CN217016969U - System for separating and drying magnetic powder - Google Patents

Abstract

The utility model discloses a system for separating and drying magnetic powder, which comprises a separation module storage module and a drying module, wherein the separation module comprises a separation machine body provided with a liquid inlet and a liquid outlet, the separation machine body is detachably connected with a plurality of collecting pieces, and the collecting pieces are arranged from top to bottom and are used for guiding liquid from the liquid inlet to the liquid outlet. The system for separating and drying magnetic powder provided by the utility model separates and collects the magnetic powder in the liquid by using the collecting piece of the separating module, and the collecting piece is detachably connected with the separating machine body, so that the collecting piece is detached from the separating machine body after the powder in the collecting piece is collected to a certain degree, and the separated magnetic powder is dried by using the drying module.

Description

System for separating and drying magnetic powder

Technical Field

The utility model relates to the field of separation and drying of magnetic powder, in particular to a system for separating and drying magnetic powder.

Background

In the production of magnetic powders, it is usually necessary to use a coolant, which is usually a liquid, for cooling, and therefore, the magnetic powder needs to be separated from the liquid after the production is completed.

In the prior art, the magnetic powder is separated from the liquid by a filtering mode, and the mode usually needs to be provided with a plurality of filtering layers to ensure the filtering precision, but the rapid separation of the magnetic powder and the liquid cannot be realized, the effective collection of the powder cannot be realized, and especially, the superfine magnetic powder with the powder particle size smaller than 5um cannot be realized.

In the prior art, there is also a consumable-free diversion-type magnetic filter tank disclosed in chinese patent with publication number CN213051075U, which includes a tank body, a fixed surrounding edge is provided at an opening at the upper end of the tank body, an end cover for closing the opening at the upper end of the tank body is mounted on the fixed surrounding edge, a fixed seat is fixedly connected to a position of the upper end of the tank body below the fixed surrounding edge, a handle for fixing the end cover is rotatably connected to the fixed seat, and a handle is fixedly connected to a middle position of the upper end surface of the end cover; a backflushing opening communicated with the interior of the tank body is formed in the position, located below the fixing seat, of the left side of the tank body, a liquid outlet communicated with the interior of the tank body is further formed in the position, located below the fixing seat, of the right side of the tank body, at least three supporting legs used for supporting the tank body are fixedly connected to the lower end of the tank body, a slag discharge opening communicated with the interior of the tank body is formed in the middle of the lower end of the tank body, a liquid inlet communicated with the interior of the tank body is formed in the lower end of the left side of the tank body, and a filtering assembly used for filtering magnetic substances in liquid is arranged in the tank body; the filtering component comprises an electromagnetic rod, the electromagnetic rod is fixedly connected to the middle position of the lower end face of the end cover, and a flow guide spiral sheet used for guiding liquid is installed on the electromagnetic rod.

The filtration jar liquid that above-mentioned patent provided flows downwards along water conservancy diversion spiral piece, the magnetic powder in the liquid that the electromagnetic rod will flow adsorbs the completion magnetic powder and separates from liquid, but under this kind of structure, can't effectively collect magnetic powder, can't realize more that magnetic powder collects the function of becoming dry on one's side, and along with the increase of live time, magnetic powder on the electromagnetic rod is amasss thickly more, not only can lead to its effect of adsorbing magnetic powder to be more and more poor, lead to liquid runner to be more and more narrow, still the efficiency of final follow separation magnetic powder in the liquid is more and more low.

SUMMERY OF THE UTILITY MODEL

In order to solve the problems in the prior art, the utility model provides a system for separating and drying magnetic powder, which can realize the rapid separation and drying of the magnetic powder from liquid and can effectively improve the recovery and utilization rate of the magnetic powder.

A system for separating and drying magnetic powder comprises

The separation module is used for separating and collecting the magnetic powder from the liquid;

the storage module is used for storing the liquid treated by the separation module;

the drying module is used for drying the magnetic powder separated by the separating module;

the separation module is including being equipped with into the separation organism of liquid mouth and liquid outlet, can dismantle on the separation organism and be connected with a plurality of collection pieces that are used for separating and collect magnetic powder, it is a plurality of collection piece top-down arranges, is used for liquid from going into liquid mouth water conservancy diversion to liquid outlet.

