CN105906089A - High-efficiency mineral water purifying device - Google Patents

Abstract

The invention relates to a high-efficiency mineral water purifying device which comprises a stirring ejector, a settling basin, a solid-liquid separation basin and a three-stage filter tank. By arranging the stirring ejector, through the combination of the settling basin of the specific structure, primary separation efficiency is improved; by arranging an inclined large-aperture filter plate on the solid-liquid separation basin, solid-liquid separation efficiency is improved; by arranging the multi-stage filter tank, filter water is subjected to settling again during filtering and then filtered, and the high-efficiency filtering effect is achieved on the aspect of physics.

Description

Efficiently colliery water purification installation

Technical field

The invention belongs to field, colliery and sewage treatment area, be specifically related to efficient colliery water purification installation.

Background technology

Owing to a lot of sewage can be produced during coal production, these sewage chemical complicated components, and be all generally solid-liquid mixing, the processing mode of existing routine or expensive, or process the most thorough.Owing to solid-liquid mixability is higher, when using conventional sewage disposal device to process when, the most i.e. filter membrane can be blocked, and sewage solid here is separated relatively difficult.Therefore processing equipment or the cleaning equipment of the coal mine sewage inventing a kind of low cost are needed badly.

Summary of the invention

It is an object of the invention to propose a kind of colliery water purification installation.

Realize especially by following technological means:

Efficiently colliery water purification installation, including stirring ejector, Sedimentation tank, solid-liquid separation tank, the first Rose Box, the second Rose Box and the 3rd Rose Box；

Described stirring ejector includes colliery water inlet, high intensity blade agitators, stirring ejector shell and has the jet of gradient；

Described Sedimentation tank includes the relative opening of jet with stirring ejector, is arranged at the baffle plate at top, is arranged at the demarcation strip within Sedimentation tank, the demarcation strip left chamber being split to form and right chamber and is positioned at the first liquid outlet in the middle part of left chamber and is positioned at the second liquid outlet of middle and upper part, right chamber；

Large aperture screen plate, solid collecting box and the outlet that described solid-liquid separation tank includes inlet, is obliquely installed；

Described large aperture screen plate is α with the angle of horizontal level, and the value of described α is 15 ~ 45 °；

Described first Rose Box includes being arranged on the water inlet on top, being horizontally installed on the metallurgical slag screen plate at middle part and be arranged on the first Rose Box outlet of middle and lower part；

Described second Rose Box includes being arranged on the water inlet of middle and upper part, being horizontally installed on the quartz sand filtration plate at middle part and be arranged on the second Rose Box outlet of middle and lower part；

Described 3rd Rose Box includes being arranged on the water inlet of middle and upper part, being horizontally installed on the activated carbon screen plate at middle part and be arranged on the clean water outlet of middle and lower part.

Described metallurgical slag screen plate is installing metallurgical slag filter element in porous framework plate, and described quartz sand filter element plate is installing quartz sand filter element in porous framework plate, and described activated-carbon filter central layer is installing active carbon filter core in porous framework plate.

The aperture of described metallurgical slag filter element plate is 0.5 ~ 0.8mm(preferably 0.6 ~ 0.8mm), the aperture of described quartz sand filter element plate is 0.6 ~ 0.8mm, and the aperture of described activated-carbon filter central layer is 0.3 ~ 0.6mm.

As preferably, the value of described α is 15 ~ 30 °.

The aperture of described large aperture screen plate is 1.1 ~ 2.1mm.

Effect of the invention is that:

1, by arranging multistage filtering case, so that ensure in the case of Gao Xiao that serious forgiveness is high, when there is blocking or other problems in single filter plate, other screen plate need not be adjusted, and by the restriction to different screen plate apertures so that screen plate will not be blocked while each stage purifies water.

