the flow port (a 2).

4. A biofiltration deodorizing device according to claim 3, characterized in that: the flow port (a2) comprises an exhaust pipe (a21), an insertion rod (a22) and a flat sliding block (a23), the exhaust pipe (a21) is connected to the top end of the insertion rod (a22) in a welding mode, and the flat sliding block (a23) is connected to the inner portions of two ends of the exhaust pipe (a21) in a embedding mode.

5. The biofiltration deodorizing device according to claim 2, wherein: the releasing disc (242) comprises a connecting pipe (b1), a film storage disc (b2) and a discharge port (b3), the connecting pipe (b1) is connected to the bottom of the discharge port (b3) in a welding mode, the film storage disc (b2) is connected to the inside of the connecting pipe (b1) in an embedded mode, and the discharge port (b3) is connected to the top of the film storage disc (b2) in a flange mode.

6. A biofiltration deodorizing device according to claim 5, characterized in that: the film storage disc (b2) comprises an absorption tube (b21), a fusion groove (b22) and a tapping tube (b23), wherein the absorption tube (b21) is connected to the rear end of the fusion groove (b22) in a bolt mode, the fusion groove (b22) is embedded in the front of the tapping tube (b23), and the tapping tube (b23) is embedded and connected to the inner side of the absorption tube (b 21).

7. A biofiltration deodorizing device according to claim 6, characterized in that: the split pipe (b23) comprises a bundling pipe (c1), a guide cavity (c2) and a bobbin (c3), the top end of the middle part of the bundling pipe (c1) penetrates through the bobbin (c3) to be fixedly connected in an embedded mode, two ends of the bottom of the guide cavity (c2) are fixedly connected with the top end of the outer side of the bundling pipe (c1) in an embedded mode, and the bobbin (c3) is connected to the top end of the guide cavity (c2) in an embedded mode.

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