CN214132168U - Rotary iron remover capable of automatically cleaning - Google Patents

Abstract

The utility model discloses a rotary iron remover capable of automatically cleaning, which comprises a frame and a working bin, wherein the working bin is fixed in the frame, a guide rod group and a pushing mechanism are also fixed on the frame, a plurality of sliding plates are matched on the guide rod group, the sliding plates are matched with the pushing mechanism, a motor is fixed on the sliding plates, the motor is matched with a magnetic rod group through a rotating shaft, a scrap returning plate is installed on the magnetic rod group, and the magnetic rod group can be driven to enter and exit from the working bin through the pushing mechanism; the utility model has the advantages that: by installing the two groups of magnetic rod groups, the two groups of magnetic rod groups can work alternately, so that the device can work continuously in the cleaning process; through the cooperation of the through-hole on chip removal board and the working bin with ferromagnetic impurity pile up backward, when no magnetism section gets into the clearance chamber on the bar magnet, because ferromagnetic impurity loses behind the magnetic force and drops on the bar magnet surface to realize automatic clearance.

Description

Rotary iron remover capable of automatically cleaning

Technical Field

The utility model relates to a deironing magnetic substance equipment field especially relates to a rotation type deironing ware that can clear up automatically.

Background

The iron remover is widely applied to industries such as metallurgy, mines, power plants, coal yards, ceramics, glass, cement, building materials, chemical industry, food and the like, can generate strong magnetic field attraction, and removes impurities from raw materials needing ferromagnetic impurity cleaning through the magnetic force, so that the ferromagnetic impurities carried in the raw materials are prevented from causing abnormal safe work of processing or conveying equipment of the raw materials, and the iron remover can also be used for improving the quality of the raw materials.

Current de-ironing separator carries out deironing through the bar magnet that has magnetism with the raw materials in transportation process basically, however the long-time use of bar magnet, and a large amount of ferromagnetic impurities can be adsorbed on the surface, and this can influence the work efficiency of bar magnet, so need stop to clear up impurity, and then influence work efficiency, also can stop because of the frequent of device simultaneously and open, influence the life of device.

SUMMERY OF THE UTILITY MODEL

The utility model discloses to the condition among the background art, provide a rotation type de-ironing separator that can clear up automatically, can realize the quick adjustment of many specifications mould.

In order to solve the technical problem, the utility model discloses a following technical scheme can solve: the utility model provides a rotation type de-ironing separator that can clear up automatically, includes frame and working bin, the working bin is fixed in the frame, still be fixed with guide bar group and pushing mechanism in the frame, the cooperation has a plurality of slides on the guide bar group, the slide with pushing mechanism cooperates, be fixed with the motor on the slide, the motor is through pivot and magnetic bar group combination, install the chip removal board on the magnetic bar group, through pushing mechanism can drive magnetic bar group business turn over the working bin.

Preferably, the fixed plate is further fixed on the rack, the fixed plate divides the rack into a movable area and a fixed area, the working bin is located in the fixed area, the guide rod group is located in the movable area, one end of the guide rod group is fixed to the rack, the other end of the guide rod group is fixed to the fixed plate, and the pushing mechanism is located in the fixed area and fixed to the fixed plate.

Preferably, the working bin is divided into the working chamber and the nonmagnetic chamber through the partition plate, the left side wall and the right side wall of the working bin and the partition plate are both concentrically provided with a pair of through holes, the through holes are distributed up and down, the right side wall of the working bin is internally fixed with a top block, the upper end of the working bin is provided with a feeding hole, and the lower end of the working bin is provided with a discharging hole.

Preferably, the right side wall of the working bin is connected with the rack, a cleaning cavity is formed between the left side wall of the working bin and the fixing plate, a pair of blocking holes are formed in the fixing plate, the blocking holes and the through holes are located on the same axis, and a chip removal port is formed in the lower end of the cleaning cavity.

