CN110976090A - Deironing device of milling machine for ceramic manufacture - Google Patents

Abstract

The invention discloses an iron removal device of a grinding mill for ceramic production, which comprises a fixed frame, wherein four corners of the bottom of the fixed frame are fixedly connected with brake wheels, a funnel is fixedly inserted into one side of the top of the fixed frame, and one side of the top of the fixed frame, which is far away from the funnel, is connected with a driving mechanism; the driving mechanism drives the iron removal mechanism to work, so that three magnet rollers of the iron removal mechanism can carry out iron removal work in a processing frame of the blanking processing mechanism; through the unloading processing mechanism who is equipped with, not only can assist deironing mechanism to carry out deironing work, also can effectually will handle the even unloading of the tiny particle powder of not doping iron impurity to receiving the workbin in, avoid appearing leaking the condition of expecting.

Description

Deironing device of milling machine for ceramic manufacture

The technical field is as follows:

the invention belongs to the technical field of ceramic production, and particularly relates to a deironing device of a flour mill for ceramic production.

Background art:

in the process of ceramic production, need use the milling machine and grind the material that the production cover was established into the tiny particle powder, and the material that grinds well needs to pass through the deironing device, gets rid of the iron impurity in the tiny particle powder, avoids the metal to mix in the tiny particle powder, influences ceramic production.

And in current technique, the deironing device that the milling machine was used can't careful reach the deironing effect, and a lot of deironing devices adsorb through the magnetite, and after deironing work was finished, inconvenient dismantlement made its absorbent iron at the magnetite outer wall accumulation, caused the adsorption efficiency variation in later stage, influence deironing work, did not have fine practicality.

The invention content is as follows:

the present invention has been made to solve the above problems, and an object of the present invention is to provide an iron removing device for a ceramic production mill.

In order to solve the above problems, the present invention provides a technical solution:

the deironing device of the grinding mill for ceramic production comprises a fixing frame, wherein four corners of the bottom of the fixing frame are fixedly connected with brake wheels, a funnel is fixedly inserted into one side of the top of the fixing frame, which is far away from the funnel, is connected with a driving mechanism, one end of the driving mechanism, which is far away from the top of the fixing frame, is connected with a deironing mechanism, one end of the deironing mechanism, which is far away from the driving mechanism, is inserted into a blanking processing mechanism, and the upper end of;

the driving mechanism comprises a base, a motor, a first bolt, a driving wheel, a belt and driven wheels, wherein the motor is fixedly connected to the top of the base, the first bolt is inserted into four corners of the base in a threaded manner, the output end of the motor is fixedly connected with the side wall of one side of the driving wheel, and the driving wheel is in transmission connection with the three driven wheels through the belt;

the iron removing mechanism comprises connecting blocks, fixing blocks, second bolts, rotating shafts, connecting plates, third bolts and magnet rollers, the number of the connecting blocks is three, the fixing blocks are arranged on one sides of the three connecting blocks, the second bolts are inserted into four corners of the side wall, far away from the connecting blocks, of the three fixing blocks, the rotating shafts are fixedly connected to the middle portions of the side walls, far away from the connecting blocks, of the three fixing blocks, one ends, far away from the fixing blocks, of the three rotating shafts respectively penetrate through the three connecting plates to be fixedly connected with one ends of the three magnet rollers, and the third bolts are inserted into the front ends and the rear ends, close to the side;

the shaking mechanism comprises a supporting plate, a material blocking frame, a stress plate, a blanking groove, an outer pipe, an inner rod, a spring, a screening frame, a screening net, a vibrating motor and four bolts, wherein the stress plate is arranged above the supporting plate, the supporting plate and the stress plate are both provided with the blanking groove in a penetrating way, the supporting plate is positioned on the inner wall of the blanking groove and fixedly connected with the outer wall of the bottom of the material blocking frame, the top of the material blocking frame is fixedly connected with the outer side of the blanking groove at the bottom of the stress plate, the stress plate is positioned on the inner wall of the blanking groove and fixedly connected with the outer wall of the bottom of the screening frame, the screening net is fixedly connected with the bottom inside of the screening frame, the outer wall of one side of the screening frame is provided with the vibrating motor, four corners of one end, close to the screening frame, of the vibrating motor are all threaded and inserted with the four bolts, the top of the supporting plate is fixedly connected with a plurality of outer pipes at the, one end of each inner rod, which is far away from the supporting plate, is fixedly connected to the bottom of the stress plate, and the outer walls of each outer tube and each inner rod are sleeved with a spring together;

