CN109205874B - Bamboo product wastewater treatment device based on coconut shell activated carbon filtration - Google Patents

Abstract

The invention discloses a bamboo product wastewater treatment device based on coconut shell activated carbon filtration, which structurally comprises a water inlet, a waterproof cover, a treatment device, interfaces, supporting rods, a bottom plate and a water outlet, wherein the bottom of the water inlet is embedded and installed on the left side of the outer surface of the top of the waterproof cover, the waterproof cover is fixedly installed on the outer surface of the top of the treatment device, the interfaces are provided with two parts and installed at the lower ends of two sides of the treatment device, the supporting rods are provided with one part and welded at the bottom of the treatment device, the outer surface of the top of the bottom plate is welded with the bottom of the supporting rods, and the water outlet is embedded and installed at the middle end of the bottom of the treatment device and located between the supporting rods, so that the bamboo product wastewater treatment device has the beneficial effects that: under the effect of inlet tube and coconut husk activated carbon plate, tentatively filter its sewage, then positive pole pipe cooperatees with the circular telegram of negative pole pipe, adsorbs the sewage after filtering, at last under the effect of second coconut husk activated carbon plate, carries out last adsorption treatment to remaining material in its sewage, makes the sewage of handling up to standard, can reuse and prevent environmental pollution.

Description

Bamboo product wastewater treatment device based on coconut shell activated carbon filtration

Technical Field

The invention relates to the field of wastewater treatment, in particular to a bamboo product wastewater treatment device based on coconut shell activated carbon filtration.

Background

Bamboo is generally used to make products, collectively referred to as bamboo products, because of its high, straight, hard, and generally strong toughness.

The bamboo is after the poaching, the bamboo contracts, make the structure more compact and more firm, it is more durable, so need cook it in the production process at bamboo article, in order to get rid of the sugar in the bamboo, starch and need add anticorrosive material and carry out anticorrosive at the in-process of cooking, consequently can produce certain waste water, contain certain colloid in the waste water, the sugar divides the material, anticorrosive material and bamboo bits, in carrying out the processing procedure to it, the sugar divides and anticorrosive material is dissolved in water, and the colloid is soluble in water and forms the stickness solution, it is difficult in order to filter totally, lead to still remaining its material in the waste water after handling, it is difficult with waste water reuse and cause environmental pollution.

Disclosure of Invention

Aiming at the defects in the prior art, the invention aims to provide a bamboo product wastewater treatment device based on coconut shell activated carbon filtration to solve the problem.

In order to achieve the purpose, the invention is realized by the following technical scheme: the utility model provides a bamboo article effluent treatment plant based on coconut husk active carbon filters, its structure includes water inlet, buckler, processing apparatus, interface, bracing piece, bottom plate, delivery port, its characterized in that:

the utility model discloses a processing device, including water inlet, bottom plate, bracing piece, water inlet bottom embedding, buckler top surface left side, buckler fixed mounting is in processing apparatus top surface, the interface is equipped with two and installs in processing apparatus both sides lower extreme, the bracing piece is equipped with one and welds in the processing apparatus bottom, bottom plate top surface welds with the bracing piece bottom, the delivery port embedding is installed in processing apparatus bottom middle-end and is located between the bracing piece.

Furthermore, the processing device comprises a water inlet pipe, a buckle, a coconut shell activated carbon plate, a protective sleeve, a connecting wire, an anode pipe, a drain pipe, a connecting pipe, a second coconut shell activated carbon plate, a fixing buckle, an electrolysis chamber, a cathode pipe and a water pipe, wherein the four water inlet pipes are uniformly arranged right above the coconut shell activated carbon plate, the two buckles are arranged and tightly attached to the lower surfaces of the two ends of the coconut shell activated carbon plate, the bottom of the coconut shell activated carbon plate is connected with the water pipe, the two protective sleeves are arranged on the two sides of the top of the water pipe, the right side of the connecting wire is connected with the anode pipe, the anode pipe is fixedly arranged on the left side of the inside of the electrolysis chamber, the top of the drain pipe is communicated with the electrolysis chamber, the second coconut shell activated carbon plate is arranged right below the drain pipe and attached to the drain pipe, the two fixing buckles are arranged and tightly attached to the bottoms of the anode pipe and the cathode pipe, the top of the electrolysis chamber is communicated with the bottom of the water pipe, and the cathode pipe is arranged on the right side of the inside of the electrolysis chamber.