Specifically, the liquid inlet and the liquid outlet are respectively arranged at the top and the bottom of the separator body, liquid with magnetic powder is poured from the liquid inlet, the liquid with the magnetic powder flows from top to bottom along the plurality of collecting pieces, the liquid finally flows into the storage module for storage, the content of the magnetic powder in the liquid is checked, if the liquid meets the discharge standard, most of the magnetic powder in the liquid is collected, the liquid is discharged, and if the liquid does not meet the discharge standard, the liquid is subjected to secondary treatment, and the magnetic powder is collected again; in the liquid flowing process, the collecting piece separates and collects magnetic powder in liquid, because the collecting piece is of a plate type structure, superfine magnetic powder with the particle size being less than 5 mu m can also be effectively collected, after the magnetic powder in the collecting piece is collected to a certain degree, the collecting piece is detached from the separator body and then placed on a drying module for drying, meanwhile, an empty collecting piece is loaded on a vacant position on the separator body, after the drying is finished, the magnetic powder is removed from the collecting piece, and the empty collecting piece is reserved for next use.

Preferably, the collecting part comprises a collecting disc made of a magnetic conductive material, the collecting disc comprises a bottom wall and a side wall, the side wall comprises three surfaces which are connected in sequence, and a plurality of first electromagnetic rods are arranged below the bottom wall.

Specifically, the collecting tray can adopt magnetic materials such as stainless steel to make, and liquid flows out from the one side that is not equipped with the lateral wall on the collecting tray, and first electromagnetic rod circular telegram then has magnetism, consequently when the collecting tray is arranged in the separator body and is used for collecting magnetic powder, and first electromagnetic rod charges, and when the magnetic powder on the piece was removed to needs, first electromagnetic rod outage.

Preferably, the collection tray is arranged obliquely, the side without the side wall is at the lowest point of the collection tray, and the inclination directions of the adjacent collection trays are opposite.

Specifically, set up the catch tray to the slope, under the condition of not additionally exerting power, liquid still can flow along the catch tray under the effect of gravity, in addition, for the catch tray that guarantees most liquid homoenergetic in the catch tray of top can flow into the below, end to end between the adjacent catch tray (the one side that is not equipped with the lateral wall is the tail, and is first rather than the relative one side that is equipped with the lateral wall), dislocation set.

Preferably, the collecting part further comprises a handle, and the handle is convenient for the assembly and disassembly of the collecting part and the separating machine body.

Specifically, the handle can be directly fixed on the side wall, a fixing plate for fixing the handle can also be arranged, and the collecting tray is connected with the fixing plate by utilizing the bracket; in the process of collecting and drying the magnetic powder, the collecting piece is continuously disassembled and rotated between the separating module and the drying module, so that the collecting piece is conveniently disassembled and assembled by arranging the handle.

Preferably, the storage module comprises a storage pool, the storage pool is communicated with the liquid outlet of the separator body, and a second electromagnetic rod for adsorbing magnetic powder is arranged in the storage pool.

Specifically, the liquid treated by the separation module flows into the storage pool for temporary storage, and the second electromagnetic rod can continuously adsorb the residual magnetic powder in the liquid, so that the content of the magnetic powder in the liquid is further reduced.

Preferably, the device also comprises a circulating pump, two ends of the circulating pump are respectively communicated with the storage pool and the liquid inlet of the separation module, and the circulating pump is used for transferring the liquid in the storage pool to the separation module for retreatment.

Specifically, the content of the magnetic powder in the liquid in the storage pool is detected, if the content of the magnetic powder does not meet the discharge standard, the circulating pump is started, and the liquid in the storage pool is transferred to the separation module for retreatment until the liquid reaches the discharge standard.

Preferably, the drying module comprises a dryer body, the dryer body is provided with a plurality of cavities for placing the collecting parts and provided with heating parts, and the cavities are mutually independent;

the drying module further comprises a vacuum device communicated with each cavity, and the vacuum device is used for vacuumizing the cavity with the collecting piece.

Specifically, the collecting part with the collected magnetic powder is placed in the cavity, the heating device is started to heat and dry the magnetic powder in the collecting part, and a vacuum device is required to vacuumize the cavity in order to prevent the magnetic powder from reacting with air in the heating and drying process; in addition, because the magnetic powder is easily oxidized in a wet state, each cavity can be independently vacuumized, and the drying speed of the magnetic powder is increased.

Preferably, an observation window for observing the magnetic powder collection condition is arranged on the side wall of the separation machine body.

Specifically, the structure that is provided with the observation window can guarantee, in time takes it out when the magnetic powder in the catch tray collects the right amount, prevents that the magnetic powder from collecting then will collect the piece and take out and magnetic powder collects the excessive condition too little then.

