CN102225360A

CN102225360A - Method and device for removing iron from continuous fluid

Info

Publication number: CN102225360A
Application number: CN2011100807252A
Authority: CN
Inventors: 李泽
Original assignee: Individual
Current assignee: Individual
Priority date: 2011-04-01
Filing date: 2011-04-01
Publication date: 2011-10-26
Anticipated expiration: 2031-04-01
Also published as: CN102225360B

Abstract

The invention relates to a method and a device for removing iron from continuous fluid. The method comprises a process of circularly removing iron magnetic matters by using permanent magnet bars and a process of cleaning the permanent magnet bars. In the process of circularly removing iron magnetic matters by using permanent magnet bars, a circulating power mechanism is used for driving the permanent magnet bars to circularly get in and out of a fluid channel, so as to absorb the iron magnetic matters in the fluid channel. In the process of cleaning the permanent magnet bars, all the permanent magnet bars are respectively sleeved with scraping sleeves, a pushing device is used for pushing the scraping sleeves to move along the permanent magnet bars when the permanent magnet bars arrive at the outer side of the fluid channel under the driving of the circulating power mechanism, the iron magnetic matters absorbed on the permanent magnet bars are scrapped off, and the scrapped iron magnetic matters are sent away through a waste slot. Compared with the prior art, the method has the advantages that the iron magnetic matters can be continuously absorbed and the permanent magnet can be cleared up.

Description

A kind of continuous fluid method for removing iron and device

Technical field

The present invention relates to a kind of method and device that removes ferromagnetic material in the fluid.

Background technology

Existingly drive permanent magnet blocks by circulation to clear up the method for the ferromagnetic material in the fluid be to enter the ferromagnetic material in the draw fluid in the fluid by driving permanent magnet blocks, then, permanent magnet blocks is delivered to above the fluid level, by cleaning device the ferromagnetic material above the permanent magnet blocks is cleaned out, so that come into operation again.This kind method because cleaning device is what to be separated with permanent magnet blocks, during cleaning, is difficult to guarantee the ferromagnetic material on the permanent magnet blocks is all cleared, thereby makes the ability of the absorption ferromagnetic material of the permanent magnet blocks that comes into operation again be subjected to very big infringement.

Summary of the invention

Goal of the invention of the present invention is to provide ferromagnetic material in a kind of draw fluid continuously, and can clean clean continuous rolling formula fluid deferrization method and device to permanent magnet.

Continuous rolling formula fluid deferrization method of the present invention is to realize like this, comprise permanent magnet bar circulation deferrization magnetic substance process, cleaning permanent magnet bar process, permanent magnet bar circulation deferrization magnetic substance process is to drive permanent magnet bar circulation turnover fluid passage by circulation power mechanism, ferromagnetic material in the fluid passage is drawn out, cleaning permanent magnet bar process is to be provided with to scrape cover on every permanent magnet bar, after circulation power mechanism drive permanent magnet bar runs to outside the fluid passage, promoting to scrape cover by thrust unit moves along permanent magnet bar, ferromagnetic material adsorbed on the permanent magnet bar is scraped off, and the ferromagnetic material that scrapes off is seen off by reject chute.Adopt circulation power mechanism to drive permanent magnet bar circulation turnover fluid passage, scrape cover by on every permanent magnet bar, being provided with simultaneously, and outside passage, promoting to scrape cover by thrust unit moves along permanent magnet bar, ferromagnetic material adsorbed on the permanent magnet bar is scraped off, like this, with regard to ferromagnetic material in the continuous draw fluid of energy, and can be clean to the permanent magnet cleaning.

Here, promote to scrape cover when permanent magnet bar moves at thrust unit, thrust unit moves with circulation power mechanism and moves, until scraping the other end that cover moves to permanent magnet bar.Move because thrust unit moves with circulation power mechanism, like this, circulation power mechanism is just without stop motion, thus the purpose of the continuously uninterrupted deironing of realization.

Here, thrust unit is to promote to scrape cover like this to move along permanent magnet bar, outside scraping cover, down stretch out several rods earlier, make several rod retainings in the outside of scraping cover, move thrust unit along the permanent magnet bar axis then, and then promote to scrape the other end that cover moves to permanent magnet bar by several rods, again rod is mentioned, so that following the opposite direction of gyration force mechanisms moving direction, thrust unit resets.The rod that employing can be stretched up and down can be scraped cover from the outside promotion of scraping cover at permanent magnet bar two ends easily.

