CN106583038B - A kind of epipastic mineral deironing apparatus - Google Patents

Abstract

A kind of epipastic mineral deironing apparatus, it is characterized in that including fluid passage, Deironing mechanism, Deironing mechanism includes powered rotation frame, several bar magnet components, powered rotation frame includes support, power, several bar magnet modular levels are fixed between two side stands, bar magnet component includes middle bar magnet body, is connected between the non-magnetic rod at bar magnet body both ends, it is provided with the scraper plate being socketed on several bar magnet components, the upper end of fluid passage is provided with charging aperture, and the lower end of fluid passage is provided with discharging opening and ferromagnetic material outlet.The present invention compared with the prior art, have powder in ferromagnetic material easily drawn by bar magnet, good iron removal effect the advantages of.

Description

A kind of epipastic mineral deironing apparatus

Technical field：

The present invention relates to a kind of magnetic separation technology.

Background technology：

Existing epipastic mineral iron removal technology is typically that epipastic mineral removes come what is carried out using the bar magnet of more parallel distributions Iron imports above bar magnet, is fallen into after bar magnet iron removaling in following collecting tank.Such a iron removal technology, because bar magnet is to be in Inactive state, and epipastic mineral, determined, mobility is poor, is easily deposited on bar magnet by its property, and then continued powder after influence The iron removaling of material, moreover, being hindered by the powder of poor fluidity, the ferromagnetic material in powder is also not easily accessible on bar magnet, by magnetic Rod is drawn.

The content of the invention：

The goal of the invention of the present invention is easily drawn in the ferromagnetic material in a kind of powder is provided by bar magnet, iron removaling effect The good epipastic mineral deironing apparatus of fruit.

The present invention is achieved in that including fluid passage, the Deironing mechanism being arranged in fluid passage, Deironing mechanism bag Powered rotation frame, several bar magnet components are included, powered rotation frame includes being rotatably arranged on the support of fluid passage both sides respectively, set Power on the outside of fluid passage, several bar magnet modular levels are fixed between two side stands, and four of the center of rotation along support Week distribution, bar magnet component include middle bar magnet body, are connected between the non-magnetic rod at bar magnet body both ends, be provided be socketed in it is several Scraper plate on bar magnet component, scraper plate are driven by being arranged on the power mobile mechanism on the outside of fluid passage, and the upper of fluid passage is rectified Bar magnet body in the middle part of against bar magnet component is provided with charging aperture, and the lower end of fluid passage faces the bar magnet body in the middle part of bar magnet component It is provided with discharging opening, the non-magnetic rod that the lower end both sides of fluid passage face bar magnet component both sides is provided with ferromagnetic material and gone out Mouthful.

During work, epipastic mineral fluid imports fluid passage from fluid inlet and then flowed out from fluid issuing, several bar magnets Component rotates under the drive of powered rotation frame, and when epipastic mineral flows through bar magnet component, contained ferromagnetic material is by bar magnet component Bar magnet body is drawn, and the bar magnet component being rotating both had increased bar magnet body and connect with all epipastic mineral fluid in close for flowing through passage Tactile probability, meanwhile, the bar magnet body for rotating and overturning with rotating turret avoids the top that epipastic mineral is deposited in bar magnet component, from And ensure that epipastic mineral effectively can contact with bar magnet body.When the ferromagnetic material that bar magnet body is drawn reaches a certain amount of, lead to Cross scraper plate and scrape the ferromagnetic material on bar magnet body and move on to non-magnetic rod region, the ferromagnetic material for losing magnetic falls on following iron Magnetic material outlet is simultaneously eliminated, and bar magnet body is recovered magnetic ability.

When here, in order to prevent that scraper plate from scraping ferromagnetic material, ferromagnetic material is fallen into the epipastic mineral fluid of iron removaling, is enclosed Be provided with the groove of ring-type indent on the outside of the scraper plate, groove along positioned at scraper plate upper end and be arranged on the shifting of the track in fluid passage Dynamic, the medial surface of scraper plate two sides against groove both sides is provided with push rod, and the lower end of groove is provided with valvular discharge port. During work, power mobile mechanism drives scraper plate movement, and scraper plate drives groove synchronous to move by push rod, ensures that groove surrounds all the time The outside of scraper plate, so, the ferromagnetic material that scraper plate scrapes can only be just dropped into groove, treat that groove is moved to ferromagnetic material outlet During surface, valve is opened, is exported so that the collected ferromagnetic material in groove is fallen into ferromagnetic material by discharge port.