Compared with the prior art, the utility model has the advantages that:

utilize the collection piece of separation module to separate and collect the magnetic powder in the liquid, because collection piece can dismantle with the separation organism and be connected, after the powder in collecting the piece collected the certain degree, will collect the piece and pull down from the separation organism, utilize dry module to carry out the drying to the magnetic powder who separates, this kind of structure, not only realized liquid and magnetic powder's rapid separation, the magnetic powder that is separated simultaneously can be rapidly by the drying, consequently, magnetic powder's oxidation rate has been reduced effectively, the magnetic powder collection rate is improved.

Drawings

FIG. 1 is an assembly schematic of a system for separating and drying magnetic powder provided by the present invention;

fig. 2 is a front view of a separation module and a storage module of the system for separating and drying magnetic powder according to the present invention;

fig. 3 is a front view of a drying module of the system for separating and drying magnetic powder according to the present invention;

fig. 4 is a perspective view schematically illustrating a collecting member of the system for separating and drying magnetic powder according to the present invention.

Detailed Description

The utility model is further described with reference to the following figures and detailed description.

Fig. 1 is an assembly schematic diagram of a system for separating and drying magnetic powder according to the present embodiment, and as shown in fig. 1, the system for separating and drying magnetic powder includes a separation module 100 for separating and collecting magnetic powder from liquid; a storage module 200 for storing the liquid treated by the separation module 100; a drying module 300 for drying the magnetic powder separated by the separation module 100; the separation module 100 comprises a separation body 110 provided with a liquid inlet 141 and a liquid outlet, the liquid inlet 141 and the liquid outlet are respectively arranged at the top and the bottom of the separation body 110, the separation body 110 is detachably connected with a plurality of collecting pieces 120 for separating and collecting magnetic powder, and the collecting pieces 120 are arranged from top to bottom and used for guiding liquid from the liquid inlet 141 to the liquid outlet; an observation window 130 for observing the magnetic powder collection condition is provided on the sidewall of the separation body 110.

The observation window 130 is configured to ensure that the magnetic powder in the collecting tray 121 is timely drawn out when a proper amount of magnetic powder is collected, so as to prevent the collecting member 120 from being drawn out when the amount of magnetic powder is too small, and prevent the amount of magnetic powder from being collected excessively.

Fig. 4 is a schematic perspective view of a collecting member of the system for separating and drying magnetic powder according to this embodiment, and as shown in fig. 4, the collecting member 120 includes a collecting tray 121 made of stainless steel, the collecting tray 121 includes a bottom wall and a side wall, the side wall includes three faces connected in sequence, and a plurality of first electromagnetic rods 122 are disposed below the bottom wall.

The liquid flows out from the side of the collecting tray 121 where the side wall is not provided, and the first magnetic rod 122 is powered on and has magnetism, so that when the collecting tray 121 is placed in the separating machine body 110 for collecting magnetic powder, the first magnetic rod 122 is charged, and when the magnetic powder on the collecting member 120 needs to be removed, the first magnetic rod 122 is powered off.

Fig. 2 is a front view of the separating module and the storage module of the system for separating and drying magnetic powder according to the present embodiment, as shown in fig. 2, the collecting tray 121 is disposed obliquely, the side without the side wall is at the lowest point of the collecting tray 121, and the adjacent collecting trays 121 are inclined in opposite directions.

Set up the catch tray 121 to the slope, under the condition of not additionally exerting power, liquid still can flow along catch tray 121 under the effect of gravity, in addition, for the catch tray 121 that guarantees most liquid homoenergetic in the catch tray 121 of top can flow into the below, end to end (the one side that is not equipped with the lateral wall is the tail, and the one side that is equipped with the lateral wall rather than the relative is the head), dislocation set between the adjacent catch tray 121.

The collecting member 120 further includes a handle 123, and the handle 123 facilitates the assembly and disassembly of the collecting member 120 with the separating body 110 and the drying body 310.

A fixing plate for fixing a handle 123 is provided on the collecting member 120, and the collecting tray 121 is connected to the fixing plate by a bracket 124; since the collecting member 120 is continuously attached to and detached from the separating module 100 and the drying module 300 in the process of collecting and drying the magnetic powder, it is desirable to provide the handle 123 to facilitate the attachment and detachment of the collecting member 120.

The storage module 200 includes a storage tank 210, the storage tank 210 is communicated with the liquid outlet of the separation body 110, and a second electromagnetic rod for adsorbing magnetic powder is disposed in the storage tank 210.

The liquid treated by the separation module 100 flows into the storage pool 210 for temporary storage, and the second electromagnetic rod can continuously adsorb the residual magnetic powder in the liquid, so as to further reduce the content of the magnetic powder in the liquid.

