CN114802835A

CN114802835A - Wet fluorite concentrate packing apparatus of fine grit

Info

Publication number: CN114802835A
Application number: CN202210498752.XA
Authority: CN
Inventors: 谭源龙; 张永忠; 王舰
Original assignee: Hunan Nonferrous Chenzhou Fluorde Chemical Co ltd
Current assignee: Hunan Nonferrous Chenzhou Fluorde Chemical Co ltd
Priority date: 2022-05-09
Filing date: 2022-05-09
Publication date: 2022-07-29
Anticipated expiration: 2042-05-09
Also published as: CN114802835B

Abstract

The invention discloses a packing device for fine-grained wet fluorite concentrate, belonging to the technical field of fluorite processing, comprising: the feeding hopper is hung on the feeding bracket; the feeding bin is arranged below the feeding hopper; the blanking controller is arranged on one side of the feeding bin, and the movable end of the blanking controller is positioned in the feeding bin; the conveying starting end of the belt conveyor is arranged below the feeding bin; the packing bin is arranged below the conveying tail end of the belt conveyor; the ton packaging bag is arranged below the packaging bin, and the opening of the ton packaging bag is upward; packing conveyor components, inside demountable installation has ton wrapping bag. This wet fluorite concentrate packing apparatus of fine grit has satisfied the demand of quick packing, has solved that intensity of labour is big, equipment damages seriously, efficiency is not high, the problem that the potential safety hazard is big, has improved economic value.

Description

Wet fluorite concentrate packing apparatus of fine grit

Technical Field

The invention relates to the technical field of fluorite processing, in particular to a fine-grained wet fluorite concentrate packaging device.

Background

The fine material degree apparent fluorite fine powder refers to wet fluorite powder with the water content of 12 percent and the mesh number of about 400 to 800. The material has very fine granularity and large specific surface area, so the material has very high viscosity, and the material can be piled into a vertical plane (the repose angle is 90 degrees) even when the material is loose. When it is compacted, its viscosity is several times higher, so that it can form arch-like structure which can not be broken. At present, no successful case for realizing automatic feeding and packaging of fluorite fine powder exists. When the wet fluorite fine powder is dried and fed, the wet fluorite fine powder is discharged onto a dense steel grid by hoisting ton bags for unpacking, and then is manually poked downwards a little by a little, and is conveyed into a dryer by a belt or a screw; the packaging of the wet fluorite fine powder is realized by that the grab bucket is opened and closed at a small angle continuously on the packaging hopper after the materials are grabbed by the grab bucket of the travelling crane, and the materials are shaken off to the packaging hopper a little by a little and then are conveyed and packaged by the belt conveyor. The two methods have the common point that a large amount of materials fall into the hopper at one time, and the wet fluorite powder is not pressed or conveying equipment is pressed to be dead due to the gravity action. The two feeding modes have high labor intensity, serious equipment damage, time and labor waste, extremely low efficiency and great potential safety hazard.

Disclosure of Invention

The invention provides the following technical scheme:

a fine grit wet fluorite concentrate baling apparatus, comprising:

the feeding hopper is hung on the feeding bracket;

the feeding bin is arranged below the feeding hopper;

the blanking controller is arranged on one side of the feeding bin, and the movable end of the blanking controller is positioned in the feeding bin;

the conveying starting end of the belt conveyor is arranged below the feeding bin;

the packing bin is arranged below the conveying tail end of the belt conveyor;

the ton packaging bag is arranged below the packaging bin, and the opening of the ton packaging bag is upward;

packing conveyor components, inside demountable installation has ton wrapping bag.

As a preferred scheme of the fine-grained wet fluorite concentrate baling apparatus of the present invention, wherein:

band conveyer includes first driving motor, first rotation axis is installed to first driving motor's output, first rotation axis runs through the variable speed subassembly, the output of variable speed subassembly is connected with belt conveyor parts.

the speed change assembly comprises a speed change box body, a first speed change gear, a second speed change gear, a first transmission belt, a second transmission wheel and a transmission turntable, wherein the first speed change gear, the second speed change gear, the first transmission belt, the second transmission wheel and the transmission turntable are arranged in the speed change box body, the first speed change gear is arranged on a first rotating shaft, one side of the first speed change gear is movably connected with the second speed change gear, the second speed change gear is arranged at the lower part of the second rotating shaft, the second rotating shaft is movably connected in the speed change box body, the upper part of the second rotating shaft is provided with the first transmission wheel, the first transmission wheel is connected with the second transmission wheel through the first transmission belt, the second transmission wheel is arranged at the upper part of a third rotating shaft, the third rotating shaft is movably connected in the speed change box body, and the lower part of the third rotating shaft is provided with the drive turntable, one side swing joint of drive carousel has the transmission carousel, the transmission carousel is installed on the fourth rotation axis, the one end of fourth rotation axis is run through the gearbox and is connected with belt conveyor parts.

the speed sensor and the first alarm are both installed on one side of the interior of the gearbox body, a third rotating shaft is arranged in the sensing end of the speed sensor, and the speed sensor is electrically connected with the first alarm.