By stirring ejector and the setting of the concrete mode of Sedimentation tank, the highly uniform solid-liquid making stirring all can be ejected in Sedimentation tank by jet, but owing to the proportion of solid and liquid is different, therefore can parabola spray during initial gross separation, by the demarcation strip at middle part, Sedimentation tank is divided into two parts in left and right, so it is deposited in the solid of bottom in two, left and right part different the most, respectively it will be removed according to the difference of solids quality the most in process of production, thus decrease and solid matter is removed and time loss to whole production link.And owing to being provided with baffle plate so that the solid matter reflection of bulk directly drops to, in the chamber on right side, preferably to store classifiedly solid matter.

2, setting by the large aperture screen plate to solid-liquid separation tank, thus further solid-liquid is carried out degree of depth separation, by the reasonable selection to gradient, make solidliquid mixture during tumbling downwards along the large aperture screen plate with gradient, sufficiently contact with screen plate, thus as far as possible make that liquid is flowed into bottom by screen plate and solid matter rolls down in solid collecting box, reach high efficiency solid-liquid separation.

3, by the reasonable setting to multiple filtration plate, make after having carried out solid-liquid separation sewage to be filtered with high efficiency and purify, arranged by rational layer structure and the restriction of the set-up mode of every layer so that the specific sewage after separating for aforementioned equipment for separating liquid from solid can filter efficiently.By the setting to each aperture so that filter effect is greatly improved.

Accompanying drawing explanation

Fig. 1 is the structural representation of the present invention efficient colliery water purification installation.

Wherein: 1-stirs ejector, 11-colliery water inlet, 12-high intensity blade agitators, 13-jet, 21-baffle plate, 22-the first liquid outlet, 23-the second liquid outlet, 24-demarcation strip, 3-solid-liquid separation tank, 31-large aperture screen plate, 32-solid collecting box, 33-outlet, 4-the first Rose Box, 41-metallurgical slag screen plate, 42-the first Rose Box exports, 5-the second Rose Box, 51-quartz sand filtration plate, 52-the second Rose Box exports, 6-the 3rd Rose Box, 61-activated carbon screen plate, 62-clean water exports.

Detailed description of the invention

Embodiment 1

Efficiently colliery water purification installation, including stirring ejector, Sedimentation tank, solid-liquid separation tank, the first Rose Box, the second Rose Box and the 3rd Rose Box；

Described stirring ejector includes colliery water inlet, high intensity blade agitators, stirring ejector shell and has the jet of gradient；

Described Sedimentation tank includes the relative opening of jet with stirring ejector, is arranged at the baffle plate at top, is arranged at the demarcation strip within Sedimentation tank, the demarcation strip left chamber being split to form and right chamber and is positioned at the first liquid outlet in the middle part of left chamber and is positioned at the second liquid outlet of middle and upper part, right chamber；

Large aperture screen plate, solid collecting box and the outlet that described solid-liquid separation tank includes inlet, is obliquely installed；

Described large aperture screen plate is α with the angle of horizontal level, and the value of described α is 18 °；

Described first Rose Box includes being arranged on the water inlet on top, being horizontally installed on the metallurgical slag screen plate at middle part and be arranged on the first Rose Box outlet of middle and lower part；

Described second Rose Box includes being arranged on the water inlet of middle and upper part, being horizontally installed on the quartz sand filtration plate at middle part and be arranged on the second Rose Box outlet of middle and lower part；

Described 3rd Rose Box includes being arranged on the water inlet of middle and upper part, being horizontally installed on the activated carbon screen plate at middle part and be arranged on the clean water outlet of middle and lower part.

Described metallurgical slag screen plate is installing metallurgical slag filter element in porous framework plate, and described quartz sand filter element plate is installing quartz sand filter element in porous framework plate, and described activated-carbon filter central layer is installing active carbon filter core in porous framework plate.

The aperture of described metallurgical slag filter element plate is 0.61mm, and the aperture of described quartz sand filter element plate is 0.68mm, and the aperture of described activated-carbon filter central layer is 0.39mm.

The aperture of described large aperture screen plate is 1.3mm.

