CN218089268U - Intelligent intensive integral type dispersion sewage treatment device - Google Patents

Abstract

The utility model provides an intensive integral type of intelligent dispersion sewage treatment device relates to sewage treatment technical field. Its technical scheme includes the box, the box upper left side is equipped with the activated sludge chamber, including first water pump, the grid pond, the equalizing basin, second water pump and oxygen deficiency pond, oxygen deficiency pond top is equipped with the slide bar, agitating unit is connected to the slide bar, the biomembrane chamber includes mechanical rotation motor, the biological rotating disk, filtering ponds and sludge impoundment, be equipped with the backflow pipeline between filtering ponds and oxygen deficiency pond, the catalysis room includes the third water pump, ozone generator, the layer is smashed to the bubble, photocatalysis ozonization reaction layer, the adsorption bed is contained to the adsorption chamber, the distribution room is below the adsorption chamber, the distribution room below is well accuse room. The utility model discloses can realize getting rid of traditional pollutant and new pollutant's high efficiency in the sewage, can be fast simple and convenient transport, but remote control equipment operation practices thrift the manpower with quality of water data and equipment operation situation biography to the server in the central control room.

Description

Intensive integral type of wisdom type dispersion sewage treatment device

Technical Field

The utility model relates to a dispersion sewage treatment technical field especially relates to an intensive integral type of wisdom type dispersion sewage treatment device.

Background

The dispersed sewage treatment is urgent because the dispersed sewage has less water yield and large biogenic quantity and is not effectively treated at present, so that the environmental problem is increasingly prominent. At present, all major cities in the country adopt a centralized sewage treatment mode. However, the centralized sewage treatment depends heavily on a sewage collecting pipe network, has large investment and high operating cost, and is not suitable for most cities and towns and rural areas. The existing distributed sewage treatment process mainly adopts a biological treatment process, but the traditional distributed sewage treatment process cannot meet the requirement of considering the high-efficiency treatment of new pollutants. Meanwhile, in order to solve the problem that a large amount of manpower and material resources are consumed in the distributed sewage treatment process, an intelligent intensive integrated dispersed sewage treatment device is provided.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide an intensive integral type of intelligence type dispersion sewage treatment device to solve the problem that the current dispersion sewage treatment device that proposes exists in the above-mentioned background art, the utility model discloses the equipment of design can realize the getting rid of traditional organic pollutant, total nitrogen, total phosphorus in the pollutant, can realize the high-efficient degradation to new pollutant again, utilizes interconnected system to reduce manpower and materials consumption simultaneously, and it is more convenient to operate.

The utility model discloses a following technical scheme of purpose accessible realizes: an intelligent integrated decentralized sewage treatment device is characterized by comprising a box body, an activated sludge chamber, a biomembrane chamber, a catalysis chamber, an adsorption chamber, a power distribution chamber and a central control chamber.

Furthermore, a crawling ladder and a box door are arranged outside the box body, a rail is arranged below the box door, the box door is connected with the rail through pulleys, and a partition plate is arranged in the box body.

Further, the activated sludge chamber contains grid pond, equalizing basin and oxygen deficiency pond, be equipped with first water pump, first quality of water sensor and inlet tube before the grid pond, by second water pump, second quality of water sensor and water piping connection between equalizing basin and the oxygen deficiency pond, oxygen deficiency pond upper portion is equipped with the slide bar, the slide bar below is equipped with agitator motor, the agitator motor below is equipped with the stirring leaf, the oxygen deficiency pond right side is equipped with activated sludge chamber outlet pipe.

Further, the biomembrane chamber comprises a biological rotating disk, a filtering tank and a sludge tank, the biological rotating disk comprises a disk, the disk is driven to operate by a rotating motor, the rotating motor is arranged on a fixed support, and the disk is covered by a rotating disk shell and is welded on a rotating disk base. The front end of the biological rotating disc is provided with a third water quality sensor, the biological rotating disc is communicated with a filtering tank, a filter screen is arranged in the filtering tank, the outside of the filter screen is covered by filter cloth, the filtering tank is communicated with an anoxic tank through a return pipe, the filtering tank is communicated with a sludge tank through a sludge pipe, and the right side of the filtering tank is provided with a biomembrane chamber water outlet pipe.

