CN-122013889-A - Integrated bin of mineral water treatment equipment and mineral water treatment system

Abstract

The application provides an integrated bin of mineral water treatment equipment, which comprises a plurality of container bodies, wherein the container bodies are fixedly connected with each other through a connecting structure and are enclosed to form at least one treatment unit for mineral water treatment, the container bodies at least comprise a plurality of first-layer container bodies arranged along a first direction and a plurality of second-layer container bodies arranged along the first direction, the second-layer container bodies are arranged above the first-layer container bodies, and an internal channel is arranged between at least two adjacent container bodies so as to enable the interiors of the treatment units to be communicated. According to the scheme, the mineral water treatment process is modularized and packaged in the standard container body, so that the construction period is shortened, the container bodies are fixed through the connecting structure to form an integral rigid structure, the reliability of long-term operation is guaranteed, the safety operation and maintenance of operators are realized through the arranged internal channel, and the risk of outdoor operation in severe weather is eliminated.

Inventors

• NI SHOUFENG
• JIANG WEIDONG
• ZHANG WENJING
• JIANG WEI
• WANG YIFAN

Assignees

• 青岛中集集装箱制造有限公司
• 中集集装箱(集团)有限公司
• 中国国际海运集装箱(集团)股份有限公司

Dates

Publication Date

20260512

Application Date

20251229

Claims (10)

1. 1. The integrated bin of the mineral water treatment equipment is characterized by comprising a plurality of container bodies, wherein the container bodies are fixedly connected with each other through a connecting structure and are enclosed to form at least one treatment unit for mineral water treatment, the container bodies at least comprise a plurality of first-layer container bodies arranged along a first direction and a plurality of second-layer container bodies arranged along the first direction, and the second-layer container bodies are arranged above the first-layer container bodies; Wherein, at least two adjacent container bodies are provided with internal channels therebetween to communicate the interiors of the processing units.
2. 2. The integrated cartridge of claim 1, wherein the processing unit comprises a magnetic coagulation unit comprising one of the first tier container bodies, one of the second tier container bodies disposed above the first tier container bodies, and one of the vertical container bodies disposed laterally of the first tier container bodies and the second tier container bodies.
3. 3. The integrated cartridge of mineral water treatment equipment of claim 2, wherein the height of the vertical container body is greater than or equal to the sum of the heights of the first and second layers of container bodies laterally thereof.
4. 4. The integrated cabin of mineral water treatment equipment according to claim 2, wherein a dosing reaction cabin is arranged in a first layer of container body forming the magnetic coagulation unit, a precipitation separation cabin is arranged in a second layer of container body, and a sewage receiving storage cabin is arranged in a vertical container body; The sewage receiving and storing bin, the dosing reaction bin and the precipitation separation bin are sequentially communicated through pipelines.
5. 5. The integrated cartridge of mineral water treatment equipment of claim 1, wherein the treatment unit further comprises a sludge treatment unit comprising one of the first tier container bodies and one of the second tier container bodies disposed above the first tier container body.
6. 6. The integrated cabin of mineral water treatment equipment according to claim 5, wherein a sludge conveying cabin is arranged in a first layer of container body forming the sludge treatment unit, a sludge receiving compression cabin is arranged in a second layer of container body, the sludge receiving compression cabin is provided with a sludge receiving port and a sludge compressor, the sludge conveying cabin is provided with a sludge conveyor, and an outlet of the sludge receiving compression cabin is communicated with an inlet of the sludge conveyor.
7. 7. The integrated cartridge of mineral water treatment equipment of claim 1, further comprising a stairway unit comprising one of the first tier container bodies and one of the second tier container bodies disposed above the first tier container body, the second tier container body having a stairway structure disposed therein.
8. 8. The integrated cartridge of claim 7, wherein the stairway unit communicates with a work platform of a sludge treatment unit through the internal passageway.
9. 9. The integrated cartridge of mineral water treatment equipment of claim 1, further comprising an auxiliary unit comprising at least one of said second tier container body having at least one of an operation control area, a data storage area, an operation and maintenance display, a meeting area disposed therein, The auxiliary unit communicates with the processing unit through the internal passage and/or And a steel structure platform is arranged below the auxiliary unit.
10. 10. A mineral water treatment system comprising a mineral water treatment apparatus integration cartridge as claimed in any one of claims 1 to 9.