Scrape the cover middle part circle shape groove is set, earlier down stretch out several rods at the circle shape groove place of scraping cover, make several rod retainings in scraping the circle shape groove of cover, move thrust unit along the permanent magnet bar axis then, and then promote to scrape the other end that cover moves to permanent magnet bar by several rods, again rod is mentioned, reset so that thrust unit follows the opposite direction of gyration force mechanisms moving direction.Adopt circle shape groove, thrust unit just can move forward and backward and scrape cover, and, rod need not take scrapes the cover outer space, like this, can adopt thin bar to be connected between permanent magnet bar and circulation power mechanism, so that ferromagnetic material scrapes thin bar place, ferromagnetic material is little with the contact area of thin bar, and the amount of accumulating is little, conveniently cleans.

Here, successfully break away from permanent magnet bar in order to make ferromagnetic mass-energy, the two ends of permanent magnet bar are provided with non-magnetic conductive rod, and the ferromagnetic material in cleaning permanent magnet bar process on the permanent magnet bar is scraped non-magnetic conductive rod place.Like this, when scraping cover and scraping the ferromagnetic material on the permanent magnet bar on the non-magnetic conductive rod, owing to there has not been magnetic attraction, ferromagnetic material can drop in the reject chute under the effect of gravity automatically.

Here, circulation power mechanism adopts chain-type circulation power mechanism.In the cleaning permanent magnet bar process, locate with baffle plate at the two ends of permanent magnet bar earlier, promote scraper plate again.

Perhaps, circulation power mechanism adopts and drives power-actuated circular power rack.Circular power rack drives the two-layer above permanent magnet bar layer that is made of the permanent magnet bar along the circle distribution of circular power rack.Owing to can drive multilayer permanent magnet bar layer, thereby improve disposal ability effectively.

Continuous fluid deironing apparatus of the present invention is to realize like this, comprise that the fluid passage that has fluid inlet, fluid issuing, part are arranged on circulation power mechanism in the fluid passage, are arranged on the permanent magnet bar in the circulation power mechanism, permanent magnet bar is provided with scrapes cover, be provided with reject chute below the permanent magnet bar on be positioned at the fluid passage, the cover side of scraping on the permanent magnet bar above the reject chute is provided with the thrust unit that has propulsion power mechanism.During work, circulation power mechanism drives permanent magnet bar circulation turnover fluid passage, when permanent magnet bar enters in the fluid passage, ferromagnetic material in the draw fluid inner fluid passage, when leaving the fluid passage and entering above the reject chute, thrust unit promotes to scrape cover and moves to the other end from an end of permanent magnet bar, and the ferromagnetic material above the permanent magnet bar is scraped off.

Here, be provided with response agency between propulsion power mechanism and thrust unit, response agency comprises support, is arranged on guide rail, spring on the support, and thrust unit is slidingly arranged on the guide rail, and spring is arranged between thrust unit and support.In pushing course, thrust unit moves with circulation power mechanism and moves along guide rail, like this, just can be under circulation power mechanism continuous motion state continuous deferrization and cleaning permanent magnet bar incessantly, clean permanent magnet bar reenters the ferromagnetic material in the draw fluid in the fluid passage under the drive of circulation power mechanism.The effect of spring is when thrust unit is back mobile under propulsion power mechanism drives, and thrust unit is resetted along guide rail.

Thrust unit comprise the shelf that is slidingly connected on the frame guide rail, vertically slide on the top of the shelf several rods, rod riser of cross-under, drive the rod actuating unit that the rod riser moves up and down, several rods slide vertical cross-under on the rod riser, and the rod top is provided with limited block.During work, driving the rod riser by the rod actuating unit moves down, rod is also along with moving down, and when rod was run into permanent magnet bar, rod just no longer moved down, then continue to move down from the rod of permanent magnet bar next door process, rod both had been stuck between permanent magnet bar like this, was positioned at the side of scraping cover simultaneously again, and rod just can promote to scrape cover and move along the permanent magnet bar axis, simultaneously, under driving, permanent magnet bar moves with circulation power mechanism.Promote the rod riser by the rod actuating unit, the rod riser then raises up rod, and like this, the thrust unit that is in free state resets under the effect of spring, to prepare to carry out cleaning next time.