Preferably, the bar magnet group has two sets ofly, every group bar magnet group one end is fixed with the fixed disk, and the other end is fixed with the positioning disk, be equipped with the locating hole on the positioning disk, the locating hole can with the kicking block cooperation, the fixed disk center is fixed with the pivot, the pivot passes the slide with the motor output end is connected, still be fixed with a plurality of elastomeric element on the fixed disk, elastomeric element can with the cooperation of chip removing plate.

Preferably, the guide rod group consists of two pairs of guide rods, each sliding plate is matched with a pair of guide rods, the guide rods are respectively positioned at two ends of the sliding plate, the sliding plate is matched with the guide rods through guide sleeves, and the sliding plate can slide along the guide rods through the guide sleeves.

Preferably, the pushing mechanism is two pairs of cylinders, each pair of cylinders is respectively located on two sides of the working bin and fixed on the fixing plate, each sliding plate can be matched with one pair of cylinders, and a push rod is installed in each cylinder and penetrates through the fixing plate to be fixedly connected with the sliding plate.

Preferably, one end of the magnetic rod group is fixed on the fixed disk, the other end of the magnetic rod group is fixed on the positioning disk, the positioning disk is provided with a positioning hole, the positioning hole can be matched with the ejecting block, the center of the fixed disk is fixed with the rotating shaft, the rotating shaft penetrates through the sliding plate to be connected with the output end of the motor, the fixed disk is further fixed with an elastic component, and the elastic component can be matched with the chip removing plate.

Preferably, the magnetic bar group comprises a plurality of magnetic bars, the magnetic bars are uniformly distributed around the center of the fixed disc, the magnetic bars are divided into magnetic sections and non-magnetic sections, when the magnetic bars are in a working state, the non-magnetic sections are located in the non-magnetic cavities, and the magnetic sections are located in the working cavities.

Preferably, the elastic component is matched with the sleeve, the spring and the sliding block, the sleeve is hollow, the spring is installed in the sleeve, one end of the sleeve is fixed on the fixed disc, one end of the sliding block is located in the sleeve and matched with the spring, and the other end of the sliding block is located outside the sleeve and matched with the chip removing plate.

Preferably, the chip removing plate is circular, the diameter of the chip removing plate is larger than that of the through hole and the blocking hole, and the chip removing plate is arranged on the magnetic rod and located in the cleaning cavity and tightly matched with the magnetic rod.

The utility model has the advantages that: by installing two groups of magnetic rod groups, each group of magnetic rod groups is connected through a motor, under the action of the air cylinder, the two groups of magnetic rod groups can work alternately, and further the device is always in a continuous working state in the cleaning process, so that the influence of multiple starting on the service life of the device is prevented; the chip removing plate arranged on the magnetic rod group is tightly matched with the magnetic rod, ferromagnetic impurities accumulated on the magnetic rod are accumulated backwards through the matching of the chip removing plate and the through hole on the working bin in the process that the pushing mechanism drives the magnetic rod group to move, and when a non-magnetic section on the magnetic rod enters the cleaning cavity, the ferromagnetic impurities lose magnetic force and then fall off from the surface of the magnetic rod, so that automatic cleaning is realized; the elastic component can ensure that the chip removing plate is tightly matched with the through hole on the working cavity, and the raw materials can not be discharged from the cleaning cavity; the motor rotates to drive the magnetic rods to rotate, so that the high efficiency of the adsorption of ferromagnetic impurities in the raw materials is ensured.

Drawings

Fig. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a front view of the present invention.

Fig. 3 is a front sectional view of the present invention.

Fig. 4 is a schematic structural diagram of the magnetic ring assembly of the present invention.

Fig. 5 is the internal structure diagram of the working chamber of the utility model.

Fig. 6 is a schematic structural view of the elastic member of the present invention.

Fig. 7 is a schematic view of the working state of the present invention 1.

Fig. 8 is a schematic view of the working state of the present invention 2.

