CN219334549U - Deironing device for heavy calcium carbonate powder - Google Patents

Abstract

The utility model relates to the technical field of iron removal equipment, and discloses an iron removal device for heavy calcium carbonate powder, which comprises a rack, wherein the rack can support the iron removal device to a certain height; the conveying magnetic attraction mechanism is connected to the rack and can convey and deironing the heavy calcium carbonate powder; and the discharging mechanism is connected to the frame. This deironing device for heavy calcium carbonate powder, when using, the transmission that the mechanism was inhaled along with conveying magnetism to the conveying roller rotates, through the holding tank on the conveying roller with heavy calcium carbonate powder even carry on the conveyer belt that the mechanism was inhaled to conveying magnetism, prevent to be carried heavy calcium carbonate powder on the conveyer belt too thick and cause the influence to deironing effect, drive when the conveying roller rotates simultaneously and turn over the material subassembly and turn over the heavy calcium carbonate powder on the conveyer belt to the deironing effect of heavy calcium carbonate powder is strengthened.

Description

Deironing device for heavy calcium carbonate powder

Technical Field

The utility model relates to the technical field of iron removal equipment, in particular to an iron removal device for heavy calcium carbonate powder.

Background

Heavy calcium carbonate, abbreviated as heavy calcium carbonate, is ground by natural carbonate mineral such as calcite, marble, limestone and forms, and heavy calcium carbonate can mix a small amount of magnetism impurity easily when smashing in the production, just so need use deironing equipment to carry out deironing operation to the powder, current deironing mode is generally put the powder on a conveyer belt, drive the powder motion to the below of magnet, then adsorb magnetism impurity with magnetic force, thereby accomplish the process of deironing, however when placing the powder on the conveyer belt, the powder is piled up easily and is little mountain form, make the pile up of powder too thick, thereby lead to doping in the inside partial magnetism impurity of powder be difficult to be got rid of.

Disclosure of Invention

The utility model aims to provide an iron removing device for heavy calcium carbonate powder, which aims to solve the problems in the background technology.

The embodiment of the application adopts the following technical scheme:

an iron removing device for heavy calcium carbonate powder comprises a frame, wherein the frame can support the iron removing device to a certain height; the conveying magnetic attraction mechanism is connected to the rack and can convey and deironing the heavy calcium carbonate powder; the discharging mechanism is connected to the frame and can be used for classifying, conveying and collecting the heavy calcium carbonate powder and the magnetic impurities; the conveying mechanism is connected to the frame and comprises a conveying roller, a material turning component, a first transmission component and a second transmission component, wherein an accommodating groove is formed in the conveying roller, the accommodating groove can be filled with heavy calcium carbonate powder, the conveying roller is connected with the conveying magnetic mechanism through the first transmission component, the conveying roller can rotate along with the operation of the conveying magnetic mechanism, and the second transmission component is connected between the conveying roller and the material turning component and can drive the material turning component to rotate when the conveying roller rotates.

Preferably, the material conveying mechanism comprises a material conveying hopper, the material conveying roller is rotatably connected to the inner side of the material conveying hopper, and the material conveying hopper can be filled with heavy calcium carbonate powder.

Preferably, the turning assembly comprises a rotating part, the outer side of the rotating part is connected with a turning part, and the turning part can be rotated to drive the turning part to rotate, so that heavy calcium carbonate powder on the driven magnetic roller is turned.

Preferably, the material turning part is in a hook shape.

Preferably, the conveying magnetic attraction mechanism comprises a driving part, a driving roller and a driven magnetic roller, wherein a conveying belt is connected between the driving roller and the driven magnetic roller, and the driving part can drive the driving roller to rotate so as to drive the driving roller, the driven magnetic roller and the conveying belt to drive heavy calcium carbonate powder to move and remove iron.

Preferably, the discharging mechanism comprises a discharging channel and a collecting box, wherein the discharging channel can convey the heavy calcium carbonate powder after iron removal outwards, and the collecting box can collect magnetic impurities in the heavy calcium carbonate powder.

Preferably, the discharging channel comprises a discharging hopper, a middle section is arranged at the bottom of the discharging channel, and the right end of the middle section is connected with a discharging section.