the unloading processing mechanism comprises a processing frame, a working groove, a sliding block, a hook, a limiting frame, a sliding groove, a limiting barrel and a hanging ring, wherein the top of the processing frame is fixedly connected with the outer side of the unloading groove at the bottom of a supporting plate, the side wall of one side of the processing frame is provided with three working grooves in a penetrating mode, the sliding blocks are fixedly connected with the bottom ends of the outer walls of the four sides of the processing frame, the processing frame is connected with the sliding grooves of the inner walls of the four sides of the limiting frame in a sliding mode through the sliding blocks of the outer walls of the four sides, the hooks are fixedly connected with the top ends of the outer walls of the front end and the rear end of the processing frame, the limiting barrels are fixedly.

Preferably, the side walls of one side of the three driven wheels are fixedly connected with the side walls of one side of the three connecting blocks, which are far away from the fixing block.

As preferred, the fixed block is through No. two bolt and connecting block threaded connection, the equal fixedly connected with bearing in inside of connecting plate, and the inner ring inner wall of bearing and the outer wall fixed connection who corresponds the axis of rotation, the connecting plate is through No. three bolts and processing frame threaded connection, two of top distance between the one side outer wall that the magnetite roller kept away from each other and the distance phase-match between the both sides inner wall around processing the frame between the both sides inner wall, the bottom the magnetite roller is located the below of two magnetite rollers in top, and two of top distance between the lateral wall of one side that the magnetite roller is close to each other is less than the magnetite roller of below around the distance between the both sides outer wall, three the magnetite roller passes three working groove respectively and extends to inside the processing frame.

As preferred, one side lateral wall that the belt was kept away from to the backup pad respectively with the inside wall fixed connection of mount, every the bottom of spring all with backup pad top fixed connection, every the top of spring respectively with the bottom fixed connection of atress board, the screening frame is located the funnel bottom under, just the inside length width of funnel bottom is less than the inside length width on screening frame top, the inside length width of screening frame is less than the inside length width of keeping off the material frame, the inside length width of keeping off the material frame equals the inside length width of handling the frame, just the inside of keeping off the material frame is located same plumb line position with the inside of handling the frame, the inside length width of handling the frame is less than the inside length width of spacing frame, the outside length width of spacing frame is less than the outside length width of receiving case.

Preferably, two link on the spacing section of thick bamboo respectively with handle two couple joints on the frame, spacing frame bottom slides and inserts the inside of establishing and receiving the workbin, receive the workbin and place on the interior diapire of mount, just spacing frame bottom to the distance between receiving the workbin top and couple bottom to spacing section of thick bamboo top between the distance phase-match.

Preferably, the base is in threaded connection with one side, far away from the funnel, of the top of the fixing frame through a first bolt, and the vibration motor is in threaded connection with the outer wall of one side of the screening frame through a fourth bolt.

The invention has the beneficial effects that:

1. according to the invention, the small-particle powder material falling from the hopper can be effectively and uniformly discharged through the material shaking mechanism, so that the iron removing mechanism can conveniently and effectively and finely remove iron;

2. the driving mechanism drives the iron removal mechanism to work, so that three magnet rollers of the iron removal mechanism can carry out iron removal work in a processing frame of the blanking processing mechanism;

3. through the unloading processing mechanism who is equipped with, not only can assist deironing mechanism to carry out deironing work, also can effectually will handle the even unloading of the tiny particle powder of not doping iron impurity to receiving the workbin in, avoid appearing leaking the condition of expecting.

4. Through No. two bolts and No. three bolts that are equipped with, conveniently dismantle three magnetite roller and come out to the work of clearing up is carried out to the outer wall of three magnetite roller to the convenience.

Description of the drawings:

for ease of illustration, the invention is described in detail by the following detailed description and the accompanying drawings.

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic view of a partially disassembled structure of the material shaking mechanism of the present invention;

FIG. 3 is a schematic view of a disassembled structure of the blanking processing structure of the present invention;

FIG. 4 is a schematic view of a disassembled structure of the iron removing mechanism of the present invention;

FIG. 5 is a schematic view of the internal structure of the outer tube and the inner rod of the present invention;

FIG. 6 is a schematic side view of the three driven wheels, the driving wheel and the belt of the present invention after being connected.