The storage module 200 further comprises a circulation pump, two ends of which are respectively communicated with the storage tank 210 and the liquid inlet 141 of the separation module 100, and the circulation pump is used for transferring the liquid in the storage tank 210 to the separation module 100 for reprocessing.

Detecting the content of the magnetic powder in the liquid in the storage tank 210, if the content of the magnetic powder does not meet the discharge standard, starting the circulating pump, and transferring the liquid in the storage tank 210 to the separation module 100 for reprocessing until the liquid meets the discharge standard.

Fig. 3 is a front view of a drying module of the system for separating and drying magnetic powder according to the present embodiment, as shown in fig. 3, the drying module 300 includes a drying machine body 310, and a plurality of cavities 320 provided with heating members and used for placing the collecting member 120 are disposed on the drying machine body 310;

the drying module 300 further comprises a vacuum device 330 in communication with each cavity 320, the vacuum device 330 being adapted to evacuate the cavity 320 in which the collecting member 120 is placed.

Placing the collecting member 120 with the collected magnetic powder in the cavity 320, starting the heating device to heat and dry the magnetic powder in the collecting member 120, and setting the vacuum device 330 to vacuumize the cavity 320 in order to prevent the magnetic powder from reacting with air in the heating and drying process; in addition, since the magnetic powder is easily oxidized in a wet state, each chamber 320 may be individually vacuumized to increase the drying speed of the magnetic powder.

Pouring liquid with magnetic powder from the liquid inlet 141, enabling the liquid with the magnetic powder to flow from top to bottom along the plurality of collecting pieces 120, enabling the liquid to flow into the storage module 200 for storage, checking the content of the magnetic powder in the liquid, discharging the liquid if the content of the magnetic powder in the liquid meets the discharge standard and most of the magnetic powder in the liquid is collected, and performing secondary treatment on the liquid if the content of the magnetic powder in the liquid does not meet the discharge standard and collecting the magnetic powder again; during the flowing process of the liquid, the collecting member 120 separates and collects the magnetic powder in the liquid, after the magnetic powder in the collecting member 120 is collected to a certain degree, the collecting member 120 is detached from the separator body 110 and placed in the drying module 300 for drying, meanwhile, the empty collecting member 120 is loaded on the vacant position of the separator body 110, after the drying is completed, the magnetic powder is removed from the collecting member 120, and the empty collecting member 120 is left for the next use.

Claims (6)

1. A system for separating and drying magnetic powder, comprising

The separation module is used for separating and collecting the magnetic powder from the liquid;

the storage module is used for storing the liquid treated by the separation module;

a drying module for drying the magnetic powder separated by the separation module;

the separation module comprises a separation machine body provided with a liquid inlet and a liquid outlet, a plurality of collecting pieces used for separating and collecting magnetic powder are detachably connected to the separation machine body, and the collecting pieces are arranged from top to bottom and used for guiding liquid from the liquid inlet to the liquid outlet;

the collecting part comprises a collecting disc made of magnetic conductive materials, the collecting disc comprises a bottom wall and a side wall, the side wall comprises three faces which are connected in sequence, and a plurality of first electromagnetic rods are arranged below the bottom wall;

the collecting tray is obliquely arranged, one side without the side wall is positioned at the lowest point of the collecting tray, and the inclination directions of the adjacent collecting trays are opposite.

2. The system for separating and drying magnetic powder of claim 1, wherein the collecting member further comprises a handle, the handle facilitating the assembly and disassembly of the collecting member from the separator body.

3. The system for separating and drying magnetic powder of claim 1, wherein the storage module comprises a storage tank, the storage tank is communicated with the liquid outlet of the separator body, and a second electromagnetic rod for adsorbing magnetic powder is arranged in the storage tank.

4. The system for separating and drying magnetic powder of claim 3, further comprising a circulation pump having two ends respectively communicating with the storage tank and the liquid inlet of the separation module, wherein the circulation pump is used for transferring the liquid in the storage tank to the separation module for further treatment.

5. The system for separating and drying magnetic powder of claim 1, wherein the drying module comprises a dryer body, the dryer body is provided with a plurality of cavities for placing collecting members and provided with heating members, and the cavities are independent from each other;

the drying module further comprises a vacuum device communicated with each cavity, and the vacuum device is used for vacuumizing the cavity in which the collecting piece is placed.

6. The system for separating and drying magnetic powder of claim 1, wherein an observation window for observing a magnetic powder collection condition is provided on a sidewall of the separator body.

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