CN215250111U - High-rod water treatment station - Google Patents

Abstract

The utility model belongs to the technical field of cleaning production, in particular to a high-rod water treatment station; the device comprises a production water inlet pipe, wherein a first water outlet pipe and a second water outlet pipe are arranged on the production water inlet pipe; the tail end of the second water outlet pipe is provided with a second reservoir, the tail end of the second reservoir is provided with a flushing water pipe, and the tail end of the flushing water pipe is connected with a spray water pipe arranged at the top of the equipment table to be flushed; the water to be cooled and cleaned is subjected to unified treatment after being subjected to separate treatment, so that the treatment cost can be saved.

Description

High-rod water treatment station

Technical Field

The utility model belongs to the technical field of cleaner production, concretely relates to high excellent water treatment station.

Background

The yield of crude steel in China reaches 9.96 hundred million tons in 2019, the innovation history is high, the yield is increased by 7.33 percent on a year-by-year basis, wherein the yield of deformed steel bars reaches 2.50 hundred million tons, the yield is increased by 4010 ten thousand tons in the same period in 2018, the yield reaches 25.10 percent of the total amount of steel in China, and the method is widely applied to industries such as buildings, bridges, rail transit and the like. After years of development, the advanced production technology of the deformed steel bar is mature day by day. The bar continuous rolling technology, the endless rolling technology, the hot charging and hot delivery technology, the continuous casting and continuous rolling technology, the low-temperature rolling technology, the water cooling technology, the high-speed steel feeding technology, the splitting rolling technology and the like are mature and applied to a plurality of screw-thread steel manufacturers at home and abroad. At present, the traditional small-specification deformed steel bar is mainly produced by adopting a high-speed steel feeding mode at home.

And (3) a high-speed steel feeding mode: after being rolled by a finishing mill group and sheared by a multiple-length flying shear, the bar is braked by a tail clamping brake, and steel feeding is realized through a rotating hub. According to the production mode, due to the fact that single rolling and steel feeding are adopted, the relative size precision is high, the failure rate is low, and along with the steel used for the reinforced concrete in 2018, 11, 1 and 1 GB/T1499.2-2018, the steel used for the reinforced concrete is part 2: the implementation of hot rolling ribbed steel bars is more and more popular with screw-thread steel production plants, and the production line is easier to realize the controlled rolling and controlled cooling process of screw-thread steel bars, is beneficial to enterprises to reduce the production cost, and can be rapidly popularized and applied in China in two years. In order to improve the production line yield, a two-line cutting and high-speed steel feeding system is combined, a double-high-speed bar production process is adopted, and the annual yield of the current high-speed bar production line and the annual yield of the double-high-speed bar production line can reach 80 ten thousand tons and 150 ten thousand tons respectively.

When the existing bar materials are treated, production water is required to be used for cooling or washing an operation table, however, excessive impurities are not blended into the cooling water during cooling, the bar materials can be reused for cooling after simple cooling treatment, impurities are blended into washing water during washing, the washing water and the like can be used after further treatment, and if the same steps are used for treating the cooling water and the washing water, the treatment cost is increased.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a high stick water treatment station carries out unified processing again after will need cooling and abluent moisture division processing, can practice thrift the treatment cost.

In order to solve the technical problem, the utility model adopts the following technical scheme:

the high-rod water treatment station comprises a production water inlet pipe, wherein a first water outlet pipe and a second water outlet pipe are arranged on the production water inlet pipe; the second cistern is provided with at second outlet pipe end, and second cistern end is provided with the wash tub pipe, and the wash tub pipe end is connected with the shower water piping that sets up at the equipment platform top that needs wash.

Further, a first circulating pipeline is arranged at the position of the cooling water outlet, a first cooling tower is arranged at the tail end of the first circulating pipeline, a pipeline is arranged at the bottom of the first cooling tower and connected with a first reservoir, a first slag discharging pipe is arranged at the bottom of the first reservoir and connected with a first processing device, and a first water discharging pipe and a first sludge discharging pipe are arranged on the first processing device respectively.

Furthermore, a second circulating pipeline is arranged at a water outlet of the equipment platform to be washed and is connected with a second treatment device, a second water discharge pipe and a second sludge discharge pipe are arranged on the second treatment device and are connected with a plate-and-frame filter press, and a third water discharge pipe and a third sludge discharge pipe are arranged on the plate-and-frame filter press.

Further, the first sludge discharge pipe is connected with a plate-and-frame filter press.

Furthermore, a pump and a valve are arranged on the pipeline.

Further, a flocculating agent storage tank is arranged at the top of the second treatment device, the flocculating agent storage tank is communicated with the second treatment device through a pipeline, and a valve is arranged on the pipeline.