In the figure: 1. a fixed mount; 2. a brake wheel; 3. a material receiving box; 4. a funnel; 5. a drive mechanism; 51. a base; 52. a motor; 53. a first bolt; 54. a driving wheel; 55. a belt; 56. a driven wheel; 6. a deironing mechanism; 61. connecting blocks; 62. a fixed block; 63. a second bolt; 64. a rotating shaft; 65. a connecting plate; 66. a third bolt; 67. a magnet roller; 7. a material shaking mechanism; 71. a support plate; 72. a material blocking frame; 73. a stress plate; 74. a discharging groove; 75. an outer tube; 76. an inner rod; 77. a spring; 78. screening the frame; 79. screening the net; 710. a vibration motor; 711. a fourth bolt; 8. a blanking processing mechanism; 81. a process frame; 82. a working groove; 83. a slider; 84. hooking; 85. a limiting frame; 86. a chute; 87. A limiting cylinder; 88. and (5) hanging a ring.

The specific implementation mode is as follows:

as shown in fig. 1 to 6, the following technical solutions are adopted in the present embodiment: the automatic feeding device comprises a fixed frame 1, brake wheels 2 are fixedly connected to four corners of the bottom of the fixed frame 1, a funnel 4 is fixedly inserted into one side of the top of the fixed frame 1, a driving mechanism 5 is connected to one side, far away from the funnel 4, of the top of the fixed frame 1, an iron removal mechanism 6 is connected to one end, far away from the top of the fixed frame 1, of the driving mechanism 5, one end, far away from the driving mechanism 5, of the iron removal mechanism 6 is inserted into a blanking processing mechanism 8, and a material shaking mechanism 7 is connected to the;

the driving mechanism 5 comprises a base 51, a motor 52, a first bolt 53, a driving wheel 54, a belt 55 and a driven wheel 56, wherein the motor 52 is fixedly connected to the top of the base 51, the first bolt 53 is inserted into each of four corners of the base 51 in a threaded manner, the output end of the motor 52 is fixedly connected with the side wall of one side of the driving wheel 54, and the driving wheel 54 is in transmission connection with the three driven wheels 56 through the belt 55;

the iron removing mechanism 6 comprises connecting blocks 61, three fixing blocks 62, two bolts 63, rotating shafts 64, connecting plates 65, three bolts 66 and magnet rollers 67, the number of the connecting blocks 61 is three, the three fixing blocks 62 are arranged on one side of each connecting block 61, the two bolts 63 are inserted into four corners of the side wall of one side, away from the connecting block 61, of the three fixing blocks 62, the rotating shafts 64 are fixedly connected to the middle parts of the side walls of one side, away from the connecting block 61, of the three fixing blocks 62, one ends, away from the fixing blocks 62, of the three rotating shafts 64 respectively penetrate through the three connecting plates 65 to be fixedly connected with one ends of the three magnet rollers 67, and the three bolts 66 are inserted into the front ends and the rear ends, close to the side;

the material shaking mechanism 7 comprises a support plate 71, a material blocking frame 72, a stress plate 73, a material discharging groove 74, an outer pipe 75, an inner rod 76, a spring 77, a screening frame 78, a screening net 79, a vibration motor 710 and a fourth bolt 711, wherein the stress plate 73 is arranged above the support plate 71, the material discharging groove 74 is drilled on the support plate 71 and the stress plate 73 in a penetrating manner, the support plate 71 is positioned on the inner wall of the material discharging groove 74 and the outer wall of the bottom of the material blocking frame 72, the top of the material blocking frame 72 and the outer side of the material discharging groove 74 at the bottom of the stress plate 73 are fixedly connected, the stress plate 73 is positioned on the inner wall of the material discharging groove 74 and the outer wall of the bottom of the screening frame 78, the screening net 79 is fixedly connected to the inner bottom end of the screening frame 78, the vibration motor 710 is arranged on the outer wall of one side of the screening frame 78, the fourth bolt 711 is inserted in a threaded manner near one end of the, a plurality of outer pipes 75 are fixedly connected to the top of the supporting plate 71 and the periphery of the material blocking frame 72, an inner rod 76 is slidably inserted into the inner part of one end, away from the supporting plate 71, of each outer pipe 75, one end, away from the supporting plate 71, of each inner rod 76 is fixedly connected to the bottom of the stress plate 73, and springs 77 are sleeved on the outer walls of the outer pipes 75 and the inner rods 76;

