CN217093891U - Novel electromagnetic iron removal filter - Google Patents

Abstract

The utility model relates to a novel electromagnetism deironing filter relates to condensate deironing and filters technical field, include: the magnetic deironing gain device and the barrier fine filter are formed by connecting and combining a water outlet at the lower end of the electromagnetic deironing gain device and a water inlet at the upper end of the barrier fine filter; the electromagnetic iron removal booster on the upper part can be used for directionally and magnetically adsorbing and condensing iron oxide particles and colloid in the condensed water, so that the ultrafine iron oxide which is difficult to filter is conveniently filtered after being condensed and coarsely granulated; the barrier fine filter at the lower part is internally provided with fine light porous rare earth ceramic sand with high adsorption and filtration efficiency, and can efficiently filter suspended impurities in condensed water and iron oxide fragments which are adsorbed and condensed on the filler of the electromagnetic iron removal booster and then washed and removed by water flow. The equipment can also effectively adsorb and agglomerate suspended oil and most emulsified oil in the incoming water, plays a role in resisting and buffering large oil quantity impact in the system, and can ensure that the tiny oil particles are coarsely granulated and are more favorable for interception and separation.

Description

Novel electromagnetic iron removal filter

Technical Field

The utility model relates to a condensate deironing filters technical field, specifically is a novel electromagnetism deironing filter.

Background

The condensed water is water formed by steam in the industrial production process when the steam is cooled, the technical difficulty in treating the condensed water is always a main factor for preventing the recycling of the condensed water, and the condensed water contains iron. But current deironing filter and deironing mode are comparatively single, have the problem that deironing efficiency is lower and deironing quality is relatively poor.

SUMMERY OF THE UTILITY MODEL

The utility model is composed of an electromagnetic deironing gain device and a barrier fine filter; the water outlet at the lower end of the electromagnetic deironing booster and the water inlet at the upper end of the barrier fine filter are connected and combined. Wherein: the electromagnetic iron removal gain device comprises a ferromagnetic removal gain section tank body, a water inlet device, an electromagnetic coil sleeve assembly, ceramic particle fillers with high magnetism gathering function, a water outlet and five parts; the barrier fine filter includes: a water inlet, a barrier fine filter tank body, a positive and negative flushing port, a filler, a porous plate, a water cap and a water outlet.

Further, water installations sets up on deironing gain section jar of body upper portion, contains: the water distribution sieve tube is arranged below the water inlet; is directly connected with the water inlet pipe orifice.

Further, solenoid sleeve subassembly is located the internal of deironing gain section jar, includes: the oil-conveying device comprises a chassis, a coil bracket, a coil, an outer sleeve, an inner sleeve, a radiating fin, a large flange cover and an oil conveying assembly;

the chassis is arranged at the lower end of the iron and magnetic removing gain section tank body, and a supporting plate is placed at first and used for fixing the chassis; an outer sleeve and an inner sleeve are arranged above the chassis, and the inner sleeve is arranged in the outer sleeve; a coil bracket is arranged between the outer sleeve and the inner sleeve, and a coil is arranged above the coil bracket; the upper ends of the outer sleeve and the inner sleeve are welded with large flanges and sealed by large flange covers, so that the coil is prevented from contacting with inlet water; an outlet pipe is arranged below the chassis and used for installing an oil transportation component; the heat radiating fins are arranged on the outer side of the outer sleeve.

Further, the ceramic particle filler with the high magnetism gathering function is placed in the space outside the outer sleeve and inside the inner sleeve.

Furthermore, the water outlet is positioned at the lower end of the electromagnetic deironing gain device and connected with the water inlet at the upper end of the barrier fine filter.

Furthermore, in the barrier fine filter, a water inlet is directly connected with a water outlet at the lower end of the electromagnetic iron removal gain device; positive and negative washing mouth is located the upper portion lateral wall of the protective screen secondary filter jar body, and the perforated plate welds the lower part in the protective screen secondary filter jar body, has beaten M24 screw hole on the perforated plate, and the water cap connecting portion is M24 screw, installs the water cap lead to screw hole at the perforated plate upper surface. The filler is laid above the porous plate; the treated condensed water is discharged through a water outlet.

Further, the filler is divided into two layers, the upper layer is: the lightweight porous rare earth ceramic sand has d of 1.0-2.0 mm, and the lower layer is as follows: fine light porous rare earth ceramic sand with d of 0.3-1.0 mm.

Furthermore, the outer sleeve and the inner sleeve are made of stainless steel non-magnetic materials.

The utility model has the advantages that: the iron removal efficiency is higher, the iron removal quality is good, and the heat dissipation efficiency is high.

Drawings

FIG. 1 is a schematic diagram of an electromagnetic iron removal booster;

FIG. 2 is a top view of an electromagnetic iron removal booster;

FIG. 3 is a schematic diagram of a barrier fine filter;

fig. 4 is a top view of a barrier fine filter.