Furthermore, the tail ends of the first water discharge pipe, the second water discharge pipe and the third water discharge pipe are connected with a water discharge header pipe, a double-cyclone efficient filter is arranged at the tail end of the water discharge header pipe, a third reservoir is arranged at the tail end of the double-cyclone efficient filter, and a fourth water discharge pipe is arranged at the bottom of the third reservoir.

Further, the cooling water pipe and the flushing water pipe are respectively arranged at the middle upper part of the side wall of the first reservoir and the side wall of the second reservoir.

Furthermore, a first valve and a second valve are respectively arranged on the first water outlet pipe and the second water outlet pipe, an upper liquid level sensor and a lower liquid level sensor are respectively arranged in the first reservoir and the second reservoir, and the upper liquid level sensor, the lower liquid level sensor, the first valve and the second valve are all connected with an external controller and powered by an external power supply.

Compared with the prior art, the utility model discloses one of following beneficial effect has at least:

1. the utility model discloses separately cooling water and washing water, when using, it is still cleaner after the cooling water uses, and washs water use back impurity more, if unified the collection is unified to be handled, then can increase the treatment cost, the utility model discloses separately handle cooling water and washing water earlier, then in unified processing, can practice thrift the treatment cost.

2. The flocculant storage tank is arranged, so that the flocculant can be directly added when the flocculant is required to be added, and the operation flow is simplified.

3. The utility model discloses be provided with first valve, second valve, go up level sensor and lower level sensor, can avoid first cistern and second cistern liquid level too high or low phenomenon of crossing excessively.

Drawings

Fig. 1 is a schematic structural diagram of the present invention.

In the figure, 1-inlet pipe for process water; 2-a first water outlet pipe; 3-a second water outlet pipe; 4-a first reservoir; 5-a cooling water pipe; 6-a second reservoir, 7-a flushing water pipe, 8-a first circulating pipeline, 9-a first cooling tower, 10-a first slag discharge pipe, 11-a first treatment device, 12-a first discharge pipe, 13-a first sludge discharge pipe, 14-a second circulating pipeline, 15-a second treatment device, 16-a second discharge pipe, 17-a second sludge discharge pipe, 18-a plate and frame filter press, 19-a third discharge pipe, 20-a third sludge discharge pipe, 21-a flocculating agent storage tank, 22-a discharge header pipe, 23-a double-cyclone efficient filter, 24-a third reservoir and 25-a fourth discharge pipe.

Detailed Description

As shown in fig. 1, in order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention will be further described in detail with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

Example 1

The high-rod water treatment station comprises a production water inlet pipe 1, wherein a first water outlet pipe 2 and a second water outlet pipe 3 are arranged on the production water inlet pipe 1, a first reservoir 4 is arranged at the tail end of the first water outlet pipe 2, a cooling water pipe 5 is arranged at the tail end of the first reservoir 4, and the tail end of the cooling water pipe 5 is connected with a cooling water inlet of equipment needing cooling; a second water reservoir 6 is arranged at the tail end of the second water outlet pipe 3, a flushing water pipe 7 is arranged at the tail end of the second water reservoir 6, the tail end of the flushing water pipe 7 is connected with a spray water pipe arranged at the top of an equipment table to be flushed, a first circulating pipeline 8 is arranged at a cooling water outlet, a first cooling tower 9 is arranged at the tail end of the first circulating pipeline 8, a pipeline is arranged at the bottom of the first cooling tower 9 and connected with a first water reservoir 4, a first slag discharging pipe 10 is arranged at the bottom of the first water reservoir 4, the first slag discharging pipe 10 is connected with a first processing device 11, a first water discharging pipe 12 and a first sludge discharging pipe 13 are respectively arranged on the first processing device 11, a second circulating pipeline 14 is arranged at the water outlet of the equipment table to be flushed, the second circulating pipeline 14 is connected with a second processing device 15, a second water discharging pipe 16 and a second sludge discharging pipe 17 are arranged on the second processing device 15, and the second sludge discharging pipe 17 is connected with a filter press frame 18, be provided with third drain pipe 19 and third mud pipe 20 on the filter press 18, first mud pipe 13 is connected with filter press 18, is provided with pump and valve on the pipeline, and when using, it is still cleaner after the cooling water uses, and washs water use back impurity more, if unified collection is unified to be handled, then can increase the treatment cost, the utility model discloses separately handle cooling water and washing water earlier, then in unified processing, can practice thrift the treatment cost.

Example 2

On the basis of embodiment 1, a flocculant storage tank 21 is arranged at the top of the second treatment device 15, the flocculant storage tank 21 is communicated with the second treatment device 15 through a pipeline, and a valve is arranged on the pipeline, so that the flocculant can be directly added when needing to be added, and the operation flow is simplified.

Example 3

On the basis of embodiment 1, the tail ends of the first water discharge pipe 12, the second water discharge pipe 16 and the third water discharge pipe 19 are connected with a water discharge main pipe 22, a double-cyclone efficient filter 23 is arranged at the tail end of the water discharge main pipe 22, a third reservoir 24 is arranged at the tail end of the double-cyclone efficient filter 23, a fourth water discharge pipe 25 is arranged at the bottom of the third reservoir 24, produced water is treated respectively and then treated in a unified mode, and treatment cost is saved.