Further, the inlet tube is by the welding piece, hang silk, connecting block, waterproof pad, fixed block, the welding piece right side welds with waterproof pad left side mutually, it twines on the connecting block to hang the silk, connecting block fixed mounting is on the fixed block right side, the fixed block welds in the welding piece surface and crisscross in waterproof pad.

Further, the coconut shell activated carbon plate comprises adsorption block, frame, adsorption through-hole, central adsorption through-hole, the adsorption block welds in the frame, the adsorption through-hole is equipped with a plurality of and even installation on the adsorption block, the central adsorption through-hole is installed in adsorption through-hole inboard and clearance fit.

Further, the lag comprises waterproof strip, protection pad, mounting panel, horizontal board, bolt, horizontal backup pad, waterproof strip is located directly over the protection pad, the protection pad right side is laminated with the mounting panel left side mutually, mounting panel upper surface lower extreme welds with horizontal board left side lower surface mutually, horizontal board is located under the horizontal backup pad, the bolt is equipped with two and installs in horizontal board, horizontal backup pad surface, horizontal backup pad left side lower surface welds with the mounting panel upper surface upper end mutually.

Furthermore, the fixed knot comprises guard plate, backup pad, splint, cardboard, welding plate, the guard plate is equipped with two and installs in backup pad surface both sides, backup pad top both ends are equipped with two cardboards, the cardboard is installed in splint surface upper end, the welding plate left side is hugged closely mutually with the cardboard upper surface.

Furthermore, the connecting block is of a hollow structure, so that the hanging wire can be conveniently wound on the connecting block.

Furthermore, the adsorption through hole and the central adsorption through hole are of hollow structures and penetrate through each other.

Furthermore, the water service pipe is connected with the transverse plate and the transverse supporting plate through bolts to fix the water service pipe.

Furthermore, the welding plates are provided with two welding plates which are respectively arranged on the inner sides of the two clamping plates, and the bottoms of the inner sides of the two welding plates are attached to the tops of the two welding plates.

Further, the outer frame is made of waterproof paper boards, so that the outer frame has a waterproof function.

Advantageous effects

Compared with the prior art, the bamboo product wastewater treatment device based on coconut shell activated carbon filtration has the following beneficial effects:

the invention is provided with a treatment device, sewage is discharged from a water inlet, then passes through a water inlet pipe, the water inlet pipe filters substances visible in the sewage, then the water flows onto a coconut shell activated carbon plate, an adsorption through hole and a central adsorption through hole on the coconut shell activated carbon plate adsorb colloid and sugar in the sewage, then the adsorbed sewage flows into an electrolytic chamber through a water pipe, an anode pipe and a cathode pipe are electrified to react with negative electrolyte ions in the water to generate metal clusters insoluble in water, the colloid, the organic substances and the inorganic substances in the water are coagulated and adsorbed simultaneously, the substances in the sewage are further adsorbed, then the water flows onto a second coconut shell activated carbon plate through a water discharge pipe, the second coconut shell activated carbon plate finally adsorbs the colloid, the organic substances and the inorganic substances, and finally the water reaching the standard is discharged from a water outlet through a connecting pipe.