Preferably, the middle section is inclined at the left high and right bottom, and the right half part of the middle section is trapezoid, so that the heavy calcium carbonate powder collected by the discharge hopper can be gathered and conveyed to the discharge section, and the discharge opening is reduced.

Preferably, the collecting box comprises a box body, the front side of the box body is rotationally connected with a rotating handle, the rear end of the rotating handle is connected with a baffle plate, and the rotating handle is screwed to drive the baffle plate to rotate, so that the collecting box is installed on the rack.

Preferably, the frame comprises a housing, and the housing is connected with a support leg, and the support leg can support the housing, so that the housing is positioned at a certain height.

The beneficial effects of the utility model are as follows:

when the device is used, the material conveying roller rotates along with the transmission of the magnetic transmission mechanism, the heavy calcium carbonate powder is uniformly conveyed to the transmission belt of the magnetic transmission mechanism through the accommodating groove on the material conveying roller, the heavy calcium carbonate powder conveyed to the transmission belt is prevented from being too thick to influence the iron removal effect, and meanwhile, the material conveying roller drives the material turning component to turn the heavy calcium carbonate powder on the transmission belt when rotating, so that the iron removal effect of the heavy calcium carbonate powder is enhanced.

Drawings

In order to more clearly illustrate the embodiments of the present utility model or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below. It will be apparent to those skilled in the art from this disclosure that the drawings described below are merely exemplary and that other embodiments may be derived from the drawings provided without undue effort.

The structures, proportions, sizes, etc. shown in the present specification are shown only for the purposes of illustration and description, and are not intended to limit the scope of the utility model, which is defined by the claims, so that any structural modifications, changes in proportions, or adjustments of sizes, which do not affect the efficacy or the achievement of the present utility model, should fall within the ambit of the technical disclosure.

FIG. 1 is a schematic perspective view of the present utility model;

FIG. 2 is a schematic perspective view of a front view of the present utility model;

FIG. 3 is a schematic perspective view of a magnetic force transmission mechanism and a material conveying mechanism according to the present utility model;

FIG. 4 is a schematic side perspective view of the magnetic force transmission mechanism and the material conveying mechanism of the present utility model;

FIG. 5 is a schematic view of the front view of the material turning assembly of the present utility model;

fig. 6 is a schematic side sectional structure of the collecting box of the present utility model.

In the figure: 1. a frame; 11. a housing; 12. a support leg; 2. a magnetic attraction transmission mechanism; 21. a driving section; 22. a drive roll; 23. driven magnetic force roller; 24. a conveyor belt; 3. a discharge mechanism; 31. a discharge channel; 311. a discharge hopper; 312. a middle section; 313. a discharging section; 32. a collection box; 321. a case body; 322. a handle; 323. a rotating handle; 324. a baffle; 4. a material conveying mechanism; 41. a feed hopper; 42. a feed roller; 421. a receiving groove; 43. a material turning component; 431. a rotating part; 432. a turning part; 44. a first transmission assembly; 441. a first driving wheel; 442. a first belt; 45. a second transmission assembly; 451. a second driving wheel; 452. and a second belt.

Detailed Description

The following describes the embodiments of the present utility model further with reference to the drawings.

As shown in fig. 1-6, an iron removing device for heavy calcium carbonate powder; including frame 1, frame 1 can support the deironing device to certain height, the mechanism 2 is inhaled to the conveying magnetism is installed to frame 1, conveying magnetism is inhaled mechanism 2 and is carried out heavy calcium carbonate powder, install discharge mechanism 3 on frame 1, discharge mechanism 3 includes discharge channel 31 and collection box 32, discharge channel 31 can outwards carry the heavy calcium carbonate powder after the deironing, collection box 32 can collect the magnetic impurity that adulterates in the heavy calcium carbonate powder, install feeding mechanism 4 on frame 1, feeding mechanism 4 includes conveying roller 42 and turn over material subassembly 43, the outside of conveying roller 42 is provided with holding tank 421, the holding tank 421 can be filled the heavy calcium carbonate powder, thereby conveying roller 42 can rotate and evenly carry the heavy calcium carbonate powder in the holding tank to on the conveying magnetism is inhaled mechanism 2, thereby prevent that heavy calcium carbonate powder from piling up too thick and causing the influence to the effect of deironing, turn over material subassembly 43 rotates along with the rotation of conveying roller 42, thereby carry out the heavy calcium carbonate powder to the effect of removing iron on the heavy calcium carbonate powder of conveying mechanism 2.