Furthermore, the catalytic chamber comprises a catalytic reactor main body and an ozone generator, a fourth water quality sensor and a third water pump are arranged on the left side of the catalytic reactor main body, and a catalytic chamber water outlet pipe is arranged on the upper right side of the catalytic reactor main body.

Further, the adsorption chamber contains the adsorption reactor main part, transversely be equipped with the adsorbed layer in the adsorption reactor main part, the adsorption chamber right side is equipped with outlet pipe and sixth water quality sensor, is equipped with the fifth water quality sensor between catalytic chamber and the adsorption chamber.

Furtherly, catalytic reactor main part is interior to contain gaseous crushing layer of micropore and photocatalytic reaction layer, photocatalytic reaction layer constitutes photocatalytic reaction layer shell by the printing opacity material, and the surface is attached with the photocatalyst layer about the photocatalytic reaction layer shell, and photocatalytic reaction layer shell runs through by the water conservancy diversion hole, and the downthehole screw thread drainage that is equipped with of water conservancy diversion, and it has the lamp hole to open in the middle of the photocatalytic reaction layer shell, and the downthehole fluorescent tube of placing of lamp provides the light source.

Furthermore, a first water quality sensor, a second water quality sensor, a third water quality sensor, a fourth water quality sensor, a fifth water quality sensor, a sixth water quality sensor, a first water pump, a second water pump, a third water pump, a stirring motor, a rotating motor and an ozone generator are connected into a central control room, and a control system, a display system and a network system are arranged in the central control room.

Preferably, the catalyst used in the catalyst chamber can be carbon nitride, zinc sulfide, bismuth tungstate, titanium dioxide, and the like.

Preferably, the adsorbent used in the adsorption chamber may be activated carbon, molecular sieves, or the like.

The utility model has the advantages that: the utility model discloses an intensive integral type of wisdom type dispersion sewage treatment device has reduced area greatly, most organic pollutant and total nitrogen can be got rid of through activated sludge chamber and biomembrane room to sewage, go out water through the biomembrane room and get into the catalysis room, ozone becomes the microbubble after micropore gas crushing layer is smashed, increase the contact chance with sewage, the water conservancy diversion hole of light catalytic reaction layer shell can make sewage form the turbulent flow under the condition that need not the stirring, realize getting rid of the high efficiency of pollutant in the synergism of photocatalyst and ozone, especially get rid of the high efficiency of new pollutant. After the sewage enters the adsorption chamber through the catalytic chamber, residual phosphorus in the sewage can be removed, and finally, the high-efficiency purification of the dispersed sewage is realized. The first water quality sensor, the second water quality sensor, the third water quality sensor, the fourth water quality sensor, the fifth water quality sensor, the sixth water quality sensor, the first water pump, the second water pump, the third water pump, the stirring motor, the rotating motor and the ozone generator can be directly controlled on site and remotely through the central control room, so that the overall control of the equipment is realized, and manpower and material resources can be saved.

Drawings

Fig. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic view of the case;

FIG. 3 is a schematic view of an activated sludge chamber;

FIG. 4 is a schematic view of a biofilm chamber;

FIG. 5 is a schematic view of a catalytic chamber;

FIG. 6 is a front view of a photocatalytic reaction layer;

FIG. 7 is a side view of a photocatalytic reaction layer;

FIG. 8 is a schematic view of an adsorption chamber.