Example 4

On the basis of the embodiment 1, the cooling water pipe 5 and the flushing water pipe 7 are respectively arranged at the middle upper part of the side wall of the first reservoir 4 and the second reservoir 6, and sediment at the bottom is reduced to enter the cooling water pipe 5 and the flushing water pipe 7.

Example 5

On the basis of embodiment 1, be provided with first valve and second valve on first outlet pipe 2 and the second outlet pipe 3 respectively, be provided with level sensor and lower level sensor in first cistern 4 and the second cistern 6 respectively, go up level sensor, lower level sensor, first valve and second valve and all be connected with external control ware to by external power source power supply, can avoid first cistern 4 and 6 liquid levels of second cistern too high or the phenomenon of crossing excessively.

Although the invention has been described herein with reference to a number of illustrative embodiments thereof, it should be understood that numerous other modifications and embodiments can be devised by those skilled in the art that will fall within the spirit and scope of the principles of this invention. More specifically, various variations and modifications are possible in the component parts and/or arrangements of the subject combination arrangement within the scope of the disclosure, the drawings and the appended claims. In addition to variations and modifications in the component parts and/or arrangements, other uses will also be apparent to those skilled in the art.

Claims (9)

1. High excellent water treatment station, its characterized in that: the device comprises a production water inlet pipe (1), wherein a first water outlet pipe (2) and a second water outlet pipe (3) are arranged on the production water inlet pipe (1), a first reservoir (4) is arranged at the tail end of the first water outlet pipe (2), a cooling water pipe (5) is arranged at the tail end of the first reservoir (4), and the tail end of the cooling water pipe (5) is connected with a cooling water inlet of equipment needing cooling for use; the tail end of the second water outlet pipe (3) is provided with a second reservoir (6), the tail end of the second reservoir (6) is provided with a flushing water pipe (7), and the tail end of the flushing water pipe (7) is connected with a spray water pipe arranged at the top of an equipment table to be flushed.

2. A high rod water treatment station as claimed in claim 1, characterised in that: a first circulating pipeline (8) is arranged at the position of a cooling water outlet, a first cooling tower (9) is arranged at the tail end of the first circulating pipeline (8), a pipeline is arranged at the bottom of the first cooling tower (9) and connected with a first water storage tank (4), a first slag discharge pipe (10) is arranged at the bottom of the first water storage tank (4), the first slag discharge pipe (10) is connected with a first processing device (11), and a first water discharge pipe (12) and a first sludge discharge pipe (13) are arranged on the first processing device (11) respectively.

3. A high rod water treatment station as claimed in claim 1, characterised in that: the device platform sewer opening that needs to wash is provided with second circulating line (14), and second circulating line (14) are connected with second processing apparatus (15), are provided with second drain pipe (16) and second mud pipe (17) on second processing apparatus (15), and second mud pipe (17) are connected with plate and frame filter press (18), are provided with third drain pipe (19) and third mud pipe (20) on plate and frame filter press (18).

4. A high rod water treatment station as claimed in claim 2, wherein: the first sludge discharge pipe (13) is connected with a plate-and-frame filter press (18).

5. A high rod water treatment station as claimed in claim 1 or 2 or 3, characterised in that: the pipeline is provided with a pump and a valve.

6. A high rod water treatment station as claimed in claim 3, wherein: and a flocculant storage tank (21) is arranged at the top of the second treatment device (15), the flocculant storage tank (21) is communicated with the second treatment device (15) through a pipeline, and a valve is arranged on the pipeline.

7. A high rod water treatment station as claimed in claim 2 or 3, characterized in that: the tail ends of the first water discharge pipe (12), the second water discharge pipe (16) and the third water discharge pipe (19) are connected with a water discharge main pipe (22), a double-cyclone efficient filter (23) is arranged at the tail end of the water discharge main pipe (22), a third reservoir (24) is arranged at the tail end of the double-cyclone efficient filter (23), and a fourth water discharge pipe (25) is arranged at the bottom of the third reservoir (24).

8. A high rod water treatment station as claimed in claim 1, characterised in that: the cooling water pipe (5) and the flushing water pipe (7) are respectively arranged at the middle upper parts of the side walls of the first reservoir (4) and the second reservoir (6).

9. A high rod water treatment station as claimed in claim 1, characterised in that: the first water outlet pipe (2) and the second water outlet pipe (3) are respectively provided with a first valve and a second valve, the first reservoir (4) and the second reservoir (6) are respectively internally provided with an upper liquid level sensor and a lower liquid level sensor, and the upper liquid level sensor, the lower liquid level sensor, the first valve and the second valve are all connected with an external controller and are powered by an external power supply.

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