As shown in fig. 1, the rack 1 includes a housing 11, the housing 11 is fixedly provided with two, three, five or more than five legs 12, the number of the legs 12 is not limited herein, in this embodiment, the number of the legs 12 is four, the four legs 12 are respectively fixedly provided at two front ends and two rear ends of the housing 11, the legs 12 can support the housing 11, so that the housing 11 is fixed at a certain height, thereby facilitating the iron removal operation of the iron removal device.

As shown in fig. 1-3, the conveying magnetic attraction mechanism 2 comprises a driving roller 22 rotatably connected to the left end of the inner side of the shell 11 and a driven magnetic roller 23 rotatably connected to the right end of the inner side of the shell 11, a conveying belt 24 is in transmission connection between the driving roller 22 and the driven magnetic roller 23, a driving part 21 is arranged at the left end of the front side of the shell 11, the driving part 21 is a motor, the driving part 21 is connected with the driving roller 22, the driving part 21 can drive the driving roller 22, the driven magnetic roller 23 and the conveying belt 24, the conveying belt 24 can convey the heavy calcium carbonate powder to the right, and the powder on the heavy calcium carbonate powder can be adsorbed and fixed on the conveying belt 24 when approaching the driven magnetic roller 23, so that iron removal of the heavy calcium carbonate powder is realized.

As shown in fig. 1, 2 and 6, the discharging mechanism 3 includes a discharging passage 31 and a collecting box 32, the discharging passage 31 is fixedly installed on the bottom right end of the housing 11, the collecting box 32 is installed on the front right end of the housing 11, and the collecting box 32 is located at the left of the discharging passage 31, the discharging passage 31 can convey the heavy calcium carbonate powder after iron removal to the outside, and the collecting box 32 can collect magnetic impurities in the heavy calcium carbonate powder, thereby realizing separation of the heavy calcium carbonate powder and the magnetic impurities.

With continued reference to fig. 1, 2 and 6, the discharge channel 31 includes a discharge hopper 311 mounted inside the housing 11, the discharge hopper 311 is located at a position on the right side below the driven magnetic roller 23, the discharge hopper 311 can collect heavy calcium carbonate powder falling from the conveyor belt 24, a middle section 312 is fixed at the bottom of the discharge channel 31, the middle section 312 is inclined from the left to the right, the right half of the middle section 312 is trapezoid, a discharge section 313 is fixed at the right end of the middle section 312, the middle section 312 can collect and convey the heavy calcium carbonate powder collected by the discharge hopper 311 to the discharge section 313, and a discharge port is reduced, so that the heavy calcium carbonate powder is collected and stored.

With continued reference to fig. 1, 2 and 6, the collecting box 32 includes a box body 321 inserted in the left end of the front side of the housing 11, a handle 322 is fixedly installed in the middle of the front side of the box body 321, a rotating handle 323 is rotatably connected to the front side of the box body 321, the rear end of the rotating handle 323 extends into the inner side of the box body 321 and is fixedly provided with a baffle 324, after the box body 321 is inserted into the housing 11, the baffle 324 can be contacted with the front side of the inner wall of the housing 11 by twisting the rotating handle 323, so that the collecting box 32 is fixedly installed on the housing 11, and the collecting box 32 is prevented from moving due to vibration of the housing 11.

As shown in fig. 1-5, the feeding mechanism 4 includes a feeding hopper 41 fixedly connected to the left end of the top of the housing 11, the inner side of the feeding hopper 41 is rotatably connected with a feeding roller 42, the front and rear sides of the feeding roller 42 are respectively in contact with the front side and the rear side of the inner wall of the feeding hopper 41, the outer circumferential surface of the feeding roller 42 is in contact with the left and right sides of the inner wall of the feeding hopper 41, so that the space inside the feeding hopper 41 located at the upper part and the lower part of the feeding roller 42 is separated, so that heavy calcium carbonate powder is conveniently and uniformly fed into the receiving groove 421, the front and rear ends of the feeding roller 42 penetrate through the front side and the rear side of the feeding hopper 41 respectively, the outer side of the feeding roller 42 is provided with receiving grooves 421, and the number of one, two, three, four, five, seven or more than seven receiving grooves 421 are not limited, in this embodiment, the number of receiving grooves 421 is six, after heavy calcium carbonate powder is fed into the feeding hopper 41, so that the receiving grooves 421 are separated, so that the space inside the feeding hopper 41, so that heavy calcium carbonate powder is filled into the receiving grooves 421, so that the receiving grooves 421 can be uniformly fed into the receiving grooves, and the receiving grooves 24, and the heavy calcium carbonate powder can be prevented from being influenced by the heavy calcium carbonate powder feeding belt 24, and the heavy calcium carbonate powder can be brought into the conveying belt 24.

