CN205379972U - High -efficient full -automatic dry powder magnetic separator de -ironing - Google Patents

Abstract

The utility model relates to a high -efficient full -automatic dry powder magnetic separator de -ironing, including casing, feed inlet, bar magnet, pai tiekou, discharge gate and drive arrangement, the casing has enclosed into the work cavity, and the roof of work cavity is provided with the feed inlet, and one of them lateral wall of work cavity is provided with a plurality of side wall duct, the bar magnet passes side wall duct and transversely sets up in work in the cavity, and drive arrangement is connected to the one end of bar magnet, and the flexible activity of drive arrangement control bar magnet still is provided with the baffle, and the baffle sets up the one side that is close to the lateral wall that is equipped with side wall duct in the work cavity, divide into the work cavity filter chamber and removes and consider the chamber to be worth doing, and the baffle is corresponding is provided with a plurality of separation plate through hole, and the bar magnet passes separation plate through hole, the diapire of the filter chamber of work cavity is provided with the discharge gate, and the diapire of considering the chamber to be worth doing that removes of work cavity is provided with pai tiekou. Realize full -automatic continuous deironing, avoided the material to fall into pai tiekou, be favorable to improving deironing effect and work efficiency.

Description

A kind of high efficient full automatic dry powder deironing machine

Technical field

This utility model relates to remove impurity separation field, particularly relates to a kind of high efficient full automatic dry powder deironing machine.

Background technology

In the industries such as food, medicine, chemical industry, pottery, it is used mostly powdery or granular raw material carries out producing or processing, often self it is likely to microgranules such as iron filings in these raw materials, it is possible in transport, store or the process of polishing is mixed into iron filings or other impurity.Due to the existence of the impurity such as iron filings, not only give in product and bring serious quality problems, and bring suitable consume to production equipment.Therefore, raw material enter produce before, or complete polishing pulverize after, iron filings remove be particularly important.

Utility model content

The purpose of this utility model is in that to solve the problems referred to above, it is proposed to a kind of high efficient full automatic dry powder deironing machine.

For reaching this purpose, this utility model by the following technical solutions:

A kind of high efficient full automatic dry powder deironing machine, including casing, charging aperture, bar magnet, Pai Tiekou, discharging opening and driving device, described casing defines working cavity, and the roof of described working cavity is provided with charging aperture, and a wherein sidewall of described working cavity is provided with some lateral through aperture；

Described bar magnet is horizontally set in described working cavity through described lateral through aperture, and one end of described bar magnet connects driving device, and described driving device controls described bar magnet telescopic movable；Being additionally provided with dividing plate, described dividing plate is arranged at the described working cavity side near the sidewall being provided with lateral through aperture, working cavity is divided into filter chamber and debris removal chamber, and described dividing plate is provided with some bulkhead through-holes accordingly, the described bar magnet described bulkhead through-hole of traverse；

The diapire of the filter chamber of described working cavity is provided with discharging opening, described working cavity the diapire in debris removal chamber be provided with Pai Tiekou；

Described bar magnet is cylinder, and described bar magnet is stratose arrangement, and every layer is provided with 7 bar magnets.

It is provided with at least two-layer bar magnet layer, correspondingly, arranging driving device described at least two, described driving device includes cylinder and is connected support, one end connecting support of one of them described driving device is fixed in one end of every layer of described bar magnet, and the other end of described connection support is connected with described cylinder.

Described bar magnet layer is the set-up mode setting of mutual dislocation between two.

Being additionally provided with scraping blade, described scraping blade is arranged at described debris removal intracavity, and described scraping blade is provided with some scraping blade through holes, and described bar magnet is through described scraping blade through hole, and described scraping blade is in close contact with described bar magnet.

Described scraping blade is strip, and each described bar magnet layer is correspondingly arranged one piece of scraping blade.

Described scraping blade is sheet rubber.

Being additionally provided with feed hopper and vibrating motor, described feed hopper is arranged at described charging aperture, and described vibrating motor is arranged at the outside of described feed hopper.

Being additionally provided with driving device containment vessel, the side of described driving device containment vessel is connected with the side of described casing, and described driving device containment vessel wraps up described driving device.

Being additionally provided with PLC and control module, PLC controls module and electrically connects the cylinder of described driving device.

This utility model has the advantages that by being provided with dividing plate on bar magnet layer, is avoided that the material row's of entrance ferrum mouth in the process through bar magnet layer deironing, reduces the loss of raw material, the full-automatic deironing of energy, easy to operate, de-ferrous effect is notable, improves the work efficiency of deironing to a certain extent.

Accompanying drawing explanation

Fig. 1 is the overall structure schematic diagram of an embodiment of the present utility model；

Fig. 2 is the schematic diagram of the bar magnet layer set-up mode of an embodiment of the present utility model；

Fig. 3 is the operating diagram during deironing of an embodiment of the present utility model；

Fig. 4 is operating diagram when completing deironing of an embodiment of the present utility model.