Embodiment 2

Efficiently colliery water purification installation, including stirring ejector, Sedimentation tank, solid-liquid separation tank, the first Rose Box, the second Rose Box and the 3rd Rose Box；

Described stirring ejector includes colliery water inlet, high intensity blade agitators, stirring ejector shell and has the jet of gradient；

Described Sedimentation tank includes the relative opening of jet with stirring ejector, is arranged at the baffle plate at top, is arranged at the demarcation strip within Sedimentation tank, the demarcation strip left chamber being split to form and right chamber and is positioned at the first liquid outlet in the middle part of left chamber and is positioned at the second liquid outlet of middle and upper part, right chamber；

Large aperture screen plate, solid collecting box and the outlet that described solid-liquid separation tank includes inlet, is obliquely installed；

Described large aperture screen plate is α with the angle of horizontal level, and the value of described α is 33 °；

Described first Rose Box includes being arranged on the water inlet on top, being horizontally installed on the metallurgical slag screen plate at middle part and be arranged on the first Rose Box outlet of middle and lower part；

Described second Rose Box includes being arranged on the water inlet of middle and upper part, being horizontally installed on the quartz sand filtration plate at middle part and be arranged on the second Rose Box outlet of middle and lower part；

Described 3rd Rose Box includes being arranged on the water inlet of middle and upper part, being horizontally installed on the activated carbon screen plate at middle part and be arranged on the clean water outlet of middle and lower part.

Described metallurgical slag screen plate is installing metallurgical slag filter element in porous framework plate, and described quartz sand filter element plate is installing quartz sand filter element in porous framework plate, and described activated-carbon filter central layer is installing active carbon filter core in porous framework plate.

The aperture of described metallurgical slag filter element plate is 0.69mm, and the aperture of described quartz sand filter element plate is 0.69mm, and the aperture of described activated-carbon filter central layer is 0.56mm.

The aperture of described large aperture screen plate is 2.0mm.

Claims (5)

1. efficient colliery water purification installation, it is characterised in that include stirring ejector, Sedimentation tank, solid-liquid separation tank, the first Rose Box, the second Rose Box and the 3rd Rose Box；

Described stirring ejector includes colliery water inlet, high intensity blade agitators, stirring ejector shell and has the jet of gradient；

Described Sedimentation tank includes the relative opening of jet with stirring ejector, is arranged at the baffle plate at top, is arranged at the demarcation strip within Sedimentation tank, the demarcation strip left chamber being split to form and right chamber and is positioned at the first liquid outlet in the middle part of left chamber and is positioned at the second liquid outlet of middle and upper part, right chamber；

Large aperture screen plate, solid collecting box and the outlet that described solid-liquid separation tank includes inlet, is obliquely installed；

Described large aperture screen plate is α with the angle of horizontal level, and the value of described α is 15 ~ 45 °；

Described first Rose Box includes being arranged on the water inlet on top, being horizontally installed on the metallurgical slag screen plate at middle part and be arranged on the first Rose Box outlet of middle and lower part；

Described second Rose Box includes being arranged on the water inlet of middle and upper part, being horizontally installed on the quartz sand filtration plate at middle part and be arranged on the second Rose Box outlet of middle and lower part；

Described 3rd Rose Box includes being arranged on the water inlet of middle and upper part, being horizontally installed on the activated carbon screen plate at middle part and be arranged on the clean water outlet of middle and lower part.

Efficient colliery the most according to claim 1 water purification installation, it is characterized in that, described metallurgical slag screen plate is installing metallurgical slag filter element in porous framework plate, described quartz sand filter element plate is installing quartz sand filter element in porous framework plate, and described activated-carbon filter central layer is installing active carbon filter core in porous framework plate.

Efficient colliery the most according to claim 2 water purification installation, it is characterized in that, the aperture of described metallurgical slag filter element plate is 0.5 ~ 0.8mm(preferably 0.6 ~ 0.8mm), the aperture of described quartz sand filter element plate is 0.6 ~ 0.8mm, and the aperture of described activated-carbon filter central layer is 0.3 ~ 0.6mm.

4. according to the efficient colliery water purification installation described in claim 1 and 2, it is characterised in that the value of described α is 15 ~ 30 °.

5. according to the efficient colliery water purification installation described in claim 1 and 2, it is characterised in that the aperture of described large aperture screen plate is 1.1 ~ 2.1mm.