Here, be provided with the riser guide rail on the top of the shelf, the rod riser is slidingly arranged on the riser guide rail.

Be provided with the guide rail bracket that has guide rail above the circulation power mechanism on the fluid passage, support is slidingly arranged on the guide rail on the guide rail bracket.Like this, support just can move forward and backward along the guide rail on the guide rail bracket very smoothly, and the drive thrust unit is done and moved forward and backward.

The vertical several rods of slip cross-under on shelf and rod riser are divided into two parallel rows, and the vertical range of two row's rods is greater than the thickness of scraping cover.Like this, rod is injected the two sides scrape cover and just can drive back and forth that to scrape cover mobile.

Perhaps, scrape the cover middle part circle shape groove is set, the width of groove is greater than the diameter of rod.Adopt circle shape groove, thrust unit just can move forward and backward and scrape cover, and, rod need not take scrapes the cover outer space, like this, can adopt thin bar to be connected between permanent magnet bar and circulation power mechanism, so that ferromagnetic material scrapes thin bar place, ferromagnetic material is little with the contact area of thin bar, and the amount of accumulating is little, conveniently cleans.

Here, the two ends of permanent magnet bar are provided with non-magnetic conductive rod.Like this, when ferromagnetic material is scraped non-magnetic conductive rod place, under the effect of gravity, fall down owing to lost magnetic attraction.

The fluid passage is the cavity volume shape of flat, and circulation power mechanism is chain, sprocket-type circulation power mechanism.Both sides in the permanent magnet bar corresponding with propulsion power mechanism are provided with baffle plate.Like this, under the effect of baffle plate, propulsion power mechanism just can successfully promote scraper plate.

Perhaps, the fluid passage is the circular arc passage, and circulation power mechanism has power-actuated circular power rack.Be arranged on permanent magnet bar on the circular power rack have two-layer more than, every layer of permanent magnet bar is along the circle distribution of circular power rack.

Compared with the prior art the present invention has continuously ferromagnetic material in the draw fluid, and can clean clean advantage to permanent magnet.

Description of drawings:

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

Fig. 2 is the structural representation of the embodiment of the invention 2;

Fig. 3 is the structural representation of the embodiment of the invention 3;

Fig. 4 is the structural representation of the embodiment of the invention 4;

Fig. 5 is the structural representation of thrust unit embodiment 1;

Fig. 6 is the structural representation of thrust unit embodiment 2;

Fig. 7 is the structural representation of thrust unit embodiment 3;

Fig. 8 is the structural representation that has the scraper plate of circle shape groove;

Fig. 9 is the structural representation of circular power rack.

The specific embodiment:

Now in conjunction with the accompanying drawings and embodiments the present invention is done and describes in further detail:

Continuous rolling formula fluid deferrization method of the present invention is to realize like this, comprise permanent magnet bar circulation deferrization magnetic substance process, cleaning permanent magnet bar process, permanent magnet bar circulation deferrization magnetic substance process is to drive permanent magnet bar circulation turnover fluid passage by circulation power mechanism, ferromagnetic material in the fluid passage is drawn out, cleaning permanent magnet bar process is to be provided with to scrape cover on every permanent magnet bar, after circulation power mechanism drive permanent magnet bar runs to outside the fluid passage, promoting to scrape cover by thrust unit moves along permanent magnet bar, ferromagnetic material adsorbed on the permanent magnet bar is scraped off, and the ferromagnetic material that scrapes off is seen off by reject chute.

Here, promote to scrape cover when permanent magnet bar moves at thrust unit, thrust unit moves with circulation power mechanism and moves, until scraping the other end that cover moves to permanent magnet bar.

Thrust unit is to promote to scrape cover like this to move along permanent magnet bar, outside scraping cover, down stretch out several rods earlier, make several rod retainings in the outside of scraping cover, move thrust unit along the permanent magnet bar axis then, and then promote to scrape the other end that cover moves to permanent magnet bar by several rods, again rod is mentioned, reset so that thrust unit follows the opposite direction of gyration force mechanisms moving direction.