In the figure: the device comprises a machine frame 101, a guide rod 102, a top block 103, a fixing plate 104, a guide sleeve 105, a motor 2, a working chamber 301, a working chamber 302, a cleaning chamber 303, a non-magnetic chamber 304, a feeding port 305, a discharging port 306, a chip removal port 307, a blocking hole 308, a through hole 309, a partition plate 310, an air cylinder 401, a top rod 402, a sliding plate 5, a rotating shaft 601, a fixing plate 602, a positioning plate 603, a magnetic rod 604, a positioning hole 605, a sleeve 701, a sliding block 702, a spring 703 and a chip removal plate 8.

Detailed Description

The technical solutions of the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings, and it is to be understood that the described embodiments are only some embodiments of the present invention, and not all embodiments. Based on the embodiments described in the present disclosure, all other embodiments obtained by a person skilled in the art without creative efforts are within the scope of the present disclosure.

As shown in fig. 1 to 8, a rotary iron remover capable of automatically cleaning comprises a frame 101, a working bin 301, a pushing mechanism and two magnetic rod sets, wherein the inside of the frame 101 is divided into a movable area and a fixed area, the movable area and the fixed area are separated by a fixing plate 104, the working bin 301 is fixed in the fixed area, a guide rod set is fixed between two sides of the movable area, a sliding plate 5 is matched on the guide rod set, two sliding plates 5 are provided, a motor 2 is fixed on the sliding plate 5, the pushing mechanism is fixed on the fixing plate 104 and matched with the sliding plate 5, a working chamber 302 is arranged in the working bin 301, two magnetic rod sets 604 are provided, the motor 2 is connected with one magnetic rod set 604 through a rotating shaft 601, a scrap removing plate 8 is tightly matched on the magnetic rod set 604, and one magnetic rod set 604 is positioned in the working bin 301 during normal operation, the other group is located outside the working bin 301, when needing to be cleaned, through pushing mechanism will outside the working bin 301 the bar magnet 604 group pushes to in the working bin 301, then will in the working bin 301 the bar magnet 604 group is pushed out, and through the chip removal plate 8 will ferromagnetic impurity on the bar magnet 604 group is cleared up.

Working bin 301 divides into through baffle 310 working chamber 302 and no magnetism chamber 304, the lateral wall about working bin 301 with all be equipped with a pair of through-hole 309 with one heart on the baffle 310, the through-hole 309 distributes from top to bottom, on the wall of working bin 301 right side the through-hole 309 internal fixation has kicking block 103, working bin 301 upper end is equipped with feed inlet 305, working bin 301 lower extreme is equipped with discharge gate 306.

The right side wall of the working bin 301 is connected with the rack 101, a cleaning cavity 303 is formed between the left side wall of the working bin 301 and the fixing plate 104, a pair of blocking holes 308 are formed in the fixing plate 104, the blocking holes 308 and the through holes 309 are located on the same axis, and a chip removal port 307 is formed at the lower end of the cleaning cavity 303.

The guide rod group is composed of two pairs of guide rods 102, each sliding plate 5 is matched with one pair of guide rods 102, the guide rods 102 are respectively positioned at two ends of the sliding plate 5, the sliding plate 5 is matched with the guide rods 102 through a guide sleeve 105, and the sliding plate can slide along the guide rods 102 through the guide sleeve 105.

The pushing mechanism is two pairs of air cylinders 401, each pair of air cylinders 401 is respectively located at two sides of the working bin 301 and fixed on the fixing plate 104, each sliding plate 5 can be matched with one pair of air cylinders 401, a push rod 402 is installed in each air cylinder 401, and the push rod 402 penetrates through the fixing plate 104 and is fixedly connected with the sliding plate 5.

One end of the magnetic rod 604 group is fixed on the fixed disc 602, the other end of the magnetic rod is fixed on the positioning disc 603, the positioning disc 603 is provided with a positioning hole 605, the positioning hole 605 can be matched with the ejector block 103, the center of the fixed disc 602 is fixed with the rotating shaft 601, the rotating shaft 601 penetrates through the sliding plate 5 to be connected with the output end of the motor 2, the fixed disc 602 is further fixed with an elastic component, and the elastic component can be matched with the chip-removing plate 8.