The both sides of groove bottom are provided with vibrator.During collected ferromagnetic material in drainage groove, Vibration on Start-up device, So that the collected ferromagnetic material in groove successfully flows out discharge port.

The present invention compared with the prior art, have powder in ferromagnetic material easily drawn by bar magnet, de-ferrous effect The advantages of good.

Brief description of the drawings：

Fig. 1 is the structural representation of the present invention；

Fig. 2 is Fig. 1 A-A sectional views；

Fig. 3 is Fig. 1 B-B sectional views；

Fig. 4 is the B-B sectional views of Fig. 1 when valve is opened.

Embodiment：

The present invention is described in further detail in conjunction with drawings and examples：

As shown in figure 1, the present invention includes fluid passage 1, the Deironing mechanism a, Deironing mechanism a being arranged in fluid passage 1 Including powered rotation frame 2, several bar magnet components 3, powered rotation frame 2 includes being rotatably arranged on the branch of the both sides of fluid passage 1 respectively Frame 2a, the power 2b for being arranged on the outside of fluid passage 1（Motor）, support 2a central rotating shaft 2c is rotatably connected on fluid passage 1 On the bearing 2d of both sides, power 2b power transmission shaft is connected wherein on the central rotating shaft 2c of a support 2a, several water of bar magnet component 3 It is flat to be fixed between two side stand 2a, and the surrounding of the center of rotation along support 2a is distributed, bar magnet component 3 includes middle bar magnet body 3a, the non-magnetic rod 3b for being connected between bar magnet body 3a both ends, are provided with the scraper plate 4 being socketed on several bar magnet components 3, scraper plate The 4 power mobile mechanism 5 by being arranged on the outside of fluid passage（Cylinder）Bar 5a drive, the upper end of fluid passage 1 faces magnetic The bar magnet body 3a at the middle part of bar member 3 is provided with charging aperture 6, and the lower end of fluid passage 1 faces the bar magnet body at the middle part of bar magnet component 3 3a is provided with discharging opening 7, the lower end both sides of fluid passage 1 face the both sides of bar magnet component 3 non-magnetic rod 3b be provided with it is ferromagnetic Material outlet 8.

As shown in Fig. 2 several bar magnet components 3 are scattered in more than two circles outward along support 2a centers of rotation, in two adjacent rings Bar magnet component 3 be in staggered distribution.

Be provided with the groove 9 of ring-type indent around the outside of scraper plate 4, groove 9 along positioned at the upper end of scraper plate 4 and be arranged on fluid Track 10 in passage 1 moves, and the medial surface of the two sides of scraper plate 4 against the both sides of groove 9 is provided with push rod 11, the lower end of groove 9 It is provided with valvular discharge port 12.

The face that push rod 11 contacts with the medial surface of groove 9 is cambered surface, to reduce frictional force during both relative motions.Push rod 11 parts contacted with the medial surface of groove 9 can use the small plastics of smooth frictional force.

The both sides of the bottom of groove 9 are provided with vibrator 13.

As shown in Fig. 1,3,4, the discharge port 12 of valve is swung respectively for two is connected to the down gap 9a both sides of groove 9 Groove type component 12a, groove type component 12a both sides are provided with gusset 12b, and gusset 12b ramp is downward inclined-plane, right The inner side of the ferromagnetic material outlet 8 of gusset 12b ramps is answered to be provided with the upward driving gusset 12c in inclined-plane, in groove type component Spring 12e is provided between 12a and the down gap 9a sides of groove 9.During work, go out when groove 9 is moved to ferromagnetic material with scraper plate 4 During the upward driving gusset 12c in the inclined-plane of mouthfuls 8 inner side, on inclined-plane, upward driving gusset 12c suppresses gusset 12b ramps, Groove type component 12a is set to be opened toward lower swing, the down gap 9a of groove 9, the collected ferromagnetic material in groove passes through excretion Mouth falls into ferromagnetic material and exported；When groove 9 moves away with scraper plate 4 the upward drive in inclined-plane of the inner side of ferromagnetic material outlet 8 During dynamic gusset 12c, in the presence of spring 12e, groove type component 12a is up swung, and the down gap 9a of groove 9 is closed.