With continued reference to fig. 1-5, the feeding mechanism 4 further includes a turning component 43 rotatably connected to the right end of the inner side of the housing 11, where the turning component 43 includes a rotating portion 431, the rotating portion 431 is rotatably connected to the right end of the inner side of the housing 11, the front end of the rotating portion 431 extends out of the front side of the housing 11, and the rotating portion 431 is located above the driven magnetic roller 23, a turning portion 432 is fixedly mounted on the outer side of the rotating portion 431, the turning portion 432 is in a hook shape, and a certain gap is provided between the turning portion 432 and the conveyor belt 24, and the number of the turning portions 432 may be one, three, four or more than four, where the number of the turning portions 432 is not limited, in this embodiment, the turning portion 432 is two, and the turning component 43 rotates along with the rotation of the feeding roller 42, so as to turn heavy calcium carbonate powder on the conveyor belt 24, so as to enhance the iron removing effect of the heavy calcium carbonate powder.

With continued reference to fig. 1-5, a first transmission assembly 44 is connected between the material conveying roller 42 and the driving roller 22, the first transmission assembly 44 includes two first transmission wheels 441 respectively installed at the rear ends of the material conveying roller 42 and the driving roller 22, a first transmission belt 442 is connected between the two first transmission wheels 441, the material conveying roller 42 can be driven to rotate when the driving roller 22 rotates, a second transmission assembly 45 is connected between the material conveying roller 42 and the rotating part 431, the second transmission assembly 45 includes a second transmission wheel 451 respectively installed at the front ends of the material conveying roller 42 and the rotating part 431, a second transmission belt 452 is connected between the two second transmission wheels 451, and the rotating part 431 on the material turning assembly 43 can be driven to rotate when the material conveying roller 42 rotates, so that the material conveying mechanism 4 does not need to be driven by another electrical component, and the cost is saved.

Working principle: when the magnetic powder transfer device is used, the driving part 21 drives the driving roller 22, the driven magnetic roller 23 and the conveyor belt 24 to drive the conveying roller 42 to rotate through the first transmission component 44, the heavy calcium carbonate powder is conveyed to the inside of the conveying hopper 41, part of the heavy calcium carbonate powder is filled into the accommodating groove 421 on the conveying roller 42, the heavy calcium carbonate powder in the accommodating groove 421 is uniformly conveyed to the conveyor belt 24 on the conveying magnetic attraction mechanism 2 along with the rotation of the conveying roller 42, the heavy calcium carbonate powder is conveyed to the right through the conveyor belt 24, the second transmission component 45 drives the stirring component 43 to rotate when the conveying roller 42 rotates, the heavy calcium carbonate powder is magnetically attracted to the conveyor belt 24 through the driven magnetic roller 23 after reaching a certain position, when the heavy calcium carbonate powder moves to the position below the stirring component 43, the heavy calcium carbonate powder is turned over through the stirring component 43, the magnetic impurities doped in the heavy calcium carbonate powder can be better attracted to the conveyor belt 24 on the uniform speed, the magnetic impurities can gradually disappear from the magnetic impurities in the conveyor belt 24 to the right through the magnetic impurities, the magnetic impurities can gradually disappear from the magnetic impurities can be gradually removed from the conveyor belt 24 to the magnetic impurities collecting channel 31, and the magnetic impurities can gradually disappear from the magnetic impurities can gradually fall from the conveyor belt 32 to the inner side of the conveyor belt 32, and the magnetic impurities can gradually disappear from the magnetic impurities can be gradually removed from the magnetic impurities can be absorbed by the magnetic impurities.

