CN214528462U - High-hardness industrial water supply treatment system - Google Patents

High-hardness industrial water supply treatment system Download PDF

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Publication number
CN214528462U
CN214528462U CN202120361570.9U CN202120361570U CN214528462U CN 214528462 U CN214528462 U CN 214528462U CN 202120361570 U CN202120361570 U CN 202120361570U CN 214528462 U CN214528462 U CN 214528462U
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tank
water
corrugated plate
pipe
area
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CN202120361570.9U
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周亚强
谢超杰
陈欢
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Jiangsu Baorui Industrial Water Treatment Co ltd
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Jiangsu Baorui Industrial Water Treatment Co ltd
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Abstract

The utility model discloses a high-hardness industrial water supply treatment system, which comprises a sewage tank, a softening agent adding system, a gas-liquid reaction spray tower, a horizontal sedimentation tank, a full-automatic water purifier and a clean water tank which are connected in sequence; the gas-liquid reaction spray tower is connected with the micro-nano aeration system, and the micro-nano aeration system comprises liquid CO sequentially connected2A storage tank, a vaporizer and an aeration head; the full-automatic water purifier comprises a water inlet chamber, a sludge chamber, an inclined pipe area I, an inclined pipe area II, a clear water tank, a water distribution tank, a filter and a siphon; the pipe inclined area II comprises a pipe type frame body and a plurality of corrugated plates are obliquely arranged in the pipe type frame body. The utility model discloses increase full-automatic water purifier equipment before terminal clean water basin, carry out multiple filtration to the water, guarantee to go out waterWater quality; and meanwhile, the structure of the full-automatic water purifier is improved.