Here, so set during spring 12e position, when the down gap 9a of groove 9 is closed, spring 12e is positioned at recessed Channel member 12a pin joint C top, when the down gap 9a of groove 9 is opened, spring 12e is located at groove type component 12a's Pin joint C lower section, gusset 12b lower inclined plane is upward inclined-plane, the ferromagnetic material outlet 8 of corresponding gusset 12b lower inclined planes Outside is provided with the downward driving gusset 12d in inclined-plane.During work, when inclined-plane, upward driving gusset 12c drives groove type component 12a is opened, when the spring 12e is located at groove type component 12a pin joint C lower section, in the presence of spring 12e, under groove 9 Portion's breach 9a clocks are in open mode all the time；When groove 9 with scraper plate 4 move away ferromagnetic material outlet 8 inner side inclined-plane When in driving gusset 12d sphere of actions downward upward driving gusset 12c and entrance inclined-plane, the downward driving gusset in inclined-plane 12d promotes gusset 12b lower inclined plane, the down gap 9a of groove 9 is progressively closed, when spring 12e is moved to groove type component 12a Pin joint C top when, spring 12e effect, by the down gap 9a of groove 9 closes and keep down gap 9a all the time in pass Closed state.

Stop bit block 14 is provided with the down gap 9a of groove 9 edge, so that groove type component 12a is accurately by groove 9 Down gap 9a is closed.

Claims (8)

1. A kind of 1. epipastic mineral deironing apparatus, it is characterised in that including fluid passage, the Deironing mechanism being arranged in fluid passage, Deironing mechanism includes powered rotation frame, several bar magnet components, and powered rotation frame includes being rotatably arranged on fluid passage both sides respectively Support, the power that is arranged on the outside of fluid passage, several bar magnet modular levels are fixed between two side stands, and are turned along support The surrounding distribution of the moving axis heart, bar magnet component include middle bar magnet body, are connected between the non-magnetic rod at bar magnet body both ends, be provided with The scraper plate being socketed on several bar magnet components, scraper plate are driven by being arranged on the power mobile mechanism on the outside of fluid passage, and fluid leads to The bar magnet body that the upper end in road is faced in the middle part of bar magnet component is provided with charging aperture, and the lower end of fluid passage is faced in bar magnet component The bar magnet body in portion is provided with discharging opening, and the non-magnetic rod that the lower end both sides of fluid passage face bar magnet component both sides is provided with iron Magnetic material outlet, is provided with the groove of ring-type indent on the outside of the scraper plate, groove along positioned at scraper plate upper end and be arranged on fluid Track movement in passage, the medial surface of scraper plate two sides against groove both sides are provided with push rod, and the lower end of groove is provided with band Valvular discharge port, the discharge port of valve swing the groove type component for being connected to groove down gap both sides for two respectively, The both sides of groove type component are provided with gusset, and the ramp of gusset is downward inclined-plane, the ferromagnetic material of corresponding gusset ramp The upward driving gusset in inclined-plane is provided with the inside of outlet, bullet is provided between groove type component and groove down gap side Spring.
2. 2. epipastic mineral deironing apparatus according to claim 1, it is characterised in that the face that push rod contacts with groove medial surface For cambered surface.
3. 3. epipastic mineral deironing apparatus according to claim 1 or 2, it is characterised in that the both sides of groove bottom, which are provided with, to shake Dynamic device.
4. 4. epipastic mineral deironing apparatus according to claim 1 or 2, it is characterised in that the position of spring is so to set , when groove down gap is closed, spring is located at the top of the pin joint of groove type component, when groove down gap is opened When, spring is located at the lower section of the pin joint of groove type component, and the lower inclined plane of gusset is upward inclined-plane, corresponding gusset lower inclined plane The outside of ferromagnetic material outlet is provided with the downward driving gusset in inclined-plane.
5. 5. epipastic mineral deironing apparatus according to claim 3, it is characterised in that the position of spring is so set, when When groove down gap is closed, spring is located at the top of the pin joint of groove type component, when groove down gap is opened, spring Positioned at the lower section of the pin joint of groove type component, the lower inclined plane of gusset is upward inclined-plane, the ferromagnetic of corresponding gusset lower inclined plane The outside of matter outlet is provided with the downward driving gusset in inclined-plane.
6. 6. according to the epipastic mineral deironing apparatus described in claim 1 or 2 or 5, it is characterised in that the edge of groove down gap On be provided with stop bit block.
7. 7. epipastic mineral deironing apparatus according to claim 3, it is characterised in that set on the edge of groove down gap There is stop bit block.
8. 8. epipastic mineral deironing apparatus according to claim 4, it is characterised in that set on the edge of groove down gap There is stop bit block.