The beneficial effects are as follows: under the effect of inlet tube and coconut husk activated carbon plate, tentatively filter its sewage, then positive pole pipe cooperatees with the circular telegram of negative pole pipe, adsorbs the sewage after filtering, at last under the effect of second coconut husk activated carbon plate, carries out last adsorption treatment to remaining material in its sewage, makes the sewage of handling up to standard, can reuse and prevent environmental pollution.

Drawings

Other features, objects, and advantages of the present invention will become more apparent from the following detailed description of the embodiments of the invention when taken in conjunction with the accompanying drawings, in which:

FIG. 1 is a schematic structural diagram of a bamboo product wastewater treatment device based on coconut shell activated carbon filtration.

FIG. 2 is a schematic view of the front cross-sectional structure of the processing apparatus of the present invention.

Fig. 3 is a detailed structural diagram of the water inlet pipe of the present invention.

FIG. 4 is an enlarged view of A in FIG. 3 according to the present invention.

FIG. 5 is a schematic top view of a coconut shell activated carbon plate according to the present invention.

FIG. 6 is a schematic view of the enlarged structure of a part of the coconut shell activated carbon plate of the present invention.

Fig. 7 is a schematic rear sectional view of the protective cover of the present invention.

FIG. 8 is a schematic view of a rear cross-sectional view of the retaining buckle of the present invention.

In the figure: the water inlet 1, the waterproof cover 2, the processing device 3, the interface 4, the support rod 5, the bottom plate 6, the water outlet 7, the water inlet pipe 301, the buckle 302, the coconut shell activated carbon plate 303, the protective cover 304, the connecting wire 305, the anode pipe 306, the drain pipe 307, the connecting pipe 308, the second coconut shell activated carbon plate 309, the fixing buckle 310, the electrolytic chamber 311, the cathode pipe 312, the water pipe 313, the welding block 301-a, the hanging wire 301-b, the connecting block 301-c, the waterproof pad 301-d, the fixing block 301-e, the adsorption block 303-a, the outer frame 303-b, the adsorption through hole 303-c, the central adsorption through hole 303-d, the protective cover 304 is composed of waterproof strips 304-a, a protective pad 304-b, a mounting plate 304-c, a transverse plate 304-d, bolts 304-e, a transverse support plate 304-f, a protective plate 310-a, Support plate 310-b, clamping plate 310-c, clamping plate 310-d, and weld plate 310-e.

Detailed Description

The technical solution in the embodiments of the present invention will be further clearly and completely explained below with reference to the drawings in the embodiments of the present invention.

Referring to fig. 1 to 8, the present invention provides a bamboo waste water treatment device based on coconut shell activated carbon filtration: its structure includes water inlet 1, buckler 2, processing apparatus 3, interface 4, bracing piece 5, bottom plate 6, delivery port 7, its characterized in that:

the embedding of 1 bottom of water inlet is installed in 2 top surface left sides of buckler, 2 fixed mounting in 3 top surfaces of processing apparatus in the buckler, interface 4 is equipped with two and installs in 3 both sides lower extremes of processing apparatus, bracing piece 5 is equipped with 4 and welds in 3 bottoms of processing apparatus, 6 top surfaces of bottom plate and 5 bottoms of bracing piece weld, 7 imbeds and installs in 3 bottoms of processing apparatus and be located between 4 bracing pieces 5.