the blanking processing mechanism 8 comprises a processing frame 81, working grooves 82, sliding blocks 83, hooks 84, limiting frames 85, sliding grooves 86, limiting cylinders 87 and hanging rings 88, wherein the top of the processing frame 81 is fixedly connected with the outer side of the blanking groove 74 at the bottom of the supporting plate 71, three working grooves 82 are drilled through the side wall of one side of the processing frame 81, the sliding blocks 83 are fixedly connected with the bottom ends of the outer walls of the four sides of the processing frame 81, the processing frame 81 is slidably connected with the sliding grooves 86 drilled through the sliding blocks 83 of the outer walls of the four sides of the limiting frames 85, the hooks 84 are fixedly connected with the top ends of the outer walls of the front end and the rear end of the processing frame 81, the limiting cylinders 87 are fixedly connected with the top ends of the outer walls of the front side and the rear side of the limiting frame 85, and.

The side walls of one side of the three driven wheels 56 are respectively and fixedly connected with the side walls of one side of the three connecting blocks 61 far away from the fixing block 62.

Wherein, fixed block 62 is through No. two bolt 63 and connecting block 61 threaded connection, the equal fixedly connected with bearing in inside of connecting plate 65, and the inner ring inner wall of bearing and the outer wall fixed connection who corresponds axis of rotation 64, connecting plate 65 is through No. three bolt 66 and processing frame 81 threaded connection, two of top distance between the outer wall of one side that magnet roller 67 kept away from each other and the distance phase-match between the inner wall of both sides around processing frame 81, and two of top distance between the lateral wall of one side that magnet roller 67 is close to each other is less than the magnet roller 67 of below distance between the outer wall of both sides around, three magnet roller 67 passes three working groove 82 respectively and extends to processing frame 81 inside.

Wherein, the side wall of one side of the supporting plate 71 far away from the belt 55 is respectively fixedly connected with the inner side wall of the fixed mount 1, the bottom of each spring 77 is fixedly connected with the top of the supporting plate 71, the top of each spring 77 is respectively fixedly connected with the bottom of the stress plate 73, the screening frame 78 is positioned under the bottom of the funnel 4, the internal length and width of the bottom end of the funnel 4 is less than the internal length and width of the top end of the screening frame 78, the internal length and width of the screening frame 78 is less than the internal length and width of the material blocking frame 72, the internal length and width of the material blocking frame 72 is equal to the internal length and width of the processing frame 81, and the inner part of the material blocking frame 72 and the inner part of the processing frame 81 are positioned at the same plumb line position, the internal length and width of the processing frame 81 are less than the internal length and width of the limiting frame 85, and the external length and width of the limiting frame 85 are less than the external length and width of the material receiving box 3.

Two hanging rings 88 on the limiting cylinder 87 are respectively connected with two hooks 84 on the processing frame 81 in a clamping manner, the bottom of the limiting frame 85 is slidably inserted into the receiving box 3, the receiving box 3 is placed on the inner bottom wall of the fixing frame 1, and the distance between the bottom of the limiting frame 85 and the top of the receiving box 3 is matched with the distance between the bottom of the hook 84 and the top of the limiting cylinder 87.

The base 51 is in threaded connection with one side, far away from the funnel 4, of the top of the fixing frame 1 through a first bolt 53, and the vibration motor 710 is in threaded connection with the outer wall of one side of the screening frame 78 through a fourth bolt 711.

