CN218306479U - Take water treatment facilities of mud-water separation function - Google Patents

Abstract

The utility model provides a take water treatment facilities of mud-water separation function, characterized by: the filter tank is communicated with one side of the bottom end of the equipment shell, a filter plate is obliquely arranged in the filter tank, a water inlet is formed in the top end of the filter tank, a water outlet is formed in one side of the filter tank, a spiral rod is arranged in the equipment shell, a spiral blade is fixed on the spiral rod, the top end of the spiral rod is connected with a motor through a speed reducer, the motor is fixed on the equipment shell through a motor support, and a sludge discharge port is formed in one side of the top of the equipment shell; the filter plate is obliquely arranged in the filter tank to divide the interior of the filter tank into two areas, and the area at the upper part of the filter plate is communicated with the lower part of the equipment shell; the water inlet is arranged on the filter tank shell close to the top of the filter plate, and the water outlet is arranged on the side wall of the area below the filter plate. The utility model discloses simple structure, mud-water separation is effectual, is favorable to the collection of mud.

Description

Take water treatment facilities of mud-water separation function

Technical Field

The utility model relates to a water treatment facilities, especially a mud-water separation equipment, specifically speaking are water treatment facilities of taking mud-water separation function.

Background

As is well known, sewage treatment is a process of purifying sewage to meet the water quality requirement for discharge into a certain water body or reuse. Sewage treatment is widely applied to various fields such as building, agriculture, traffic, energy, petrifaction, environmental protection, urban landscape, medical treatment, catering and the like, and is increasingly used in daily life of common people. The A/O process is widely applied to sewage treatment at present. The A/O biological treatment process consists of two parts, namely anaerobic part and aerobic part. Most of sludge can be taken away when water flows out of the anaerobic reaction tank in the anaerobic stage and the aerobic reaction tank in the aerobic stage, so that the sludge stock in the reaction tanks is greatly reduced, the treatment effect cannot be achieved, and partial sludge must flow back to ensure the number of active microorganisms in the reaction tanks. The existing sludge recovery device generally adopts a sedimentation tank, a water inlet pipe is arranged at an opening at the upper end of the sedimentation tank, sewage is directly pumped into the sedimentation tank by a water inlet pump, and the sludge is returned to a front aerobic or anaerobic tank by a pipeline after being precipitated in the sedimentation tank. The sludge recovery system with the structure needs to pump sludge into the sedimentation tank by the water pump, has large energy consumption and high cost, easily flushes the settled sludge again in the water inlet process, has long sludge settling time and poor settling effect, and is inconvenient for collecting and refluxing the settled sludge.

That is to say in sewage treatment process, because silt from the area and through the mud that flocculating agent flocculation produced in the sewage can pile up at the bottom of the pool, need carry out mud-water separation through solitary mud recovery system and just can retrieve mud, mud recovery cost is higher and inefficiency.

SUMMERY OF THE UTILITY MODEL

The utility model aims at solving the problems of higher cost and low efficiency of the existing sludge recovery, and designing a water treatment device with a mud-water separation function. It has the advantages of simple structure, low cost and good use effect.

The technical scheme of the utility model is that:

the utility model provides a take water treatment facilities of mud-water separation function, characterized by: the filter tank is communicated with one side of the bottom end of the equipment shell, a filter plate is obliquely arranged in the filter tank, a water inlet is formed in the top end of the filter tank, a water outlet is formed in one side of the filter tank, a spiral rod is arranged in the equipment shell, a spiral blade is fixed on the spiral rod, the top end of the spiral rod is connected with a motor through a speed reducer, the motor is fixed on the equipment shell through a motor support, and a sludge discharge port is formed in one side of the top of the equipment shell; the filter plate is obliquely arranged in the filter tank to divide the interior of the filter tank into two areas, and the area at the upper part of the filter plate is communicated with the lower part of the equipment shell; the water inlet is arranged on the filter tank shell close to the top of the filter plate, and the water outlet is arranged on the side wall of the area below the filter plate.

The utility model has the advantages that:

the utility model discloses a water inlet is in leading-in filtering pond with sewage, filter through impurities such as silt of filter plate in to sewage, because the filter plate slope sets up, can utilize sewage to erode the filtering surface of filter, wash into body shell with mud in, drive helical blade through the motor and upwards promote mud, upwards promote the in-process, the downward seepage of micropore on the moisture in the mud passes through the blade, it filters to lead to the filter plate once more, and the mud that the water content is low gets into out in the mud, further compression in the mud storehouse of arranging, then discharge from a mud hole, thereby realize mud-water separation.

The utility model discloses simple structure, mud-water separation is effectual, is favorable to the collection of mud.

