CN207827918U - High Flow Vortex Separator - Google Patents

Abstract

A water outlet is arranged at the center of the upper part of a cylindrical barrel, a tangential water inlet is vertically arranged on one side of the cylindrical barrel, a cone is coaxially arranged on the lower part of the cylindrical barrel, a slag discharge port is arranged on the lower part of the cone, the tangential water inlet, the water outlet, the cylindrical barrel, the cone and the slag discharge port are of an integral structure, an inlet flange is arranged at the position of the tangential water inlet, and an outlet flange is arranged at the position of the water discharge port. The large-flow vortex separator adopts the vortex separation principle, and can automatically separate large-particle impurities with the density higher than that of sewage in the sewage; the integral welding is realized, no moving part, namely no operation fault exists, and the calibers of an inlet and an outlet are large, so that the integral welding is more suitable for treating large-flow sewage; and the operating pressure of the main filtering device can be greatly relieved, the consumption of filtering consumables is greatly reduced, the cost is low, and the filter is suitable for wide popularization.

Description

High Flow Vortex Separator

technical field

The utility model relates to the technical field of sewage treatment, in particular to a device for separating large particles of impurities in sewage.

Background technique

In the process of sewage treatment, large particles of impurities must be filtered out first. At present, filter devices such as filters are usually used, and the filtration capacity is limited. When treating a large amount of sewage, the working pressure of the filter device is high due to excessive impurities, and the consumption of consumables is too much.

Utility model content

In order to solve the above-mentioned problems existing in the existing sewage large-particle impurity filtering equipment, the utility model provides a large-flow vortex separator.

The technical solution adopted by the utility model to achieve the above purpose is: a large flow vortex separator, a water outlet 5 is installed at the center of the upper part of the cylindrical body 2, a tangential water inlet 1 is vertically installed on one side of the cylindrical body 2, and the cylindrical body Cone 3 is coaxially installed on the lower part of 2, slag discharge port 4 is provided at the lower part of cone 3, tangential water inlet 1, discharge port 5, cylinder body 2, cone 3 and slag discharge port 4 are integral structures.

An inlet flange 6 is installed at one of the tangential water inlets, and an outlet flange 7 is installed at five outlets.

The tangential water inlet 1, the water outlet 5, the cylinder body 2, the cone 3 and the slag outlet 4 are made of stainless steel.

The large-flow vortex separator of the utility model adopts the principle of vortex separation, and can automatically separate the large-particle impurities in the sewage whose density is higher than that of the sewage; because it is welded as a whole, there is no moving part, that is, no operation failure, and The large outlet diameter is more suitable for the treatment of large-flow sewage; and it can greatly relieve the operating pressure of the main filter device, greatly reduce the consumption of filter consumables, and is low in cost, suitable for widespread promotion.

Description of drawings

Fig. 1 is a front structural view of the large flow vortex separator of the present invention.

Fig. 2 is a top view structure diagram of the large flow vortex separator of the present invention.

Fig. 3 is a left view structure diagram of the large flow vortex separator of the present invention.

In the figure: 1. Tangential water inlet, 2. Cylindrical body, 3. Cone, 4. Slag discharge port, 5. Drainage port, 6. Inlet flange, 7. Outlet flange.

Detailed ways

The structure of the large-flow vortex separator of the present utility model is shown in Figure 1-3. The whole is welded by stainless steel, including: tangential water inlet 1, cylindrical body 2, cone 3, slag discharge port 4 and drainage Port 5, the separator can be fixed on the bracket and connected with the fine separator for use. A drain port 5 is installed at the center of the upper part of the cylindrical body 2, a tangential water inlet 1 is installed vertically on one side of the cylindrical body 2, a cone 3 is coaxially installed at the lower part of the cylindrical body 2, and a slag discharge port 4 is provided at the lower part of the cone body 3. The water inlet 1, the water outlet 5, the cylinder body 2, the cone 3 and the slag outlet 4 are integral structures, the inlet flange 6 is installed at the tangential water inlet 1, and the outlet flange 7 is installed at the 5 water outlet. The verticality is guaranteed when the axis of the inlet and outlet water pipes is welded to the axis of the main body. The end face of the flange is perpendicular to the pipe axis, the center of the lower cone is consistent with the center of the upper vortex, and the welding must not be skewed. Accuracy: 20um, flow rate: 120m3/h.

The utility model adopts the principle of vortex separation to automatically separate the large-particle impurities in the sewage whose density is higher than that of the sewage. The sewage enters the separator tangentially from the inlet 1 by the filter pump, etc. The sewage changes from linear motion to circular rotation. Under the action of centrifugal force, the solid particles with high density are thrown to the inner wall of the main body of the separator. After the particles collide with the cylinder wall, Under the action of gravity, it enters the slag discharge outlet 4 at the lower end of the separator, and when the rotating and descending outward swirling water reaches the cone 3, it moves closer to the lower part of the separator due to the contraction of the cone. When the sewage reaches a certain position at the lower end of the cone 3, it continues to make a spiral movement from the bottom to the top in the same direction of rotation from the middle of the separator, that is, the internal swirl. Finally, the filtered sewage is discharged from the separator through the drain.

Claims (3)

1. big flow vortex separator, it is characterised in that：Cylindrical tube（2）Discharge outlet is installed at central upper portion（5）, cylindrical tube （2）Side right angle setting tangential water inlet（1）, cylindrical tube（2）Lower part is co-axially mounted cone（3）, cone（3）Lower part is set There is slag-drip opening（4）, tangential water inlet（1）, discharge outlet（5）, cylindrical tube（2）, cone（3）And slag-drip opening（4）For whole knot Structure, water inlet（1）, discharge outlet（5）Axis is vertical with main body axis.

2. big flow vortex separator according to claim 1, it is characterised in that：The tangential water inlet（1）Place's installation Suction flange（6）, discharge outlet（5）Locate installation outlet flange（7）.

3. big flow vortex separator according to claim 1, it is characterised in that：The tangential water inlet（1）, discharge outlet （5）, cylindrical tube（2）, cone（3）And slag-drip opening（4）For stainless steel material.