Scrape the cover middle part circle shape groove is set, earlier down stretch out several rods at the circle shape groove place of scraping cover, make several rod retainings in scraping the circle shape groove of cover, move thrust unit along the permanent magnet bar axis then, and then promote to scrape the other end that cover moves to permanent magnet bar by several rods, again rod is mentioned, reset so that thrust unit follows the opposite direction of gyration force mechanisms moving direction.

The two ends of permanent magnet bar are provided with non-magnetic conductive rod, and the ferromagnetic material in cleaning permanent magnet bar process on the permanent magnet bar is scraped non-magnetic conductive rod place.

Circulation power mechanism adopts chain-type circulation power mechanism.Perhaps, circulation power mechanism adopts and drives power-actuated circular power rack.Circular power rack drives the two-layer above permanent magnet bar layer that is made of the permanent magnet bar along the circle distribution of circular power rack.

The embodiment 1 of continuous fluid deironing apparatus of the present invention: as shown in Figure 1, comprise the fluid passage 1 that has bottom flow import 16 and upper flow outlet 17, part is arranged on the chain-type circulation power mechanism 4 by actuating unit 3 drives in the fluid passage 1, several permanent magnet bar 5, fluid passage 1 is the cavity volume shape of flat, chain-type circulation power mechanism 4 comprises a pair of chain 4a, two groups of sprocket wheel 4b, permanent magnet bar 5 is arranged between a pair of chain 4a, permanent magnet bar 5 is provided with scrapes cover 6, be provided with reject chute 7 below the permanent magnet bar 5 that is positioned at 1 outside, fluid passage, cover 6 sides of scraping on the permanent magnet bar 5 above the reject chute 7 are provided with the thrust unit 8 that has propulsion power mechanism 13.

Be provided with response agency 14 in

propulsion power mechanism

13 and 8 of thrust units.

As shown in Figure 5, response agency 14 comprises support 14a, is arranged on guide rail 14b, spring 14c on the support 14a, and thrust unit 8 is slidingly arranged on the guide rail 14b, and spring 14c is arranged between thrust unit 8 and support 14a.

As shown in Figure 6, thrust unit 8 comprise the shelf 8a that is slidingly connected on the support 14a guide rail 14b, vertically slide several rod 8bs, the rod riser 8c of cross-under on shelf 8a, drive the rod actuating unit 8d that rod riser 8c moves up and down, several rod 8b slide vertical cross-under on rod riser 8c, and rod 8b top is provided with limited block 8e.

Shelf 8a is provided with riser guide rail 8f, and rod riser 8c is slidingly arranged on the riser guide rail 8f.

Be provided with guide rail bracket 15 above the circulation link chain 4 on fluid passage 1, support 14a is slidingly arranged on the guide rail 15a on the guide rail bracket 15.

The vertical several rod 8bs of slip cross-under on shelf 8a and rod riser 8c are divided into two parallel rows, and the vertical range of two row's rods is greater than the thickness of scraping cover 6.

The two ends of permanent magnet bar 5 are provided with non-magnetic conductive rod 9.

The side of the permanent magnet bar 5 on reject chute 7 is provided with screens baffle plate 10.Screens baffle plate 10 has two covers, lays respectively at the both sides of the permanent magnet bar 5 above the reject chute 7.

1 bottom is provided with agitator 11 in the fluid passage.

4 of circulation link chains in fluid passage 1 are provided with filler 12.

The embodiment 2 of continuous fluid deironing apparatus of the present invention: shown in Fig. 2,8, present embodiment is on the basis of embodiment 1, scrape cover 6 middle parts circle shape groove 6a is set, the width of groove 6a is greater than the diameter of rod 8b, and the several rod 8bs of cross-under on shelf 8a and rod riser 8c that vertically slide are divided into a parallel row.

The circulation link chain 4 that drives permanent magnet bar 5 operations is provided with snakelike bending form in fluid chamber 1.

The embodiment 3 of continuous fluid deironing apparatus of the present invention: shown in Fig. 3,7, present embodiment is on the basis of embodiment 1, and fluid passage 1 is the circular arc passage, and circulation power mechanism 4 has power-actuated circular power rack 4.