In the figure: 1. a box body 11, a ladder stand 12, a box door 13, a rail 14, a pulley 15, a clapboard 2, an activated sludge chamber 21, a first water pump 211, a water inlet pipe 22, a first water quality sensor 23, a grid pool 24, a regulating pool 25, a second water pump 251, a water pipe 26, a second water quality sensor 27, an anoxic pool 271, a moving rod 272, a stirring motor 273, a stirring blade 274, an activated sludge chamber water outlet pipe 3, a biomembrane chamber 31, a third water quality sensor 32, a biological rotating disc 321, a rotating motor 322, a fixed support 323, a disc 324, a rotating disc shell 325, a rotating disc base 33 and a filtering pool, 331, a filter screen, 332, a return pipe, 333, a sludge pipe, 334, a biomembrane chamber water outlet pipe, 34, a sludge pond, 4 catalytic chambers, 41, a fourth water quality sensor, 42, a third water pump, 43, a catalytic reactor body, 431, a microporous gas crushing layer, 432, a photocatalytic reaction layer, 4321, a photocatalytic reaction layer shell, 4322, a diversion hole, 4323, a photocatalytic layer, 4324, a lamp hole, 44, an ozone generator, 45, a catalytic chamber water outlet pipe, 5, an adsorption chamber, 51, a fifth water quality sensor, 52, an adsorption reactor body, 521, an adsorption layer, 53, a water outlet pipe, 54, a sixth water quality sensor, 6, a power distribution chamber, 7 and a central control chamber.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely below, and it should be understood that the described embodiments are only some embodiments of the present invention, but not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

An intelligent intensive integrated dispersed sewage treatment device comprises a box body, an activated sludge chamber, a biomembrane chamber, a catalysis chamber, an adsorption chamber, a power distribution chamber and a central control chamber.

The box body is externally provided with a crawling ladder and a box door, a track is arranged below the box door, the box door is connected with the track through pulleys, and a partition plate is arranged in the box body.

The activated sludge chamber contains grid pond, equalizing basin and oxygen deficiency pond, be equipped with first water pump, first quality of water sensor and inlet tube before the grid pond, by second water pump, second quality of water sensor and water piping connection between equalizing basin and the oxygen deficiency pond, oxygen deficiency pond upper portion is equipped with the slide bar, and the slide bar below is equipped with agitator motor, and agitator motor can remove along with the slide bar, and the agitator motor below is equipped with the stirring leaf, and the oxygen deficiency pond right side is equipped with activated sludge chamber outlet pipe. The biomembrane chamber comprises a biological rotating disk, a filter tank and a sludge tank, the biological rotating disk comprises a disk, the disk is driven to operate by a rotating motor, the rotating motor is arranged on a fixed support, and the disk is covered by a rotating disk shell and is welded on a rotating disk base. The front end of the biological rotating disc is provided with a third water quality sensor, the biological rotating disc is communicated with a filtering tank, a filtering screen is arranged in the filtering tank, the filtering screen is covered by filtering cloth, the filtering tank is communicated with an anoxic tank through a return pipe, the filtering tank is communicated with a sludge tank through a sludge pipe, and the right side of the filtering tank is provided with a biomembrane chamber water outlet pipe.

The catalytic chamber comprises a catalytic reactor main body and an ozone generator, a fourth water quality sensor and a third water pump are arranged on the left side of the catalytic reactor main body, and a catalytic chamber water outlet pipe is arranged on the upper right side of the catalytic reactor main body.

The adsorption chamber comprises an adsorption reactor main body, an adsorption layer is transversely arranged in the adsorption reactor main body, and a water outlet pipe and a sixth water quality sensor are arranged on the right side of the adsorption chamber. And a fifth water quality sensor is arranged between the catalytic chamber and the adsorption chamber. The adsorbent used in the adsorption chamber can be activated carbon, molecular sieve and the like.

The catalytic reactor main part contains micropore gas crushing layer and photocatalytic reaction layer, and the photocatalytic reaction layer comprises the light transmission material photocatalytic reaction layer shell, and the upper and lower surface of photocatalytic reaction layer shell is with the photocatalyst layer, and photocatalytic reaction layer shell runs through by the water conservancy diversion hole, and the downthehole screw thread drainage that is equipped with of water conservancy diversion has opened the lamp hole in the middle of the photocatalytic reaction layer shell, and the downthehole fluorescent tube of placing of lamp provides the light source. The catalyst used in the catalytic chamber can be carbon nitride, zinc sulfide, bismuth tungstate, titanium dioxide and the like, and further the first water quality sensor, the second water quality sensor, the third water quality sensor, the fourth water quality sensor, the fifth water quality sensor, the sixth water quality sensor, the first water pump, the second water pump, the third water pump, the stirring motor, the rotating motor and the ozone generator are connected into a central control room, and a control system, a display system and a network system are arranged in the central control room.