Description

High-hardness industrial water supply treatment system
Technical Field
The utility model relates to an environmental protection field especially relates to a high rigidity industrial water treatment system.
Background
For the treatment of high hardness industrial feedwater, there are many publications in the prior art, for example, the invention patent of "a method and a device for softening high hardness wastewater by gas and liquid combination" filed by the environmental protection science and technology development corporation of Changsha Huacheng Jieshi on 2015, 10 and 21, application No. 201510390557.5, discloses a method for treating high hardness wastewater. However, in the system used in the technology, the water body enters the clean water tank after being treated by the sand filter tank, and after being treated by the horizontal sedimentation tank, part of small particle impurities still exist in the water body, so that the treatment effect of the sand filter tank is poor, and the effluent quality is low.
SUMMERY OF THE UTILITY MODEL
Utility model purpose: aiming at the defects of the prior art, the utility model provides a high-hardness industrial water supply treatment system, which adds full-automatic water purifier equipment in front of a tail end clean water tank to carry out multiple filtration on the water body and ensure the quality of the outlet water; and meanwhile, the structure of the full-automatic water purifier is improved.
The technical scheme is as follows: the utility model discloses a high rigidity industrial water supply processing system, its characterized in that: comprises a sewage tank, a softening agent feeding system, a gas-liquid reaction spray tower, a horizontal sedimentation tank, a full-automatic water purifier and a clean water tank which are connected in sequence; the gas-liquid reaction spray tower is connected with the micro-nano aeration system, and the micro-nano aeration system comprises liquid CO sequentially connected2The system comprises a storage tank, a vaporizer and an aeration head, wherein the aeration head is positioned at the bottom of a gas-liquid reaction spray tower; the full-automatic water purifier comprises a water inlet chamber, a sludge chamber, an inclined pipe area I, an inclined pipe area II, a clean water tank, a water distribution tank, a filter and a siphon; the water inlet chamber and the sludge chamber are arranged side by side and are sequentially connected with the inclined pipe area I, the inclined pipe area II, the clear water tank, the water distribution tank, the filter and the siphon; the sludge chamber is provided with a sludge discharge pipe and the water inlet chamber is provided with a water inlet; the inclined tube area II comprises a tube type frame body, and a plurality of corrugated plates are obliquely arranged in the tube type frame body; the section of the corrugated plate is wavy, the wavelength of the corrugated plate is 500-600 mm, the wave height of the corrugated plate is 100-120 mm, the distance between the corrugated plates is 50-60 mm, the included angle between the corrugated plate and the horizontal plane is 55-60 degrees, and the side parts of the two sides of the corrugated plate are respectively provided with a plurality of connectors; the distance between the connectors is single or two wavelength length, the lower part of the connector is provided with an arc-shaped socket which is embedded with the waveform of the corrugated plate, the upper part of the connector is provided with a circular clamping hole, and the bottom of the circular clamping hole is provided with a rectangular hole; the corrugated plate is sleeved outside the pipe body of the pipe type frame body through the circular clamping hole of the connector to be fixed in position.
The inclined pipe area I adopts a pipe type frame body and a corrugated plate which have the same structure as the inclined pipe area II.
Wherein, the pipe chute area I adopts hexagonal honeycomb pipe chute filler.
Wherein, the tubular frame body comprises hollow cylindrical pipe body.
The corrugated plate is a single-layer ABS plate or a multi-layer ABS composite plate.
Has the advantages that: compared with the prior art, the utility model has the following apparent advantage: the utility model discloses to prior art's not enough, provide neotype high rigidity industry feedwater processing system, increase full-automatic water purifier equipment before terminal clean water basin, carry out multiple filtration to the water, guarantee out water quality of water. And simultaneously, the utility model discloses carry out institutional advancement to full-automatic water purifier, improve the treatment effect, guarantee the play water quality of water of high quality.
Drawings
Fig. 1 is a schematic structural view of the present invention;
FIG. 2 is a schematic structural view of the fully automatic water purifier of the present invention;
FIG. 3 is a schematic structural view of a pipe chute area II of the present invention;
fig. 4 is a schematic structural view of the corrugated plate of the present invention;
fig. 5 is a schematic structural view of the connector of the present invention;
in the figure, 1 is a gas-liquid reaction spray tower, 2 is a micro-nano aeration system, 3 is a horizontal sedimentation tank, 4 is a full-automatic water purifier, 5 is a softening agent adding system, 6 is a sewage tank, 7 is a clean water tank, and 8 is liquid CO2The device comprises a storage tank, 9 is a vaporizer, 10 is an aeration head, 11 is a water inlet chamber, 12 is a water inlet, 13 is a sludge chamber, 14 is a sludge discharge pipe, 15 is an inclined pipe area I, 16 is an inclined pipe area II, 17 is a clear water tank, 18 is a water distribution tank, 19 is a filter, 20 is a siphon, 21 is a tubular frame body, 22 is a corrugated plate, 23 is a connector, 24 is an arc socket, 25 is a circular clamping hole, and 26 is a rectangular hole.
Detailed Description
The technical solution of the present invention will be further described with reference to the accompanying drawings and the detailed description.