The magnetic bar 604 group comprises a plurality of magnetic bars 604, the magnetic bars 604 wind the center of the fixed disk 602 and are uniformly distributed, the magnetic bars 604 are divided into magnetic sections and non-magnetic sections, when the magnetic bars 604 are in a working state, the non-magnetic sections are located in the non-magnetic cavity 304, and the magnetic sections are located in the working cavity 302.

The elastic component is formed by matching a sleeve 701, a spring 703 and a sliding block 702, the sleeve 701 is hollow, the spring 703 is installed in the sleeve 701, one end of the sleeve 701 is fixed on the fixed disc 602, one end of the sliding block 702 is located in the sleeve 701 and matched with the spring 703, and the other end of the sliding block 702 is located outside the sleeve 701 and matched with the chip removing plate 8.

The chip removing plate 8 is circular, the diameter of the chip removing plate is larger than the diameter of the through hole 309 and the diameter of the blocking hole 308, and the chip removing plate 8 is mounted on the magnetic rod 604, is positioned in the cleaning cavity 303, and is tightly matched with the magnetic rod 604.

The specific working process is as follows: the normal working state is as shown in fig. 7 to 8, at this time, one group of magnetic rod set is located in the working bin 301, the other group of magnetic rod set is located in the active area, the non-magnetic section on the magnetic rod set located in the working bin 301 is located in the non-magnetic cavity 304 in the working bin 301, the magnetic section is located in the working cavity 302, the chip-removing plate 8 is matched with the through hole 309 on the left side wall of the working cavity 302 under the action of the elastic component, when the device is started, the motor 2 connected with the magnetic rod set located in the working bin 301 is started, and then the magnetic rod 604 set is driven to rotate in the working bin 301, at this time, the raw material enters the working cavity 302 from the feeding port 305 of the working bin 301, under the action of the magnetic force on the magnetic rod 604 set, the ferromagnetic impurities mixed in the raw material are adsorbed, and then discharged from the discharging port 306, when the ferromagnetic impurities adsorbed on the magnetic rod set are accumulated to a certain amount, the magnetic rod 604 set needs to be cleaned, at this time, the magnetic rod set located in the active area is driven by the air cylinder 401, the magnetic bar group is pushed into the working bin 301 from the active area by the sliding of the sliding plate 5 along the guide rod 102, at the moment, the motor 2 connected to the magnetic bar group is started to drive the magnetic bar group to work, then the magnetic bar group to be cleaned is pushed out from the working bin 301 to the active area by the sliding of the sliding plate 5 along the guide rod 102 under the action of the cylinder 401, in the pushing-out process of the magnetic bar group, the chip-removing plate 8 on the magnetic bar group is firstly moved from the position of the through hole 309 on the left side wall of the working bin 302 to the position of the blocking hole 308 on the fixing plate 104, under the blocking action of the blocking hole 308, the chip-removing plate 8 accumulates the ferromagnetic impurities adsorbed on the magnetic bar 604, when the non-magnetic section on the magnetic bar 604 enters the cleaning chamber 303, the ferromagnetic impurities accumulated on the magnetic bar 604 lose the magnetic force to act on the surface of the magnetic bar 604 to fall off and then are discharged from the chip-discharging port 307, and then when the cleaning is needed between the two groups of the magnetic bar 604, automatic cleaning can be realized only by mutually alternating the processes.

Claims (10)

1. The utility model provides a rotation type de-ironing separator that can clear up automatically, includes frame (101) and working bin (301), working bin (301) are fixed in frame (101), its characterized in that: still be fixed with guide bar group and pushing mechanism on frame (101), the cooperation has a plurality of slides (5) on the guide bar group, slide (5) with pushing mechanism cooperates, be fixed with motor (2) on slide (5), motor (2) are through pivot (601) and bar magnet group complex, install back chip board (8) on the bar magnet group, through pushing mechanism can drive bar magnet group business turn over working bin (301).

