CN204996559U - Magnetic cavity mechanism of multi -cylinder thick liquids de -ironing separator - Google Patents

Abstract

The utility model discloses a magnetic cavity mechanism of multi -cylinder thick liquids de -ironing separator, the magnetic cavity including first twin -rotor housing and second twin -rotor housing, its characterized in that: first twin -rotor housing and second twin -rotor housing on all be equipped with left magnetic cavity and right magnetic cavity, left magnetic cavity and right magnetic cavity below all be connected through U type three -way pipe, U type three -way pipe lower extreme be connected through T type pipe A, T type pipe B and T type pipe C, T type pipe A front end be equipped with into feeding tube entrance, left magnetic cavity and right magnetic cavity top one side on all be equipped with feed pipe opening, be located the top and be equipped with clean water inlet, T type pipe B on be equipped with scum pipe A and manage A with the feed back, T type pipe C on be equipped with scum pipe B and manage B with the feed back. The utility model aims at providing a simple structure, reduce manufacturing cost, the deironing is effectual and the magnetic cavity mechanism of efficient thick liquids de -ironing separator.

Description

A kind of magnetic cavity mechanism of multi-cylinder pulp deferrization device

Technical field

The utility model relates to a kind of ferromagnetic substance removing device, especially a kind of magnetic cavity mechanism of multi-cylinder pulp deferrization device.

Background technology

In the industries such as ceramics, mining industry, chemical industry and electronics, usually use slurry, all there are the iron powder of some, micro-iron powder, magnetisable material etc. in these slurries, easily cause poor product quality if be directly used in production, therefore, slurry is before use first through iron removal step.At present, the tramp iron separator of slurry uses solenoid deironing usually, cleaning uses centrifugation cleaning residual slurry thing, therefore this tramp iron separator complex structure, energy consumption is high, and fault rate is higher, thus increase the cost of enterprise, and for the slurry of mobility, de-ferrous effect is poor, efficiency can be caused slow if control flowing velocity.

Utility model content

The purpose of this utility model is for the deficiencies in the prior art, provides a kind of effective, practical curtain rail.

For achieving the above object, the utility model is achieved through the following technical solutions:

A kind of magnetic cavity mechanism of multi-cylinder pulp deferrization device, comprise magnetic cavity, described magnetic cavity includes the first twin-rotor housing and the second twin-rotor housing, it is characterized in that: the first described twin-rotor housing and the second twin-rotor housing are equipped with left magnetic cavity and right magnetic cavity, described left magnetic cavity is all connected by U-shaped three-way pipe with below right magnetic cavity, described U-shaped three-way pipe lower end is by T-shaped pipe A, T-shaped pipe B is connected with T-shaped pipe C, described T-shaped pipe A front end is provided with the charging mouth of pipe, the discharging mouth of pipe is equipped with at the upper side of described left magnetic cavity and right magnetic cavity, be positioned at top and be provided with clean water inlet, described T-shaped pipe B is provided with scum pipe A and feed back pipe A, described T-shaped pipe C is provided with scum pipe B and feed back pipe B.

Further illustrate, the two ends of described scum pipe A, feed back pipe A, scum pipe B, feed back pipe B and T-shaped pipe A are equipped with butterfly valve apparatus.

Further illustrate, described butterfly valve apparatus is fixed on scum pipe A, feed back pipe A, scum pipe B, feed back pipe B and T-shaped pipe A by clamp port, and this butterfly valve apparatus also comprises valve rod, and described valve rod is connected with valve block, and this valve block is positioned at clamp port.

The beneficial effects of the utility model are: the first twin-rotor housing and the second twin-rotor housing provide slurry by the same charging mouth of pipe, save the setting of multiple three-way pipe and the setting of butterfly valve apparatus, save manufacturing cost, and structure is comparatively simple, and good working effect.

Accompanying drawing explanation

Fig. 1 is overall schematic of the present utility model.

Fig. 2 is top view of the present utility model.

Fig. 3 is butterfly valve apparatus structural representation of the present utility model.

Detailed description of the invention

In order to structure of the present utility model, feature and effect thereof, can have and further understand and be familiar with, now lift a preferred embodiment, and be described with reference to the accompanying drawings as follows:

As shown in Figure 1, the magnetic cavity mechanism of a kind of multi-cylinder pulp deferrization device described by the present embodiment, it mainly comprises magnetic cavity, magnetic cavity includes the first twin-rotor housing 1 and the second twin-rotor housing 2, it is characterized in that: the first twin-rotor housing 1 and the second twin-rotor housing 2 are equipped with left magnetic cavity 3 and right magnetic cavity 4, left magnetic cavity 3 is all connected by U-shaped three-way pipe 7 with below right magnetic cavity 4, U-shaped three-way pipe 7 lower end is by T-shaped pipe A8, T-shaped pipe B9 is connected with T-shaped pipe C11, T-shaped pipe A8 front end is provided with the charging mouth of pipe 13, the discharging mouth of pipe 6 is equipped with at the upper side of left magnetic cavity 3 and right magnetic cavity 4, be positioned at top and be provided with clean water inlet 5, T-shaped pipe B9 is provided with scum pipe A14 and feed back pipe A16, T-shaped pipe C11 is provided with scum pipe B15 and feed back pipe B17, scum pipe A14, feed back pipe A16, scum pipe B15, the two ends of feed back pipe B17 and T-shaped pipe A8 are equipped with butterfly valve apparatus 12, butterfly valve apparatus 12 is fixed on scum pipe A14 by clamp port 18, feed back pipe A16, scum pipe B15, on feed back pipe B17 and T-shaped pipe A8, this butterfly valve apparatus 12 also comprises valve rod 19, valve rod 19 is connected with valve block 10, this valve block 10 is positioned at clamp port 18.