The central control room is directly connected with the first water quality sensor, the second water quality sensor, the third water quality sensor, the fourth water quality sensor, the fifth water quality sensor, the sixth water quality sensor, the first water pump, the second water pump, the third water pump, the stirring motor, the rotating motor and the ozone generator, and the integral control of the equipment can be realized on site and remotely.

Claims (3)

1. The utility model provides an intensive integral type of intelligent dispersion sewage treatment device, a serial communication port, including box (1), activated sludge chamber (2), biomembrane room (3), catalysis room (4), adsorption chamber (5), electricity distribution room (6) and well accuse room (7), box (1) is equipped with cat ladder (11) outward, chamber door (12) outward, and chamber door (12) below is equipped with track (13), is connected by pulley (14) between chamber door (12) and track (13), is equipped with baffle (15) in box (1), activated sludge chamber (2) contain grid pond (23), equalizing basin (24) and oxygen deficiency pond (27), are equipped with first water pump (21) before grid pond (23), first quality of water sensor (22) and inlet tube (211), by second water pump (25), second quality of water sensor (26) and water pipe (251) connection between equalizing basin (24) and oxygen deficiency pond (27), oxygen deficiency pond (27) upper portion is equipped with slide bar (27), and slide bar (271) below is equipped with agitator motor (272), agitator motor (272) below is equipped with biological membrane room (274) right side (32), and outlet pipe (32) are equipped with biological membrane room (274), and outlet pipe (32) are equipped with biological water outlet pipe (27), and biological membrane room (3) below is equipped with biological water pump (3) The biological rotating disc (32) comprises a disc (323) driven by a rotating motor (321) to run, the rotating motor (321) is arranged on a fixed support (322), the disc is covered by a rotating disc shell (324) and welded on a rotating disc base (325), a third water quality sensor (31) is arranged at the front end of the biological rotating disc (32), the biological rotating disc (32) is communicated with the filtering pool (33), a filter screen (331) is arranged in the filtering pool (33), the filter screen (331) is covered by filter cloth, the filtering pool (33) is communicated with an anoxic pool (27) through a return pipe (332), the filtering pool (33) is communicated with the sludge pool (34) through a sludge pipe (333), a biomembrane chamber water outlet pipe (334) is arranged on the right side of the filtering pool (33), the catalytic chamber (4) comprises a catalytic reactor main body (43) and an ozone generator (44), a fourth water quality sensor (41) and a third water pump (42) are arranged on the left side of the catalytic reactor main body (43), a catalytic reactor main body (45) is arranged on the right side of the catalytic reactor main body (43), a water quality adsorption chamber (5) comprises a reaction chamber (5) and a reaction chamber (52) and a water outlet pipe (521), a fifth water quality sensor (51) is arranged between the catalytic chamber (4) and the adsorption chamber (5).

2. The intelligent intensive integrated sewage treatment plant according to claim 1, wherein the catalytic chamber (4) comprises a catalytic reactor body (43), the catalytic reactor body (43) comprises a microporous gas pulverizing layer (431) and a photocatalytic reaction layer (432), the photocatalytic reaction layer (432) comprises a photocatalytic reaction layer housing (4321) made of a light-transmitting material, the upper and lower surfaces of the photocatalytic reaction layer housing (4321) are attached with photocatalyst layers (4323), the photocatalytic reaction layer housing (4321) is penetrated by a flow guide hole (4322), the flow guide hole (4322) is internally provided with a threaded flow guide, the middle of the photocatalytic reaction layer housing (4321) is provided with a lamp hole (4324), and a lamp tube is placed in the lamp hole (4324) to provide a light source.

3. The intelligent intensive integrated decentralized sewage treatment plant according to claim 1, wherein a first water quality sensor (22), a second water quality sensor (26), a third water quality sensor (31), a fourth water quality sensor (41), a fifth water quality sensor (51), a sixth water quality sensor (54), a first water pump (21), a second water pump (25), a third water pump (42), a stirring motor (272), a rotating motor (321), an ozone generator (44) are connected to the central control room (7), and a control system, a display system and a network system are built in the central control room (7).

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