Description

Integrated bin of mineral water treatment equipment and mineral water treatment system Technical Field The application relates to the technical field of mineral water treatment, in particular to an integrated bin of mineral water treatment equipment and a mineral water treatment system. Background The mining activities can produce a large amount of acid wastewater which contains high-concentration heavy metals, low pH value and a large amount of sulfate, and if the wastewater is directly discharged without treatment, serious pollution can be caused to water, soil and surrounding ecological systems. At present, two construction modes are mainly adopted for mine sewage treatment, namely, a fixed reinforced concrete sewage treatment station is constructed, and treatment equipment is distributed in a plurality of independent containers. The fixed sewage treatment station has long construction period and high investment cost, and once mine service is expired or a mine area is transferred, facilities are difficult to move, so that resource waste is caused. The mode of dispersing and arranging the equipment by adopting a plurality of independent containers is adopted, although the mobility of the equipment is improved, each container still needs to be subjected to complex pipeline connection, electric linkage and foundation construction on site, the whole installation and debugging are still complicated, and each functional area (such as a treatment area, an office area and a sludge treatment area) is dispersed, so that the centralized management and the inspection are inconvenient, and the heat preservation, corrosion prevention and safety risks exist in the outdoor arrangement of pipelines. Accordingly, there is a need to provide a mineral water treatment facility integrated cartridge and mineral water treatment system that at least partially address the above-described problems. Disclosure of Invention In the summary, a series of concepts in a simplified form are introduced, which will be further described in detail in the detailed description. The summary of the application is not intended to define the key features and essential features of the claimed subject matter, nor is it intended to be used as an aid in determining the scope of the claimed subject matter. In order to at least partially solve the above problems, a first aspect of the present application provides an integrated cabin of a mineral water treatment device, including a plurality of container bodies, wherein the plurality of container bodies are fixedly connected with each other by a connection structure and enclose to form at least one treatment unit for mineral water treatment, the plurality of container bodies at least include a plurality of first container bodies arranged along a first direction, and a plurality of second container bodies arranged along the first direction, and the second container bodies are arranged above the first container bodies; Wherein, at least two adjacent container bodies are provided with internal channels therebetween to communicate the interiors of the processing units. According to the integrated cabin of the mineral water treatment equipment, a mineral water treatment process is modularized and packaged in a standard container body, a double-layer three-dimensional layout and an interconnecting structure are adopted, industrial prefabrication, rapid transportation and on-site convenient splicing of the equipment are realized, the construction period is greatly shortened, more functional units are integrated in a limited occupied area through double-layer design, the space utilization rate is remarkably improved, the integrated cabin is suitable for mine land shortage conditions, an integral rigid structure is formed between container bodies through fixing of a connecting structure, wind resistance and earthquake resistance stability of the system in a complex environment is enhanced, long-term running reliability is guaranteed, and an operator can safely and conveniently access all processing units in the protected cabin body to carry out inspection and maintenance, so that outdoor operation risks under severe weather are eliminated, and an integrated solution of the mineral water treatment equipment is integrally achieved. Optionally, the processing unit includes a magnetic coagulation unit, where the magnetic coagulation unit includes a first layer of container body, a second layer of container body disposed above the first layer of container body, and a vertical container body disposed laterally of the first layer of container body and the second layer of container body. Optionally, the height of the vertical container body is greater than or equal to the sum of the heights of the first layer container body and the second layer container body at the side of the vertical container body. Optionally, a chemical adding reaction bin is arranged in a first layer container body forming the magnetic coagulation u