In the figure: 1. the device comprises a water inlet pipe orifice, 2 parts of a water diversion sieve pipe, 3 parts of a deironing magnetic gain section tank body, 4 parts of a base plate, 5 parts of a coil bracket, 6 parts of a coil, 7 parts of an outer sleeve, 8 parts of an inner sleeve, 9 parts of a radiating fin, 10 parts of a large flange, 11 parts of a large flange cover, 12 parts of an oil conveying assembly, 13 parts of high-magnetism-gathering functional ceramic particle filler, 14 parts of a gain tank body water outlet, 15 parts of a water inlet, 16 parts of a barrier fine filter tank body, 17 parts of a positive and negative flushing port, 18 parts of filler, 19 parts of a porous plate, 20 parts of a water cap and 21 parts of a water outlet.

Detailed Description

The technical solutions in the embodiments of the present invention will be made clear and fully described below with reference to the accompanying drawings in the embodiments of the present invention, and it is apparent that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, those skilled in the art can obtain other embodiments without creative work, all of which belong to the protection scope of the present invention.

As shown in fig. 1-4, the utility model provides an electromagnetic iron removing filter: is composed of an electromagnetic iron removal gain device and a barrier fine filter. Specifically, the device is formed by connecting and combining a water outlet 14 of a gain tank body at the lower end of an electromagnetic iron removal gain device and a water inlet 15 at the upper end of a barrier fine filter. Wherein: the electromagnetic deironing gain device comprises: the water inlet device comprises a ferromagnetic gain section removing tank body 3, an electromagnetic coil sleeve assembly, ceramic particle fillers with high magnetic gathering function 13 and a gain tank body water outlet 14, and is shown in figure 1.

Wherein: the water inlet device comprises: the water inlet pipe orifice 1 and the water distribution sieve pipe 2, and the water distribution sieve pipe 2 is arranged below the water inlet; is directly connected with the water inlet pipe orifice 1.

The solenoid sleeve assembly includes: the coil comprises a chassis 4, a coil bracket 5, a coil 6, an outer sleeve 7, an inner sleeve 8, a cooling fin 9, a large flange 10, a large flange cover 11 and an oil delivery assembly 12.

The chassis 4 is arranged at the lower end of the iron and magnetic removing gain section tank body 3, and a supporting plate is placed at first and used for fixing the chassis 4. With reference to fig. 2, an outer sleeve 7 and an inner sleeve 8 are arranged above the chassis 4, and the inner sleeve 8 is arranged inside the outer sleeve 7; the coil bracket 5 is placed between the outer sleeve 7 and the inner sleeve 8, and the coil 6 is arranged above the coil bracket 5. The upper ends of the outer sleeve 7 and the inner sleeve 8 are welded with large flanges 10 and sealed by large flange covers 11, so that the coil 6 is ensured not to be contacted with inlet water. In order to ensure the cooling effect of the coil 6, an outlet pipe is arranged below the base plate 4 and used for installing the oil transportation component 12. Cooling oil is poured into the enclosed space between the outer sleeve 7 and the inner sleeve 8 through the oil delivery assembly 12, and the coil 6 is submerged, so that the coil 6 is soaked in the cooling oil.

The heat sink 9 is arranged outside the outer sleeve 7 and improves the heat dissipation efficiency of the coil 6 assembly.

The ceramic particle filler 13 with high magnetism gathering function is placed in the space outside the outer sleeve 7 and inside the inner sleeve 8, and the magnetic field generated by the electromagnetic coil can act on the ceramic particle filler 13 with high magnetism gathering function of the outer ring and the inner ring of the magnetic field, so that the iron removal efficiency is better.

The water outlet 14 of the gain tank body is positioned at the lower end of the electromagnetic deironing gain device and is connected with the water inlet 15 at the upper end of the barrier fine filter.

The barrier fine filter includes: a water inlet 15, a barrier fine filter tank 16, a positive and negative flushing port 17, a filler 18, a porous plate 19, a water cap 20 and a water outlet 21, as shown in figure 3.

The water inlet 15 is directly connected with the water outlet 14 of the gain tank body at the lower end of the electromagnetic iron removal gain device. The positive and negative flushing port 17 is positioned on the side wall of the upper part of the barrier fine filter tank body 16, the porous plate 19 is welded at the lower part in the barrier fine filter tank body 16, an M24 threaded hole is punched on the porous plate 19, the connecting part of the water cap 20 is an M24 threaded hole, and the water cap 20 is installed on the upper surface of the porous plate 19 through the threaded hole. The packing 18 is laid above the perforated plate 19, the packing 18 is divided into two layers, the upper layer is: the light porous rare earth ceramic sand d is 1.0-2.0 mm, and the lower layer is as follows: the d of the fine lightweight porous rare earth ceramic sand is 0.3-1.0 mm. The treated condensed water is discharged into the system pipe through the water outlet 21.