In figure: 1. casing；2. charging aperture；3. bar magnet；4. dividing plate；5. discharging opening；6. row's ferrum mouth；7. driving device；71. cylinder；72. connection support；8. scraping blade；9. filter chamber；10. debris removal chamber；11. feed hopper；12. vibrating motor；13. bar magnet hole；14. driving device containment vessel.

Detailed description of the invention

Further illustrate below in conjunction with accompanying drawing and by detailed description of the invention.

The high efficient full automatic dry powder deironing machine of the present embodiment, as shown in Figure 1, including casing 1, charging aperture 2, bar magnet 3, row's ferrum mouth 6, discharging opening 5 and driving device 7, described casing 1 defines working cavity, the roof of described working cavity is provided with charging aperture 2, and a wherein sidewall of described working cavity is provided with some lateral through aperture；Described bar magnet 3 is horizontally set in described working cavity through lateral through aperture, one end of described bar magnet 3 connects driving device 7, described driving device 7 controls bar magnet 3 telescopic movable, in stratose, arrangement forms at least two-layer bar magnet layer to described bar magnet 3, correspondingly, driving device 7 described at least two are set, described driving device 7 includes cylinder 71 and is connected support 72, one end connecting support 72 of one of them driving device 7 is fixed in one end of every layer of described bar magnet 3, and the other end connecting support 72 is connected with described cylinder 71.All bar magnets 3 of every layer are all driven by a cylinder 71 and move back and forth.The diapire of the filter chamber 9 of described working cavity is provided with discharging opening 5, and the diapire in debris removal chamber 10 is provided with row's ferrum mouth 6；Described bar magnet 3 is cylinder, and the arrangement in stratose of described bar magnet 3, every layer is provided with 7 bar magnets.

Further, being additionally provided with dividing plate 4, described dividing plate 4 is arranged at the working cavity side near the sidewall being provided with lateral through aperture, working cavity is divided into filter chamber 9 and debris removal chamber 10, described dividing plate 4 is provided with some dividing plate 4 through holes accordingly, described bar magnet 3 described dividing plate 4 through hole of traverse.

Further, being additionally provided with scraping blade 8, described scraping blade 8 is arranged in described debris removal chamber 10, and described scraping blade 8 is provided with some scraping blade 8 through holes, and described bar magnet 3 is through described scraping blade 8 through hole, and described scraping blade 8 through hole and described bar magnet 3 are in close contact.

When deironing is filtered, it is necessary to the powder of remove impurity enters from charging aperture 2, freely falling body also contacts with described bar magnet 3, and in the process, in 3 powders of bar magnet, the impurity of iron content adsorbs, and the powder after adsorption filtration is released from discharging opening 5；When needing to remove the iron filings on bar magnet 3, as shown in Figure 3, one of them driving device 7 drives the bar magnet 3 of one layer of bar magnet layer to move toward the direction in debris removal chamber 10, scraping blade 8 is with the drive of bar magnet 3, against described casing 1, and iron filings adsorbed on bar magnet 3 are struck off and drop, discharge from Pai Tiekou 6, play the effect of scraping row's ferrum；Owing to also having at least one of which bar magnet layer to be in filter chamber 9, therefore can ensure that what deironing worked continuously performs；When completing debris removal work, as shown in Figure 4, scraping blade 8 moves toward the direction of filter chamber 9 along with bar magnet 3, and is headed on by dividing plate 4, and now scraping blade 8 can play the effect of sealed separation filter chamber 9 and debris removal chamber 10, it is prevented that powder enters debris removal chamber 10 row of falling into ferrum mouth 6.Owing to being provided with dividing plate 4, separate debris removal chamber 10 and filter chamber 9, effectively prevented the powder needing to filter to enter row's ferrum mouth 6, reduce loss of material；Iron filings when additionally it also avoid debris removal fall into charging aperture 2, cause the appearance of idle work.

Concrete, described scraping blade 8 is strip, and each described bar magnet layer is correspondingly arranged one piece of scraping blade 8.Preferential, described scraping blade 8 is sheet rubber.Owing to sheet rubber material is soft, in stretching motion, not only can prevent the abrasion between bar magnet 3 and scraping blade 8 through hole, and more can be in close contact with bar magnet 3；When the scraping blade 8 of strip can avoid one of them bar magnet layer to carry out debris removal, the sealing of other bar magnet layers is impacted.

More specifically, as in figure 2 it is shown, between two described bar magnet layer be mutual dislocation set-up mode arrange.After material enters bar magnet layer from charging aperture 2, through the material that ground floor bar magnet 3 filters, iron filings therein can be adsorbed, the material not contacting ground floor bar magnet 3 may proceed to fall second layer bar magnet 3, iron filings therein can be adsorbed, and the material not touching second layer bar magnet 3 may proceed to fall, by that analogy.Material so can be allowed repeatedly to be fully contacted with bar magnet 3, can guarantee that the iron filings having bar magnet 3 all the time to adsorb in material.

Preferably, being additionally provided with feed hopper 11 and vibrating motor 12, described feed hopper 11 is arranged at described charging aperture 2, and described vibrating motor 12 is arranged at the outside of described feed hopper 11.When powder charging, Vibration on Start-up motor 12 is not easy to be deposited in feed hopper 11, pre-Anti-blockage with powder, improves the efficiency of deironing.