The utility model discloses a high-hardness industrial water supply treatment system, which comprises a sewage tank 6, a softening agent adding system 5, a gas-liquid reaction spray tower 1, a horizontal sedimentation tank 3, a full-automatic water purifier 4 and a clean water tank 7 which are connected in sequence; the gas-liquid reaction spray tower 1 is connected with the micro-nano aeration system 2, and the micro-nano aeration system 2 comprises liquid CO which are connected in sequence2The device comprises a storage tank 8, a vaporizer 9 and an aeration head 10, wherein the aeration head 10 is positioned at the bottom of the gas-liquid reaction spray tower 1; the full-automatic water purifier 4 comprises a water inlet chamber 11, a sludge chamber 13, an inclined pipe area I15, an inclined pipe area II16, a clear water tank 17, a water distribution tank 18, a filter 19 and a siphon 20; the water inlet chamber 11 and the sludge chamber 13 are arranged side by side and are sequentially connected with an inclined pipe area I15, an inclined pipe area II16, a clear water tank 17, a water distribution tank 18, a filter 19 and a siphon 20; the sludge chamber 13 is provided with a sludge discharge pipe 14 and the water inlet chamber 11 is provided with a water inlet 12; the inclined tube area II16 comprises a tube type frame body 21 and a plurality of corrugated plates 22 are obliquely arranged in the tube type frame body 21; the section of the corrugated plate 22 is in a corrugated shape, the wavelength of the corrugated plate 22 is 500-600 mm, the wave height of the corrugated plate 22 is 100-120 mm, the distance between the corrugated plates 22 is 50-60 mm, the included angle between the corrugated plate 22 and the horizontal plane is 55-60 degrees, and the side parts of the two sides of the corrugated plate 22 are respectively provided with a plurality of connectors 23; the distance between the connectors 23 is single or two wavelength length, the lower part of the connector 23 is provided with an arc-shaped socket 24, the arc-shaped socket 24 is embedded with the waveform of the corrugated plate 22, the upper part of the connector 23 is provided with a circular clamping hole 25, and the bottom of the circular clamping hole 25 is provided with a rectangular hole 26; the corrugated plate 22 is sleeved outside the tube body of the tube type frame body 21 through the circular clamping hole 25 of the connector 23 for fixing the position. Wherein, the inclined tube zone I15 adopts the tubular frame body 21 and the corrugated plate 22 with the same structure as the inclined tube zone II 16. The inclined tube area I15 adopts hexagonal honeycomb inclined tube filling. The tubular frame body 21 is composed of a cylindrical tube body of a hollow structure. The corrugated plate 22 is a single layer ABS plate or a multi-layer ABS composite plate.
When the device is used, the bottom of the gas-liquid reaction spray tower 1 is provided with a water inlet, the sewage pool 6 is communicated with the water inlet of the gas-liquid reaction spray tower 1, a softening agent adding system 5 is arranged between the sewage pool 6 and the gas-liquid reaction spray tower 1, and a softening agent in the softening agent adding system 5 and sewage in the sewage pool 6 are mixed togetherEnters from a water inlet at the bottom of the gas-liquid reaction spray tower 1. The bottom of the gas-liquid reaction spray tower 1 is also provided with a gas inlet, and the micro-nano aeration system 2 is communicated with the gas inlet at the bottom of the gas-liquid reaction spray tower 1. The horizontal flow sedimentation tank 3 is communicated with a water outlet at the upper part of the gas-liquid reaction spray tower 1, the full-automatic water purifier 4 is communicated with an overflow pipe at the upper part of the horizontal flow sedimentation tank 3, and a water outlet of the full-automatic water purifier 4 is communicated with a clean water tank 7. The micro-nano aeration system 2 comprises liquid CO connected in sequence2Storage tank 8, vaporizer 9 and aeration head 10, liquid CO2Liquid CO in tank 82The gas is gasified into gas through the vaporizer 9, the gas enters from the gas inlet at the bottom of the gas-liquid reaction spray tower 1, and under the action of the aeration head 10 arranged at the gas inlet at the bottom of the gas-liquid reaction spray tower 1, the carbon dioxide is cut and scattered into carbon dioxide at the nanometer level, and the carbon dioxide at the nanometer level enters from the bottom of the gas-liquid reaction spray tower 1 and is mixed with high-hardness wastewater.
When the full-automatic water purifier 4 is used, water enters the water inlet chamber 11 through the water inlet 12 and sequentially passes through the inclined tube area I15 and the inclined tube area II16, clear water enters the clear water tank 17 at the top, and sludge falls into the sludge chamber 13 and is discharged through the sludge discharge pipe 14. The water in the clean water tank 17 enters the filter 19 through the water distribution tank 18 for filtering, and then is backwashed under the action of the siphon 20 to keep the filtering capacity of the filter 19, so that the purified water is obtained.
The utility model discloses an inclined tube of pipe chute district II16 packs is purpose-built, and pipe frame body 21 and wave plate 22 of pipe chute district I15 adoption with inclined tube district II16 looks isostructure, perhaps pipe chute district I15 adopts hexagonal honeycomb pipe chute to pack, carries out effective processing to the water. In the inclined tube area II16, a plurality of corrugated plates 22 are obliquely arranged in the tube type frame body 21, the included angle between each corrugated plate 22 and the horizontal plane is 55-60 degrees, the distance between each corrugated plate 22 is 50-60 mm, the included angle and the distance are set according to specific conditions, the distance between the corrugated plates 22 is preferably 60mm, and the included angle between each corrugated plate 22 and the horizontal plane is preferably 55 degrees. The corrugated plate 22 is a single-layer ABS plate or a multi-layer ABS composite plate, the wavelength of the corrugated plate 22 is 500-600 mm, the wave height is 100-120 mm, the wavelength and the wave height are set according to specific conditions, and preferably, the wavelength of the corrugated plate 22 is 500mm, the wave height is 100mm, or the wavelength of the corrugated plate 22 is 600mm, and the wave height is 120 mm.
The connection between the corrugated plate 22 and the connector 23 is made by inserting the corrugated plate 22 into the arc-shaped socket 24; the pipe body of the pipe frame body 21 passes through the circular clamping hole 25 to be connected between the connector 23 and the pipe frame body 21, so that the pipe frame is convenient to mount, dismount and replace. The corrugated plate 22 is fixed in position by the connection between the connector 23 and the tubular frame 21 to achieve the required spacing and angle to the horizontal. After the tubular frame body 21 and the corrugated plates 22 are installed, water treatment is carried out, the corrugated plates 22 increase the precipitation area, particles are precipitated among the corrugated plates 22, and mud and water are effectively separated.