Circular arc passage 1 comprises fan-shaped appearance chamber 1a, is arranged on the fan-shaped filler 1b of fan-shaped appearance chamber 1a circle centre position, and the space between fan-shaped appearance chamber 1a, fan-shaped filler 1b forms circular arc passage 1.

As shown in Figure 9, circular power rack 4 comprises the two circular plates 18, the Power Drive Unit 19 that are positioned at both sides, is connected the support roller 21 on the roller frame 20, the Power Drive Unit 19 and a circular plate 18 outsides wherein, permanent magnet bar 5 is connected 18 of two circular plates by thin bar 22, and support roller 21 is arranged on below another inward flange above circular plate 18.Like this, firmly circular power rack 4 is arranged in the fluid passage 1 by support roller 21, Power Drive Unit 19.

The embodiment 4 of continuous fluid deironing apparatus of the present invention: shown in Fig. 4,8, present embodiment is on the basis of embodiment 3, scrape cover 6 middle parts circle shape groove 6a is set, the width of groove 6a is greater than the diameter of rod 8b, and the several rod 8bs of cross-under on shelf 8a and rod riser 8c that vertically slide are divided into a parallel row.

Be arranged on permanent magnet bar 5 on the circular power rack 4 have two-layer more than, every layer of permanent magnet bar 5 is along the circle distribution of circular power rack 4.

Claims

1. continuous fluid method for removing iron, it is characterized in that comprising permanent magnet bar circulation deferrization magnetic substance process, cleaning permanent magnet bar process, permanent magnet bar circulation deferrization magnetic substance process is to drive permanent magnet bar circulation turnover fluid passage by circulation power mechanism, ferromagnetic material in the fluid passage is drawn out, cleaning permanent magnet bar process is to be provided with to scrape cover on every permanent magnet bar, after circulation power mechanism drive permanent magnet bar runs to outside the fluid passage, promoting to scrape cover by thrust unit moves along permanent magnet bar, ferromagnetic material adsorbed on the permanent magnet bar is scraped off, and the ferromagnetic material that scrapes off is seen off by reject chute.

2. continuous fluid method for removing iron according to claim 1 is characterized in that promoting to scrape cover when permanent magnet bar moves at thrust unit, and thrust unit moves with circulation power mechanism and moves, until scraping the other end that cover moves to permanent magnet bar.

3. continuous fluid method for removing iron according to claim 2, it is characterized in that thrust unit is to promote to scrape cover like this to move along permanent magnet bar, outside scraping cover, down stretch out several rods earlier, make several rod retainings in the outside of scraping cover, move thrust unit along the permanent magnet bar axis then, and then promote to scrape the other end that cover moves to permanent magnet bar by several rods, again rod is mentioned, so that following the opposite direction of gyration force mechanisms moving direction, thrust unit resets.

4. continuous fluid method for removing iron according to claim 3, it is characterized in that scraping the cover middle part circle shape groove is set, earlier down stretch out several rods at the circle shape groove place of scraping cover, make several rod retainings in scraping the circle shape groove of cover, move thrust unit along the permanent magnet bar axis then, and then promote to scrape the other end that cover moves to permanent magnet bar by several rods, again rod is mentioned, so that following the opposite direction of gyration force mechanisms moving direction, thrust unit resets.

5. according to claim 1 or 2 or 3 or 4 described continuous fluid method for removing iron, it is characterized in that circulation power mechanism adopt chain-type circulation power mechanism or, circulation power mechanism adopts and drives power-actuated circular power rack.

6. continuous fluid method for removing iron according to claim 5 is characterized in that circular power rack drives the two-layer above permanent magnet bar layer that is made of the permanent magnet bar along the circle distribution of circular power rack.

7. according to claim 1 or 2 or 3 or 4 or 6 described continuous fluid method for removing iron, it is characterized in that the two ends of permanent magnet bar are provided with non-magnetic conductive rod.

8. continuous fluid method for removing iron according to claim 5 is characterized in that the two ends of permanent magnet bar are provided with non-magnetic conductive rod.