2. The rotary iron remover capable of automatically cleaning as claimed in claim 1, wherein: still be fixed with fixed plate (104) on frame (101), fixed plate (104) will frame (101) are divided into active area and fixed area, working bin (301) are located in the fixed area, the guide bar group is located the active area, guide bar group one end with frame (101) are fixed, the other end with fixed plate (104) are fixed, pushing mechanism is located the fixed area, and fix on fixed plate (104).

3. The rotary iron remover capable of automatically cleaning as claimed in claim 2, wherein: working bin (301) divide into working chamber (302) and no magnetism chamber (304) through baffle (310), the lateral wall about working bin (301) with all be equipped with a pair of through-hole (309) with one heart on baffle (310), through-hole (309) distribute from top to bottom, on working bin (301) the right side wall through-hole (309) internal fixation has kicking block (103), working bin (301) upper end is equipped with feed inlet (305), working bin (301) lower extreme is equipped with discharge gate (306).

4. The rotary iron remover capable of automatically cleaning as claimed in claim 3, wherein: the right side wall of the working bin (301) is connected with the rack (101), a cleaning cavity (303) is formed between the left side wall of the working bin (301) and the fixing plate (104), a pair of blocking holes (308) are formed in the fixing plate (104), the blocking holes (308) and the through holes (309) are located on the same axis, and a chip removal port (307) is formed in the lower end of the cleaning cavity (303).

5. The rotary iron remover capable of automatically cleaning as claimed in claim 4, wherein: the magnetic rod group has two sets, and every group magnetic rod group one end is fixed with fixed disk (602), and the other end is fixed with positioning disk (603), be equipped with locating hole (605) on positioning disk (603), locating hole (605) can with kicking block (103) cooperation, fixed disk (602) center is fixed with pivot (601), pivot (601) pass slide (5) with the motor (2) output is connected, still be fixed with a plurality of elastomeric element on fixed disk (602), elastomeric element can with fall back chip board (8) cooperation.

6. The rotary iron remover capable of automatically cleaning as claimed in claim 5, wherein: the bar magnet group comprises a plurality of bar magnets (604), bar magnet (604) wind fixed disk (602) center evenly distributed, bar magnet (604) divide into there is magnetism section and no magnetism section, works as bar magnet (604) are in operating condition, no magnetism section is located no magnetism chamber (304), there is the magnetism section to be located in working chamber (302).

7. The rotary iron remover capable of automatically cleaning as claimed in claim 1, wherein: the guide rod group is composed of two pairs of guide rods (102), each sliding plate (5) is matched with one pair of guide rods (102), the guide rods (102) are respectively located at two ends of the sliding plate (5), the sliding plate (5) is matched with the guide rods (102) through a guide sleeve (105), and the sliding plate can slide along the guide rods (102) through the guide sleeve (105).

8. The rotary iron remover capable of automatically cleaning as claimed in claim 2, wherein: the pushing mechanism is two pairs of air cylinders (410), each pair of air cylinders (410) are respectively positioned at two sides of the working bin (301) and fixed on the fixing plate (104), each sliding plate (5) can be matched with one pair of air cylinders (410), an ejector rod (420) is installed in each air cylinder (410), and each ejector rod (420) penetrates through the fixing plate (104) and is fixedly connected with the sliding plate (5).

9. The rotary iron remover capable of automatically cleaning as claimed in claim 5, wherein: the elastic component is matched with a sleeve (701), a spring (703) and a sliding block (702), the sleeve (701) is hollow, the spring (703) is installed in the sleeve (701), one end of the sleeve (701) is fixed on the fixed disc (602), one end of the sliding block (702) is located in the sleeve (701) and matched with the spring (703), and the other end of the sliding block is located outside the sleeve (701) and matched with the chip removing plate (8).

10. The rotary iron remover capable of automatically cleaning as claimed in claim 6, wherein: the chip removing plate (8) is circular, the diameter of the chip removing plate is larger than the diameter of the through hole (309) and the diameter of the blocking hole (308), and the chip removing plate (8) is installed on the magnetic rod (604), is positioned in the cleaning cavity (303), and is tightly matched with the magnetic rod (604).

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