Further, being additionally provided with driving device containment vessel 14, the side of described driving device containment vessel 14 is connected with the side of described casing 1, and described driving device containment vessel 14 wraps up described driving device 7.Driving device containment vessel 14 is set, it is possible to prevent the microgranule such as chip or dust from entering in driving device 7, it is to avoid cylinder 71 is stuck or blocking in telescopic process, and the entirety of driving device 7 plays the effect of a protection simultaneously.

Preferably, being additionally provided with PLC and control module, PLC controls module and electrically connects the cylinder 71 of described driving device 7.PLC is set and controls opportunity and the stroke that each cylinder 71 of programme-control that module can pass through to preset runs so that magnetic separator de-ironing can automatically, work continuously.

The high efficient full automatic dry powder deironing machine of the present embodiment has the advantages that the dividing plate 4 of 1. settings effectively prevents the powder needing to filter to enter row's ferrum mouth 6, reduces powder loss, and iron filings when additionally it also avoid debris removal fall into discharging opening 5；2. described bar magnet layer is the set-up mode of mutual dislocation between two, is conducive to material to be repeatedly fully contacted with bar magnet 3, can guarantee that the iron filings having bar magnet 3 all the time to adsorb in material, improves deironing work efficiency；3. the scraping blade 8 of strip is set when one of them bar magnet layer can be avoided to carry out debris removal, the sealing of other bar magnet layers is impacted.Play the effect of row's ferrum simultaneously when deironing works, when completing deironing work, play the effect of sealed separation filter chamber 9 and debris removal chamber 10, it is prevented that powder enters debris removal chamber 10 and falls into Pai Tiekou, and de-ferrous effect is notable；4. it is provided with PLC and controls module, it is achieved the automatic operating of magnetic separator de-ironing.

Know-why of the present utility model is described above in association with specific embodiment.These describe and are intended merely to explanation principle of the present utility model, and can not be construed to the restriction to this utility model protection domain by any way.Based on explanation herein, those skilled in the art need not pay performing creative labour can associate other detailed description of the invention of the present utility model, and these modes fall within protection domain of the present utility model.

Claims (9)

1. a high efficient full automatic dry powder deironing machine, including casing, charging aperture, bar magnet, Pai Tiekou, discharging opening and driving device, described casing defines working cavity, and the roof of described working cavity is provided with charging aperture, and a wherein sidewall of described working cavity is provided with some lateral through aperture；

Described bar magnet is horizontally set in described working cavity through described lateral through aperture, one end of described bar magnet connects driving device, described driving device controls described bar magnet telescopic movable, it is characterized in that: be additionally provided with dividing plate, described dividing plate is arranged at the described working cavity side near the sidewall being provided with lateral through aperture, working cavity being divided into filter chamber and debris removal chamber, described dividing plate is provided with some bulkhead through-holes accordingly, the described bar magnet described bulkhead through-hole of traverse；

The diapire of the filter chamber of described working cavity is provided with discharging opening, described working cavity the diapire in debris removal chamber be provided with Pai Tiekou；

Described bar magnet is cylinder, and described bar magnet is stratose arrangement, and every layer is provided with 7 bar magnets.

2. high efficient full automatic dry powder deironing machine according to claim 1, it is characterized in that: be provided with at least two-layer bar magnet layer, correspondingly, driving device described at least two is set, described driving device includes cylinder and is connected support, one end connecting support of one of them described driving device is fixed in one end of every layer of described bar magnet, and the other end of described connection support is connected with described cylinder.

3. high efficient full automatic dry powder deironing machine according to claim 2, it is characterised in that: described bar magnet layer is the set-up mode setting of mutual dislocation between two.

4. high efficient full automatic dry powder deironing machine according to claim 2, it is characterized in that: be additionally provided with scraping blade, described scraping blade is arranged at described debris removal intracavity, and described scraping blade is provided with some scraping blade through holes, described bar magnet is through described scraping blade through hole, and described scraping blade is in close contact with described bar magnet.

5. high efficient full automatic dry powder deironing machine according to claim 4, it is characterised in that: described scraping blade is strip, and each described bar magnet layer is correspondingly arranged one piece of scraping blade.

6. high efficient full automatic dry powder deironing machine according to claim 4, it is characterised in that: described scraping blade is sheet rubber.

7. high efficient full automatic dry powder deironing machine according to claim 1, it is characterised in that: being additionally provided with feed hopper and vibrating motor, described feed hopper is arranged at described charging aperture, and described vibrating motor is arranged at the outside of described feed hopper.

8. high efficient full automatic dry powder deironing machine according to claim 1, it is characterised in that: being additionally provided with driving device containment vessel, the side of described driving device containment vessel is connected with the side of described casing, and described driving device containment vessel wraps up described driving device.

9. the high efficient full automatic dry powder deironing machine according to claim 1-8 any one, it is characterised in that: being additionally provided with PLC and control module, PLC controls module and electrically connects the cylinder of described driving device.