9. continuous fluid deironing apparatus, it is characterized in that comprising that the fluid passage that has fluid inlet, fluid issuing, part are arranged on circulation power mechanism in the fluid passage, are arranged on the permanent magnet bar in the circulation power mechanism, permanent magnet bar is provided with scrapes cover, be provided with reject chute below the permanent magnet bar on be positioned at the fluid passage, the cover side of scraping on the permanent magnet bar above the reject chute is provided with the thrust unit that has propulsion power mechanism.

10. continuous fluid deironing apparatus according to claim 9, it is characterized in that between propulsion power mechanism and thrust unit, being provided with response agency, response agency comprises support, is arranged on guide rail, spring on the support, thrust unit is slidingly arranged on the guide rail, and spring is arranged between thrust unit and support.

11. continuous fluid deironing apparatus according to claim 10, it is characterized in that thrust unit comprise the shelf that is slidingly connected on the frame guide rail, vertically slide on the top of the shelf several rods, rod riser of cross-under, drive the rod actuating unit that the rod riser moves up and down, several rods slide vertical cross-under on the rod riser, and the rod top is provided with limited block.

12. continuous fluid deironing apparatus according to claim 11 is characterized in that being provided with on the top of the shelf the riser guide rail, the rod riser is slidingly arranged on the riser guide rail.

13. continuous fluid deironing apparatus according to claim 12, it is characterized in that on the fluid passage circulation power mechanism above be provided with the guide rail bracket that has guide rail, support is slidingly arranged on the guide rail on the guide rail bracket.

14. continuous fluid deironing apparatus according to claim 13 is characterized in that the two ends of permanent magnet bar are provided with non-magnetic conductive rod.

15. according to claim 11 or 12 or 13 or 14 described continuous fluid deironing apparatus, the several rods of cross-under on shelf and rod riser that it is characterized in that vertically sliding are divided into two parallel rows, the vertical range of two row's rods is greater than the thickness of scraping cover.

16. according to claim 11 or 12 or 13 or 14 described continuous fluid deironing apparatus, it is characterized in that scraping the cover middle part circle shape groove is set, the width of groove is greater than the diameter of rod.

17. continuous fluid deironing apparatus according to claim 16, the several rods of cross-under on shelf and rod riser that it is characterized in that vertically sliding are a parallel row.

18. according to claim 9 10 or 11 12 or 13 or or 14 or 17 described continuous fluid deironing apparatus, it is characterized in that the fluid passage is the cavity volume shape of flat, circulation power mechanism is chain, sprocket-type circulation power mechanism, perhaps, the fluid passage is the circular arc passage, and circulation power mechanism has power-actuated circular power rack.

19. continuous fluid deironing apparatus according to claim 18 is characterized in that the side of the permanent magnet bar on the chain on reject chute is provided with the screens baffle plate, the screens baffle plate has two covers, lays respectively at the both sides of the permanent magnet bar above the reject chute.

20. continuous fluid deironing apparatus according to claim 19 is characterized in that between the circulation link chain in the fluid passage filler being set.

21. continuous fluid deironing apparatus according to claim 20, the circulation link chain that it is characterized in that driving the permanent magnet bar operation in fluid chamber with the setting of snakelike bending form.

22. continuous fluid deironing apparatus according to claim 18 is characterized in that the circular arc passage comprises fan-shaped appearance chamber, is arranged on the fan-shaped filler of fan-shaped appearance chamber circle centre position, the space between fan-shaped appearance chamber, fan-shaped filler forms the circular arc passage.

23. according to claim 18 or 22 described continuous fluid deironing apparatus, it is characterized in that circular power rack comprises the two circular plates, the Power Drive Unit that are positioned at both sides, is connected the support roller on the roller frame, the Power Drive Unit and the circular plate outside wherein, permanent magnet bar is connected between two circular plates by thin bar, and support roller is arranged on below another inward flange above circular plate.

24. according to claim 18 or 22 described continuous fluid deironing apparatus, it is characterized in that being arranged on permanent magnet bar on the circular power rack have two-layer more than, every layer of permanent magnet bar is along the circle distribution of circular power rack.

25. continuous fluid deironing apparatus according to claim 23, it is characterized in that being arranged on permanent magnet bar on the circular power rack have two-layer more than, every layer of permanent magnet bar is along the circle distribution of circular power rack.