Claims (10)

1. An iron removal device for heavy calcium carbonate powder, characterized by comprising:

the iron removing device comprises a frame (1), wherein the frame (1) can support the iron removing device to a certain height;

the conveying magnetic attraction mechanism (2) is connected to the frame (1), and the conveying magnetic attraction mechanism (2) can convey and remove iron from heavy calcium carbonate powder;

the discharging mechanism (3) is connected to the frame (1), and the discharging mechanism (3) can be used for classifying and conveying and collecting the heavy calcium carbonate powder and the magnetic impurities;

the conveying mechanism (4) is connected to the frame (1), the conveying mechanism (4) comprises a conveying roller (42), a stirring assembly (43), a first transmission assembly (44) and a second transmission assembly (45), a containing groove (421) is formed in the conveying roller (42), the containing groove (421) can be filled with heavy calcium carbonate powder, the conveying roller (42) is connected with the conveying magnetic attraction mechanism (2) through the first transmission assembly (44), the conveying roller (42) can rotate along with the operation of the conveying magnetic attraction mechanism (2), a second transmission assembly (45) is connected between the conveying roller (42) and the stirring assembly (43), and the stirring assembly (43) is driven to rotate when the conveying roller (42) rotates by the second transmission assembly (45).

2. The iron removing device for heavy calcium carbonate powder according to claim 1, wherein: the conveying mechanism (4) comprises a conveying hopper (41), the conveying roller (42) is rotatably connected to the inner side of the conveying hopper (41), and the conveying hopper (41) can be filled with heavy calcium carbonate powder.

3. The iron removing device for heavy calcium carbonate powder according to claim 1, wherein: the turning component (43) comprises a rotating part (431), the outer side of the rotating part (431) is connected with a turning part (432), and the rotating part (431) can rotate to drive the turning part (432) to rotate, so that heavy calcium carbonate powder on the driven magnetic roller (23) is turned.

4. The iron removing device for heavy calcium carbonate powder according to claim 3, wherein: the material turning part (432) is in a hook shape.

5. The iron removing device for heavy calcium carbonate powder according to claim 1, wherein: the conveying magnetic attraction mechanism (2) comprises a driving part (21), a driving roller (22) and a driven magnetic roller (23), a conveying belt (24) is connected between the driving roller (22) and the driven magnetic roller (23), and the driving part (21) can drive the driving roller (22) to rotate so as to drive transmission among the driving roller (22), the driven magnetic roller (23) and the conveying belt (24), so that heavy calcium carbonate powder is driven to move and deironing is achieved.

6. The iron removing device for heavy calcium carbonate powder according to claim 1, wherein: the discharging mechanism (3) comprises a discharging channel (31) and a collecting box (32), wherein the discharging channel (31) can convey the heavy calcium carbonate powder after iron removal outwards, and the collecting box (32) can collect magnetic impurities in the heavy calcium carbonate powder.

7. The iron removing device for heavy calcium carbonate powder according to claim 6, wherein: the discharging channel (31) comprises a discharging hopper (311), a middle section (312) is arranged at the bottom of the discharging channel (31), and the right end of the middle section (312) is connected with a discharging section (313).

8. The iron removing device for heavy calcium carbonate powder according to claim 7, wherein: the middle section (312) is inclined at the left high bottom and the right bottom, and the right half part of the middle section (312) is trapezoid, so that heavy calcium carbonate powder collected by the discharge hopper (311) can be gathered and conveyed to the discharge section (313), and the discharge opening is reduced.

9. The iron removing device for heavy calcium carbonate powder according to claim 6, wherein: the collecting box (32) comprises a box body (321), a rotating handle (323) is rotatably connected to the front side of the box body (321), a baffle (324) is connected to the rear end of the rotating handle (323), and the baffle (324) can be driven to rotate by screwing the rotating handle (323), so that the collecting box (32) is mounted on the frame (1).

10. The iron removing device for heavy calcium carbonate powder according to any one of claims 1 to 9, wherein: the frame (1) comprises a shell (11), wherein the upper part of the shell (11) is connected with a supporting leg (12), and the supporting leg (12) can support the shell (11) so that the shell (11) is positioned at a certain height.

Images