Drawings

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

Fig. 2 is a sectional view of the sludge discharge port.

Fig. 3 is a schematic sectional view of the helical blade.

In the figure: 1 is a motor, 2 is a speed reducer, 3 is a sludge discharge port, 4 is a helical blade, 5 is a filter plate, 6 is a water outlet, 7 is a filter tank, 8 is a water inlet, 9 is an equipment shell, 10 is a helical rod, 11 is a micropore, 12 is a sludge outlet, 13 is a sludge discharge bin, and 14 is a motor support.

Detailed Description

The present invention will be further described with reference to the accompanying drawings and examples.

As shown in fig. 1-3.

A water treatment device with a mud-water separation function comprises a filter tank 7 and a device shell 9, as shown in figure 1, the filter tank 7 is communicated with one side of the bottom end of the device shell 9, a filter plate 5 is installed inside the filter tank 7, a water inlet 8 is formed in the top end of the filter tank 7, a water outlet 6 is formed in one side of the filter tank 7, a spiral rod 10 is arranged inside the device shell 9, spiral blades 4 are fixed on the spiral rod 10, the top end of the spiral rod 10 is connected with a motor 1 through a speed reducer 2, the motor 1 is fixed on the device shell 9 through a motor support 14, and a mud discharging port 3 is formed in one side of the top of the device shell 9. The filter plate 5 is obliquely arranged inside the filter tank 7 to divide the interior of the filter tank 7 into two areas, and the area at the upper part of the filter plate 5 is communicated with the equipment shell 9. The water inlet 8 is arranged on the shell of the filter tank 7 close to the top of the filter plate 5, and the water outlet 6 is arranged on the side wall of the area below the filter plate 5. The diameter of the helical blade 4 is the same as the inner diameter of the equipment shell 9, and micropores 11 are uniformly distributed on the helical blade 9, as shown in figure 3. The sectional structure of the sludge discharge port 3 is as shown in fig. 2, a sludge discharge bin 13 is arranged in the sludge discharge port, one end of the sludge discharge bin 13 is communicated with the equipment shell 9, a sludge discharge hole 12 is formed in the other end of the sludge discharge bin 13, and the inner diameter of the sludge discharge bin 13 in the direction of the sludge discharge hole 12 is gradually reduced. The filter chamber 7 and the equipment shell 9 are tightly fixed by welding.

During the operation, sewage passes through water inlet 8 and gets into filtering pond 7, impurity such as silt in the sewage can be filtered through filter plate 5, because filter plate 5 slope sets up, can utilize sewage to wash away the filtering surface of filter plate 5, wash into equipment shell 9 with mud in, drive helical blade 4 through motor 1, can upwards promote mud, upwards promote the in-process, moisture in the mud passes through the downward seepage of micropore, filter through filter plate 5 once more, and the mud that the water content is low gets into in mud discharging port 3, mud is discharged from mud outlet 12 after further compressing in mud discharging storehouse 13, realize mud-water separation.

The utility model discloses the part that does not relate to all is the same with prior art or can adopt prior art to realize.

Claims (4)

1. The utility model provides a take water treatment facilities of mud-water separation function, characterized by: the filter tank is communicated with one side of the bottom end of the equipment shell, a filter plate is obliquely arranged in the filter tank, a water inlet is formed in the top end of the filter tank, a water outlet is formed in one side of the filter tank, a spiral rod is arranged in the equipment shell, a spiral blade is fixed on the spiral rod, the top end of the spiral rod is connected with a motor through a speed reducer, the motor is fixed on the equipment shell through a motor support, and a sludge discharge port is formed in one side of the top of the equipment shell; the filter plate is obliquely arranged in the filter tank to divide the interior of the filter tank into two areas, and the area at the upper part of the filter plate is communicated with the lower part of the equipment shell; the water inlet is arranged on the filter tank shell close to the top of the filter plate, and the water outlet is arranged on the side wall of the area below the filter plate.

2. The water treatment apparatus with a mud-water separation function according to claim 1, characterized in that: the diameter of the spiral blade is the same as the inner diameter of the equipment shell, and micropores are uniformly distributed on the spiral blade.

3. The water treatment apparatus with a mud-water separation function according to claim 1, characterized in that: the inside of mud discharging port establish the mud discharging bin, the one end and the equipment shell intercommunication in mud discharging bin, the mud hole is established to the other end in mud discharging bin, and the internal diameter in mud discharging bin to the mud hole direction diminishes gradually.

4. The water treatment apparatus with a sludge-water separating function as claimed in claim 1, wherein: the filter chamber and the equipment shell are tightly fixed by welding.

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