Slurry is entered by the charging mouth of pipe 13, move towards in left magnetic cavity 3 in the first twin-rotor housing 1 and the second twin-rotor housing 2 and right magnetic cavity 4 by T-shaped pipe B9, U-shaped three-way pipe 7, T-shaped pipe C11, then complete the slurry after deironing to be flowed out by the discharging mouth of pipe 6 on left magnetic cavity 3 and right magnetic cavity 4, when carrying out this work, butterfly valve apparatus 12 on two butterfly valve apparatus 12 on T-shaped pipe A8, T-shaped pipe B9 and T-shaped pipe C11 is all in open mode, and the butterfly valve apparatus 12 on scum pipe A14, feed back pipe A16, scum pipe B15, feed back pipe B17 is all in closed condition, when needs cleaning deslagging, the first closedown discharging mouth of pipe 6 is in the butterfly valve apparatus 12 on the second twin-rotor housing 2, open the butterfly valve apparatus 12 on feed back pipe B17, the remaining slurry be also in magnetic cavity is made to reflux for subsequent use, close the butterfly valve apparatus 12 on feed back pipe B17 again, then the suction magnetic state (permanent magnet being namely positioned at the second twin-rotor housing 2 both sides will retreat) on the second twin-rotor housing 2 is closed, open the butterfly valve apparatus 12 on scum pipe B15, open the clean water inlet 5 be positioned on left magnetic cavity 3 and right magnetic cavity 4, clear water is made under high pressure to clean magnetic cavity, sewage after cleaning and iron waste material are discharged by scum pipe B15, on the contrary, when first twin-rotor housing 1 needs to clean deslagging, by first closing the butterfly valve apparatus 12 being positioned at and expecting the mouth of pipe 6 to be on the first twin-rotor housing 1, open the butterfly valve apparatus 12 on feed back pipe A16, the remaining slurry be also in magnetic cavity is made to reflux for subsequent use, close the butterfly valve apparatus 12 on feed back pipe A16 again, then the suction magnetic state (in like manner) on the first twin-rotor housing 1 is closed, open the butterfly valve apparatus 12 on scum pipe A14, open the clean water inlet 5 be positioned on left magnetic cavity 3 and right magnetic cavity 4, clear water is made under high pressure to clean magnetic cavity, sewage after cleaning and iron waste material are discharged by scum pipe A14.

First twin-rotor housing of the present utility model and the second twin-rotor housing provide slurry by the same charging mouth of pipe, save the setting of multiple three-way pipe and the setting of butterfly valve apparatus, save manufacturing cost, and structure is comparatively simple, and good working effect.

The foregoing is only the preferred embodiment of the utility model; not limit practical range of the present utility model with this; all persons that is familiar with technique; use principle of the present utility model and technical characteristic; the various change done and decoration, all should be covered by within protection category that these claims define.

Claims (3)

1. the magnetic cavity mechanism of a multi-cylinder pulp deferrization device, comprise magnetic cavity, described magnetic cavity includes the first twin-rotor housing (1) and the second twin-rotor housing (2), it is characterized in that: described the first twin-rotor housing (1) and the second twin-rotor housing (2) are equipped with left magnetic cavity (3) and right magnetic cavity (4), described left magnetic cavity (3) is all connected by U-shaped three-way pipe (7) with right magnetic cavity (4) below, described U-shaped three-way pipe (7) lower end is by T-shaped pipe A (8), T-shaped pipe B (9) is connected with T-shaped pipe C (11), described T-shaped pipe A (8) front end is provided with the charging mouth of pipe (13), described left magnetic cavity (3) and right magnetic cavity (4) upper side are equipped with the discharging mouth of pipe (6), be positioned at top and be provided with clean water inlet (5), described T-shaped pipe B (9) is provided with scum pipe A (14) and feed back pipe A (16), described T-shaped pipe C (11) is provided with scum pipe B (15) and feed back pipe B (17).

2. the magnetic cavity mechanism of a kind of multi-cylinder pulp deferrization device as claimed in claim 1, is characterized in that: the two ends of described scum pipe A (14), feed back pipe A (16), scum pipe B (15), feed back pipe B (17) and T-shaped pipe A (8) are equipped with butterfly valve apparatus (12).

3. the magnetic cavity mechanism of a kind of multi-cylinder pulp deferrization device as claimed in claim 2, it is characterized in that: described butterfly valve apparatus (12) is fixed on scum pipe A (14), feed back pipe A (16), scum pipe B (15), feed back pipe B (17) and T-shaped pipe A (8) by clamp port (18), this butterfly valve apparatus (12) also comprises valve rod (19), described valve rod (19) is connected with valve block (10), and this valve block (10) is positioned at clamp port (18).