Specifically, the method comprises the following steps: as shown in fig. 1, through the operation of the motor 52 and the vibration motor 710, the vibration motor 710 drives the sieving frame 78 to vibrate, so that the sieving net 79 in the sieving frame 78 vibrates therewith, the motor 52 drives the three driven wheels 56 to rotate through the driving wheel 54 and the belt 55, and the three driven wheels 56 drive the three magnet rollers 67 to rotate through the three connecting blocks 61, the fixed block 62 and the rotating shaft 64, respectively; placing small particle powder into a funnel 4, enabling material products to enter a screening net 79 in a screening frame 78 through the bottom of the funnel 4, uniformly discharging the material products through the vibrating screening net 79, enabling the material products to fall into a processing frame 81 through a material blocking frame 72, performing iron removal through three rotating magnet rollers 67, enabling the iron-removed small particle powder to fall into a material receiving box 3 below through a limiting frame 85, and collecting the small particle powder through the material receiving box 3; after a period of work is finished, the three magnet rollers 67 need to be disassembled, when iron impurities adsorbed on the outer walls of the magnet rollers 67 are cleaned, the work of the motor 52 and the vibration motor 710 is stopped, the second bolts 63 on the three fixing blocks 62 are disassembled to separate the fixing blocks 62 from the connecting block 61, the third bolts 66 at the front end and the rear end of the three connecting plates 65 are disassembled to separate the three connecting plates 65 from the processing frame 81, the rotating shaft 64 is held, the connecting plates 65 and the three magnet rollers 67 positioned in the processing frame 81 are pulled out from the processing frame 81 through the working grooves 82, and then the cleaning work can be carried out on the outer walls of the three magnet rollers 67; when the material receiving box 3 is taken out, the two hanging rings 88 are pulled, the limiting frame 85 is enabled to ascend on the outer wall of the processing frame 81 through the sliding connection of the sliding block 83 and the sliding groove 86 until the two hanging rings 88 are hung in the two hooks 84, the limiting frame 85 is limited, and the material receiving box 3 can be taken out from the fixing frame 1.

While there have been shown and described what are at present considered to be the fundamental principles of the invention and its essential features and advantages, it will be understood by those skilled in the art that the invention is not limited by the embodiments described above, which are merely illustrative of the principles of the invention, but that various changes and modifications may be made therein without departing from the spirit and scope of the invention as defined by the appended claims and their equivalents.

Claims (6)

1. The deironing device of the flour mill for ceramic production is characterized by comprising a fixing frame (1), brake wheels (2) are fixedly connected to four corners of the bottom of the fixing frame (1), a funnel (4) is fixedly inserted into one side of the top of the fixing frame (1), one side, far away from the funnel (4), of the top of the fixing frame (1) is connected with a driving mechanism (5), one end, far away from the top of the fixing frame (1), of the driving mechanism (5) is connected with a deironing mechanism (6), one end, far away from the driving mechanism (5), of the deironing mechanism (6) is inserted into a blanking processing mechanism (8), and the upper end of the inner side wall of the fixing frame (1) is connected with;

the driving mechanism (5) comprises a base (51), a motor (52), a first bolt (53), a driving wheel (54), a belt (55) and driven wheels (56), the motor (52) is fixedly connected to the top of the base (51), the first bolt (53) is inserted into four corners of the base (51) in a threaded manner, the output end of the motor (52) is fixedly connected with the side wall of one side of the driving wheel (54), and the driving wheel (54) is in transmission connection with the three driven wheels (56) through the belt (55);

the iron removing mechanism (6) comprises a connecting block (61), a fixing block (62), a second bolt (63), a rotating shaft (64), a connecting plate (65), a third bolt (66) and a magnet roller (67), the three connecting blocks (61) are arranged, one side of each of the three connecting blocks (61) is provided with a fixing block (62), four corners of the side wall, far away from the connecting block (61), of each of the three fixing blocks (62) are provided with a second bolt (63) in an inserted mode, the middle of the side wall, far away from the connecting block (61), of each of the three fixing blocks (62) is fixedly connected with a rotating shaft (64), one end, far away from the fixing block (62), of each of the three rotating shafts (64) penetrates through three connecting plates (65) to be fixedly connected with one end of each of three magnet rollers (67), and the front end and the rear end, close to the side wall of the fixing block (62), of each of the;

the material shaking mechanism (7) comprises a supporting plate (71), a material blocking frame (72), a stress plate (73), a material discharging groove (74), an outer pipe (75), an inner rod (76), a spring (77), a screening frame (78), a screening net (79), a vibration motor (710) and a fourth bolt (711), wherein the stress plate (73) is arranged above the supporting plate (71), the supporting plate (71) and the stress plate (73) are both drilled with the material discharging groove (74), the supporting plate (71) is positioned on the inner wall of the material discharging groove (74) and fixedly connected with the outer wall of the bottom of the material blocking frame (72), the top of the material blocking frame (72) is fixedly connected with the outer side of the material discharging groove (74) at the bottom of the stress plate (73), the stress plate (73) is positioned on the inner wall of the material discharging groove (74) and fixedly connected with the outer wall of the bottom of the screening frame (78), and the screening net (79) is fixedly connected with the bottom end inside the screening frame (78), the outer wall of one side of the screening frame (78) is provided with a vibration motor (710), four corners of one end, close to the screening frame (78), of the vibration motor (710) are all provided with four bolts (711) in a threaded insertion mode, the top of the supporting plate (71) is located on the periphery of the material blocking frame (72) and fixedly connected with a plurality of outer pipes (75), an inner rod (76) is inserted into the inner part of one end, far away from the supporting plate (71), of each outer pipe (75) in a sliding mode, one end, far away from the supporting plate (71), of each inner rod (76) is fixedly connected to the top of the stress plate (73), and springs (77) are sleeved on the outer walls of the outer pipes (75) and the inner rods (;