Preferably, the processing device 3 comprises a water inlet pipe 301, a buckle 302, a coconut shell activated carbon plate 303, a protective sleeve 304, a connecting wire 305, an anode pipe 306, a drain pipe 307, a connecting pipe 308, a second coconut shell activated carbon plate 309, a fixing buckle 310, an electrolysis chamber 311, a cathode pipe 312 and a water pipe 313, wherein four water inlet pipes 301 are uniformly arranged right above the coconut shell activated carbon plate 303, two buckles 302 are arranged and tightly attached to the lower surfaces of two ends of the coconut shell activated carbon plate 303, the bottom of the coconut shell activated carbon plate 303 is connected with the water pipe 313, two protective sleeves 304 are arranged and installed on two sides of the top of the water pipe 313, the right side of the connecting wire 305 is connected with the anode pipe 306, the anode pipe 306 is fixedly arranged on the left side inside the electrolysis chamber 311, the top of the drain pipe 307 is communicated with the electrolysis chamber 311, the second coconut shell activated carbon plate 309 is arranged right below the drain pipe 307 and is attached, the fixing buckle 310 is provided with two and clings to the bottom of the anode tube 306 and the cathode tube 312, the top of the electrolytic chamber 311 is communicated with the bottom of the water pipe 313, the cathode tube 312 is installed at the right side inside the electrolytic chamber 311, the water inlet tube 301 is provided with a plurality of water inlet tubes for filtering bamboo scraps and sundries in waste water, the protecting sleeve 304 fixes the top of the water pipe 313, when the waste water flows downwards, the top of the water pipe 313 is prevented from deviating from the position due to water flow power, the second coconut shell activated carbon plate 309 is positioned below the electrolytic chamber 311, after the electrolytic chamber 311 coagulates and adsorbs substances in sewage, the second coconut shell activated carbon plate 309 performs final adsorption work on the waste water, so that the substances in the sewage are ensured to be completely adsorbed, the fixing buckle 310 is fixedly installed at the lower end of the rear side of the anode tube 306 and the cathode tube 312, and fixes the waste water and prevents inertia due to water flow, the anode tube 306 and the cathode tube 312 are subject to the impact force to generate the shaking.

Preferably, the water inlet pipe 301 comprises a welding block 301-a, a hanging wire 301-b, a connecting block 301-c, a waterproof pad 301-d and a fixing block 301-e, the right side of the welding block 301-a is welded with the left side of the waterproof pad 301-d, the hanging wire 301-b is wound on the connecting block 301-c, the connecting block 301-c is fixedly arranged on the right side of the fixing block 301-e, the fixing block 301-e is welded on the outer surface of the welding block 301-a and interlaced in the waterproof pad 301-d, the hanging wire 301-b is arranged at two inner ends of the water inlet pipe 301, substances in water are hung by the hanging wire 301-b in the downward flowing process of water, and the hanging wire 301-b is wound on the hollow connecting block 301-c to prevent the hanging wire 301-b from falling off in the flowing process of water, the two sides of the water pipeline of the water inlet pipe 301 are provided with the hanging wires 301-b, so that visible substances in sewage can be preliminarily pretreated in the process of circulating water.

Preferably, the coconut shell activated carbon plate 303 is composed of an adsorption block 303-a, an outer frame 303-b, an adsorption through hole 303-c and a central adsorption through hole 303-d, the adsorption block 303-a is welded in the outer frame 303-b, the adsorption through holes 303-c are provided with a plurality of adsorption through holes which are uniformly arranged on the adsorption block 303-a, the central suction through hole 303-d is installed at the inner side of the suction through hole 303-c and is in clearance fit with the suction through hole, the central suction through hole 303-d is penetratingly installed at the inner side of the suction through hole 303-c, and the central adsorption through hole 303-d and the adsorption through hole 303-c are both hollow structures, so that the through holes have developed pores, the adsorption is improved, the adsorption performance is good, the strength is high, and the outer frame 303-b is made of waterproof paper boards, is economical and durable, and has long service life.

Preferably, the protective sleeve 304 is composed of a waterproof strip 304-a, a protective pad 304-b, a mounting plate 304-c, a transverse plate 304-d, a bolt 304-e and a transverse support plate 304-f, the waterproof strip 304-a is positioned right above the protective pad 304-b, the right side of the protective pad 304-b is attached to the left side of the mounting plate 304-c, the lower end of the upper surface of the mounting plate 304-c is welded to the lower surface of the left side of the transverse plate 304-d, the transverse plate 304-d is positioned right below the transverse support plate 304-f, the bolt 304-e is provided with two bolts and is mounted on the outer surfaces of the transverse plate 304-d and the transverse support plate 304-f, the lower surface of the left side of the transverse support plate 304-f is welded to the upper end of the upper surface of the mounting plate 304-c, the waterproof strip 304-a is made of a polypropylene waterproof material, the transverse support plate 304-f and the transverse plate 304-d are fixedly arranged on the rear side surface of the water pipe 313 through bolts 304-e, and the mounting plate 304-c fixedly welds the transverse support plate 304-f and the transverse plate 304-d and further fixes the water pipe 313.