The utility model discloses work flow and principle: the condensed water enters an electromagnetic deironing filter which is formed by combining an electromagnetic deironing gain device and a barrier fine filter. The electromagnetic iron removal booster on the upper part can be used for directionally and magnetically adsorbing and condensing iron oxide particles and colloid in the condensed water, so that the ultrafine iron oxide which is difficult to filter is conveniently filtered after being condensed and coarsely granulated; the barrier fine filter at the lower part is filled with fine light porous rare earth ceramic sand with high adsorption and filtration efficiency, and can efficiently filter suspended impurities in condensed water and iron oxide fragments which are adsorbed and condensed on the filler of the electromagnetic iron removal booster and then washed away by water flow. The equipment can also effectively adsorb and agglomerate suspended oil and most emulsified oil in the incoming water, plays a role in resisting and buffering large oil quantity impact in the system, and can ensure that the tiny oil particles are coarsely granulated and are more favorable for interception and separation. The water discharged from the electromagnetic iron removing filter enters the mixed bed under self-pressure. The electromagnetic iron removal filter in the process needs proper back washing (the period is 7-15 days), equipment can be directly adopted for water inlet in the back washing, and a back washing water pump does not need to be specially configured.

Claims (3)

1. The utility model provides a novel electromagnetism deironing filter which characterized in that: is composed of an electromagnetic iron removal gain device and a barrier fine filter; a gain tank water outlet (14) at the lower end of the electromagnetic iron removal gain device and a water inlet (15) at the upper end of the barrier fine filter are connected and combined;

the electromagnetic iron removal gain device comprises: the device comprises a water inlet device, a ferromagnetic gain section tank body (3), an electromagnetic coil sleeve component, a high-magnetism-gathering functional ceramic particle filler (13) and a gain tank body water outlet (14);

the barrier fine filter includes: a water inlet (15), a barrier fine filter tank body (16), a positive and negative flushing port (17), a filler (18), a porous plate (19), a water cap (20) and a water outlet (21);

the water installations sets up on deironing gain section jar body (3) upper portion, contains: the water diversion sieve tube (2) is arranged below the water inlet and is directly connected with the water inlet pipe orifice (1);

the solenoid sleeve subassembly is located except that ferromagnetic gain section jar body (3) in, includes: the coil assembly comprises a chassis (4), a coil bracket (5), a coil (6), an outer sleeve (7), an inner sleeve (8), a radiating fin (9), a large flange (10), a large flange cover (11) and an oil conveying assembly (12);

the chassis (4) is arranged at the lower end of the iron and magnetic removing gain section tank body (3), and a supporting plate is placed in advance and used for fixing the chassis (4); an outer sleeve (7) and an inner sleeve (8) are arranged above the chassis (4), and the inner sleeve (8) is arranged inside the outer sleeve (7); a coil bracket (5) is arranged between the outer sleeve (7) and the inner sleeve (8), and a coil (6) is arranged above the coil bracket (5); the upper ends of the outer sleeve (7) and the inner sleeve (8) are welded with large flanges (10) and sealed by large flange covers (11), so that the coil (6) is ensured not to be contacted with water; an outlet pipe is arranged below the chassis (4) and is used for installing an oil transportation component (12); the radiating fins (9) are arranged on the outer side of the outer sleeve (7);

the ceramic particle filler (13) with the high magnetism gathering function is placed in the space outside the outer sleeve (7) and inside the inner sleeve (8);

the water outlet (14) of the gain tank body is positioned at the lower end of the electromagnetic deironing gain device and is connected with the water inlet (15) at the upper end of the barrier fine filter;

in the barrier fine filter, a water inlet (15) is directly connected with a water outlet (14) of a gain tank body at the lower end of the electromagnetic iron removal gain device; the positive and negative flushing port (17) is positioned on the side wall of the upper part of the barrier fine filter tank body (16), the porous plate (19) is welded at the lower part in the barrier fine filter tank body (16), an M24 threaded hole is punched on the porous plate (19), the connecting part of the water cap (20) is an M24 thread, and the through threaded hole of the water cap (20) is arranged on the upper surface of the porous plate (19); the filler (18) is laid above the porous plate (19); the treated condensed water is discharged through a water outlet (21).

2. The novel electromagnetic iron removal filter of claim 1, wherein: the packing (18) is divided into two layers, the upper layer is: the lightweight porous rare earth ceramic sand has d of 1.0-2.0 mm, and the lower layer is as follows: fine light porous rare earth ceramic sand with d of 0.3-1.0 mm.

3. The novel electromagnetic iron removal filter of claim 1, which is characterized in that: the outer sleeve (7) and the inner sleeve (8) are made of stainless steel non-magnetic materials.

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