the blanking processing mechanism (8) comprises a processing frame (81), working grooves (82), sliding blocks (83), hooks (84), limiting frames (85), sliding grooves (86), limiting cylinders (87) and hanging rings (88), wherein the top of the processing frame (81) is fixedly connected with the outer sides of the blanking grooves (74) at the bottom of a supporting plate (71), three working grooves (82) penetrate through the side wall of one side of the processing frame (81), the sliding blocks (83) are fixedly connected with the bottom ends of the outer walls of the four sides of the processing frame (81), the processing frame (81) is slidably connected with the sliding grooves (86) formed in the inner walls of the four sides of the limiting frame (85) through the sliding blocks (83) of the outer walls of the four sides, the hooks (84) are fixedly connected with the top ends of the outer walls of the front and rear ends of the processing frame (81), and the limiting cylinders (87) are fixedly connected with the top ends of the, hanging rings (88) are movably connected inside the two limiting cylinders (87).

2. The iron removing device of the mill for ceramic production according to claim 1, wherein: the side walls of one side of the three driven wheels (56) are respectively and fixedly connected with the side walls of one side of the three connecting blocks (61) far away from the fixing block (62).

3. The iron removing device of the mill for ceramic production according to claim 1, wherein: fixed block (62) are through No. two bolt (63) and connecting block (61) threaded connection, the equal fixedly connected with bearing in inside of connecting plate (65), and the inner ring inner wall of bearing and the outer wall fixed connection who corresponds axis of rotation (64), connecting plate (65) are through No. three bolt (66) and handle frame (81) threaded connection, two of top distance between the one side outer wall that magnet roller (67) kept away from each other and the distance phase-match between the frame (81) front and back both sides inner wall, and two of top distance between the one side lateral wall that magnet roller (67) are close to each other is less than the distance between the magnet roller (67) front and back both sides outer wall of below, and is three magnet roller (67) pass three working groove (82) respectively and extend to handle inside frame (81).

4. The iron removing device of the mill for ceramic production according to claim 1, wherein: the utility model discloses a screening frame, including backup pad (71), belt (55), screening frame (78), material stopping frame (72), material stopping frame (81), backup pad (71), support plate (77), support plate (71), the bottom of spring (77) all with backup pad (71) top fixed connection, every the top of spring (77) respectively with the bottom fixed connection of atress board (73), screening frame (78) is located under funnel (4) bottom, just the inside length and width of funnel (4) bottom is less than the inside length and width on screening frame (78) top, the inside length and width of screening frame (78) is less than the inside length and width of material stopping frame (72), the inside length and width of material stopping frame (72) equals the inside length and width of handling frame (81), just the inside of material stopping frame (72) is located same plumb line position with the inside of handling frame (81), the inside length and width of handling frame (81) is less than the inside length and width of spacing frame (85), the external length and width of the limiting frame (85) are smaller than those of the material receiving box (3).

5. The iron removing device of the mill for ceramic production according to claim 1, wherein: two link (88) on the spacing section of thick bamboo (87) respectively with handle two couples (84) joints on the frame (81), the inside of receiving workbin (3) is established to spacing frame (85) bottom slip insert, receive workbin (3) and place on the interior diapire of mount (1), just spacing frame (85) bottom to the distance of receiving workbin (3) between the top and couple (84) bottom to the distance phase-match between the spacing section of thick bamboo (87) top.

6. The iron removing device of the mill for ceramic production according to claim 1, wherein: the base (51) is in threaded connection with one side, away from the funnel (4), of the top of the fixing frame (1) through a first bolt (53), and the vibration motor (710) is in threaded connection with the outer wall of one side of the screening frame (78) through a fourth bolt (711).

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