Preferably, the fixing buckle 310 comprises a protection plate 310-a, a support plate 310-b, clamping plates 310-c, clamping plates 310-d and welding plates 310-e, the protection plate 310-a is provided with two clamping plates 310-d which are arranged on two sides of the outer surface of the support plate 310-b, two clamping plates 310-d are arranged at two ends of the top of the support plate 310-b, the clamping plates 310-d are arranged at the upper ends of the outer surface of the clamping plates 310-c, the left side of the welding plate 310-e is attached to the upper surface of the clamping plates 310-d, the two welding plates 310-e are welded to the lower ends of the cathode tube 312 and the rear side of the anode tube 306 to fix the positions of the cathode tube and the anode tube, the left side of the welding plate 310-e is fixedly clamped on the clamping plates 310-c by the clamping plates 310-d to fix the welding plate 310-e, so as to prevent the welding plate 310-e from deforming and further fix the cathode tube 312 further, Anode tube 306 is secured.

The working principle is as follows: sewage is discharged from the water inlet 1 and then passes through the water inlet pipe 301, the water inlet pipe 301 filters substances visible in the sewage, then the water flows onto the coconut shell activated carbon plate 303, the adsorption through hole 303-c and the central adsorption through hole 303-d on the coconut shell activated carbon plate 303 adsorb the colloid and the sugar in the sewage, then the adsorbed sewage flows into the electrolytic chamber 311 through the water pipe 313, the anode pipe 306 and the cathode pipe 312 are electrified to react with negative electrolyte ions in the water to generate water-insoluble metal clusters, at the same time, the colloid, organic matters and inorganic matters in the water are coagulated and adsorbed, and the substances in the sewage are further adsorbed, then the water flows to a second coconut shell activated carbon plate 309 through a drain pipe 307, the second coconut shell activated carbon plate 309 carries out final adsorption on the water, and finally the water reaching the standard is discharged from a water outlet 7 through a connecting pipe 308.

The invention has the beneficial effects that through the mutual combination of the components: under the effect of inlet tube 301 and coconut shell activated carbon plate 303, tentatively filter its sewage, then positive pole pipe 306 cooperatees with negative pole pipe 312 circular telegram, adsorbs the sewage after filtering, at last under the effect of second coconut shell activated carbon plate 309, carries out last adsorption treatment to remaining material in its sewage, makes the sewage of handling up to standard, but reuse and prevent environmental pollution.

While there have been shown and described what are at present considered the fundamental principles and essential features of the invention and its advantages, it will be apparent to those skilled in the art that the invention is not limited to the details of the foregoing exemplary embodiments, but is capable of other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims (1)

1. The utility model provides a bamboo article effluent treatment plant based on coconut husk active carbon is filterable, its structure includes water inlet (1), buckler (2), processing apparatus (3), interface (4), bracing piece (5), bottom plate (6), delivery port (7), its characterized in that:

the bottom of the water inlet (1) is embedded and installed on the left side of the outer surface of the top of the waterproof cover (2), the waterproof cover (2) is fixedly installed on the outer surface of the top of the processing device (3), two connectors (4) are arranged and installed at the lower ends of the two sides of the processing device (3), 4 support rods (5) are arranged and welded at the bottom of the processing device (3), the outer surface of the top of the bottom plate (6) is welded with the bottoms of the support rods (5), and the water outlet (7) is embedded and installed at the middle end of the bottom of the processing device (3) and located between the 4 support rods (5);