Claims (5)

1. High rigidity industry feedwater processing system, its characterized in that: comprises a sewage tank (6), a softening agent feeding system (5), a gas-liquid reaction spray tower (1), a horizontal sedimentation tank (3), a full-automatic water purifier (4) and a clean water tank (7) which are connected in sequence; the gas-liquid reaction spray tower (1) is connected with the micro-nano aeration system (2), and the micro-nano aeration system (2) comprises liquid CO which are sequentially connected2The device comprises a storage tank (8), a vaporizer (9) and an aeration head (10), wherein the aeration head (10) is positioned at the bottom of a gas-liquid reaction spray tower (1); the full-automatic water purifier (4) comprises a water inlet chamber (11), a sludge chamber (13), an inclined pipe area I (15), an inclined pipe area II (16), a clear water tank (17), a water distribution tank (18), a filter (19) and a siphon (20); the water inlet chamber (11) and the sludge chamber (13) are arranged side by side and are sequentially connected with the inclined pipe area I (15), the inclined pipe area II (16), the clear water tank (17), the water distribution tank (18), the filter (19) and the siphon (20); the sludge chamber (13) is provided with a sludge discharge pipe (14) and the water inlet chamber (11) is provided with a water inlet (12); the inclined tube area II (16) comprises a tube type frame body (21) and a plurality of corrugated plates (22) are obliquely arranged in the tube type frame body (21); the section of the corrugated plate (22) is wavy, the wavelength of the corrugated plate (22) is 500-600 mm, the wave height is 100-120 mm, the distance between the corrugated plates (22) is 50-60 mm, the included angle between the corrugated plate (22) and the horizontal plane is 55-60 degrees, and the side parts of the two sides of the corrugated plate (22) are respectively provided with a plurality of connectors (23); the distance between the connectors (23) is single or two wavelength length, the connectors (23)) The lower part is provided with an arc-shaped socket (24), the arc-shaped socket (24) is embedded with the waveform of the corrugated plate (22), the upper part of the connector (23) is provided with a circular clamping hole (25), and the bottom of the circular clamping hole (25) is provided with a rectangular hole (26); the corrugated plate (22) is sleeved outside the pipe body of the pipe type frame body (21) through a circular clamping hole (25) of the connector (23) for position fixing.
2. The high hardness industrial feedwater treatment system of claim 1 wherein: the inclined tube area I (15) adopts a tubular frame body (21) and a corrugated plate (22) which have the same structure as the inclined tube area II (16).
3. The high hardness industrial feedwater treatment system of claim 1 wherein: the inclined tube area I (15) adopts hexagonal honeycomb inclined tube filler.
4. The high hardness industrial feedwater treatment system of claim 1 wherein: the tubular frame body (21) is composed of a cylindrical tube body with a hollow structure.
5. The high hardness industrial feedwater treatment system of claim 1 wherein: the corrugated plate (22) is a single-layer ABS plate or a multi-layer ABS composite plate.
CN202120361570.9U 2021-02-08 2021-02-08 High-hardness industrial water supply treatment system Active CN214528462U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN202120361570.9U CN214528462U (en) 2021-02-08 2021-02-08 High-hardness industrial water supply treatment system

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN202120361570.9U CN214528462U (en) 2021-02-08 2021-02-08 High-hardness industrial water supply treatment system

Publications (1)

Publication Number Publication Date
CN214528462U true CN214528462U (en) 2021-10-29

Family

ID=78235055

Family Applications (1)

Application Number Title Priority Date Filing Date
CN202120361570.9U Active CN214528462U (en) 2021-02-08 2021-02-08 High-hardness industrial water supply treatment system

Country Status (1)

Country Link
CN (1) CN214528462U (en)

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