the treatment device (3) comprises a water inlet pipe (301), a buckle (302), a coconut shell activated carbon plate (303), a protective sleeve (304), a connecting wire (305), an anode pipe (306), a drain pipe (307), a connecting pipe (308), a second coconut shell activated carbon plate (309), a fixing buckle (310), an electrolysis chamber (311), a cathode pipe (312) and a water pipe (313), wherein four water inlet pipes (301) are uniformly arranged right above the coconut shell activated carbon plate (303), two buckles (302) are arranged and tightly attached to the lower surfaces of two ends of the coconut shell activated carbon plate (303), the bottom of the coconut shell activated carbon plate (303) is connected with the water pipe (313), two protective sleeves (304) are arranged on two sides of the top of the water pipe (313), the right side of the connecting wire (305) is connected with the anode pipe (306), the anode pipe (306) is fixedly arranged on the left side inside the electrolysis chamber (311), the top of the drain pipe (307) is communicated with an electrolytic chamber (311), the second coconut shell activated carbon plate (309) is positioned under the drain pipe (307) and is attached to the drain pipe, two fixing buckles (310) are arranged and are tightly attached to the bottoms of the anode pipe (306) and the cathode pipe (312), the top of the electrolytic chamber (311) is communicated with the bottom of the water pipe (313), and the cathode pipe (312) is arranged on the right side inside the electrolytic chamber (311);

the water inlet pipe (301) is composed of a welding block (301-a), a hanging wire (301-b), a connecting block (301-c), a waterproof pad (301-d) and a fixing block (301-e), the right side of the welding block (301-a) is welded with the left side of the waterproof pad (301-d), the hanging wire (301-b) is wound on the connecting block (301-c), the connecting block (301-c) is fixedly installed on the right side of the fixing block (301-e), and the fixing block (301-e) is welded on the outer surface of the welding block (301-a) and is staggered in the waterproof pad (301-d);

the coconut shell activated carbon plate (303) is composed of an adsorption block (303-a), an outer frame (303-b), adsorption through holes (303-c) and a central adsorption through hole (303-d), the adsorption block (303-a) is welded in the outer frame (303-b), the adsorption through hole (303-c) is provided with a plurality of adsorption blocks (303-a) and is uniformly arranged on the adsorption block (303-a), and the central adsorption through hole (303-d) is arranged on the inner side of the adsorption through hole (303-c) and is in clearance fit with the adsorption through hole;

the protective sleeve (304) is composed of a waterproof strip (304-a), a protective pad (304-b), a mounting plate (304-c), a transverse plate (304-d), a bolt (304-e) and a transverse support plate (304-f), wherein the waterproof strip (304-a) is located right above the protective pad (304-b), the right side of the protective pad (304-b) is attached to the left side of the mounting plate (304-c), the lower end of the upper surface of the mounting plate (304-c) is welded with the lower surface of the left side of the transverse plate (304-d), the transverse plate (304-d) is located right below the transverse support plate (304-f), the two bolts (304-e) are arranged on the outer surfaces of the transverse plate (304-d) and the transverse support plate (304-f), and the lower surface of the left side of the transverse support plate (304-f) is welded with the upper end of the upper surface of the mounting plate (304-c);

the fixing buckle (310) is composed of two protection plates (310-a), a support plate (310-b), a clamping plate (310-c), clamping plates (310-d) and a welding plate (310-e), the two protection plates (310-a) are arranged on two sides of the outer surface of the support plate (310-b), the two clamping plates (310-d) are arranged at two ends of the top of the support plate (310-b), the clamping plates (310-d) are arranged at the upper end of the outer surface of the clamping plate (310-c), and the left side of the welding plate (310-e) is tightly attached to the upper surface of the clamping plates (310-d).

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