As a preferable scheme of the fine-grained wet fluorite concentrate packing apparatus of the present invention, wherein:

the ratio of diameter of first change gear and second change gear is 2:1, the ratio of diameter of first drive wheel and second drive wheel is 2:1, the one end of drive carousel is provided with fan-shaped arch, and the drive carousel all sets up circular recess with fan-shaped bellied both sides junction, five trapezoidal bellyings are installed to the equidistance on the drive carousel, and the outside of trapezoidal bellyings sets up the cambered surface of indent, the trapezoidal bellyings cambered surface of drive carousel matches with the cambered surface of drive carousel, the clearance between two trapezoidal bellyings of drive carousel and the fan-shaped protruding width phase-match of drive carousel.

the utility model discloses a packing feed bin, including packing feed bin, second driving motor, anti-blocking component, grinding component, packing feed bin, second driving motor is installed to one side of packing feed bin, second driving motor's output penetrates inside anti-blocking component, anti-blocking component is located the inside upper portion of packing feed bin, anti-blocking component's bottom is connected with grinding component, grinding component is located the inside lower part of packing feed bin.

prevent stifled subassembly including preventing stifled installing frame, first drive wheel, first driving band, second drive wheel, drive shaft and prevent stifled movable rod, prevent stifled installing frame and install on the packing feed bin, and prevent that the one end of stifled installing frame runs through inside the packing feed bin, the inside of preventing stifled installing frame is provided with first drive wheel, first drive wheel is installed on second driving motor's output, first drive wheel is connected with the second drive wheel through first driving band, the center department of second drive wheel installs the drive shaft, the upper portion and the lower part of drive shaft all run through to prevent stifled installing frame outside, and the upper portion bilateral symmetry of drive shaft installs eight and prevent the movable rod, eight prevent stifled movable rod from the bottom up in the drive shaft extension step by step.

the grinding assembly comprises a large grinding roller, a grinding mounting frame, a driving gear, a transmission rod, a third transmission wheel, a third transmission belt, a small grinding roller and a bearing, the large grinding roller is mounted at the lower part of a driving shaft, the grinding mounting frame is positioned below the large grinding roller, the bottom end of the driving shaft is movably connected with the inner bottom end of the grinding mounting frame through the bearing, the driving gear is mounted at the bottom of the driving shaft and is positioned inside the grinding mounting frame, six transmission gears are movably connected with the driving gear in an equidistant mode and are respectively mounted at the lower parts of six transmission rods, the third transmission wheel is mounted at the upper parts of the six transmission rods, the six transmission rods are movably connected inside the grinding mounting frame, and the six third transmission wheels are respectively connected with the top parts of the six small grinding rollers through six third transmission belts, six the annular swing joint of little grinding roller equidistance is in six recesses of seting up on grinding the installing frame lateral wall.

the packaging and conveying assembly comprises a cabinet body, a loading plate, a second alarm, a bottom plate and handrails, wherein the cabinet body is located below a packaging bin, the loading plate is arranged inside the cabinet body, pulleys are mounted at four corners of the bottom of the loading plate, the cabinet body is movably connected to the bottoms of the four pulleys, loading plate handles are mounted on two sides of the front end of the loading plate, a weighing sensor is mounted at the center of the top end of the loading plate, the weighing sensor is electrically connected with the second alarm, the second alarm is mounted on one side of the outside of the cabinet body, the bottom plate is mounted at the bottom end of the cabinet body, and four wheels are mounted on two sides of the front end and the rear end of the bottom plate.

As a preferred scheme of the fine-grained wet fluorite concentrate baling apparatus of the present invention, wherein: all install the hinge that resets in the middle of the four lateral walls upper portion of the cabinet body, the buckle is installed to the movable part of hinge that resets, the cabinet body is connected with ton wrapping bag through the buckle, the cabinet door is installed to the front wall of the cabinet body, cabinet door handle is installed on the front wall upper portion of cabinet door.

Compared with the prior art:

1. the feeding bin can be filled with materials at one time without pressing the conveying belt and the bin;

2. the problem of artifical material poking or grab bucket frequently open and shut slowly tremble the blanking at feed bin top is solved. Therefore, the problems of high labor intensity, serious equipment damage, time and labor waste, extremely low efficiency and great potential safety hazard are solved;

3. the requirement of quick packing is met, the time for packing a ton of bags is about 12 seconds, and the packing amount of 500 tons can be finished every day;

this wet fluorite concentrate packing apparatus of fine grit has satisfied the demand of quick packing, has solved that intensity of labour is big, equipment damages seriously, efficiency is not high, the problem that the potential safety hazard is big, has improved economic value.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the present invention will be described in detail with reference to the accompanying drawings and detailed embodiments, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings without inventive exercise. Wherein:

FIG. 1 is a front view of the present invention;

FIG. 2 is a top view of the belt conveyor of the present invention;

FIG. 3 is a cross-sectional view of the shift assembly of the present invention;

FIG. 4 is a top view of the drive and drive turrets of the present invention;

figure 5 is a cross-sectional view of the baling bin of the present invention;

FIG. 6 is an enlarged view taken at A of FIG. 5 in accordance with the present invention;

FIG. 7 is a top plan view of the drive gear and the transfer gear of the present invention;

FIG. 8 is a cross-sectional view of the package transport assembly of the present invention;

fig. 9 is a front view of the package transport assembly of the present invention.

In the figure: 100 feed hoppers, 200 feed bins, 300 blanking controllers, 400 belt conveyors, 410 first drive motors, 411 first rotating shafts, 420 speed changing assemblies, 421 gearbox bodies, 421a rotating speed sensor, 421b first alarm, 422 first speed changing gears, 423 second speed changing gears, 423a second rotating shafts, 423b first transmission wheels, 424 first transmission belts, 425 second transmission wheels, 425a third rotating shafts, 425b drive turntables, 426a fourth rotating shafts, 430 belt conveying parts, 500 packing bins, 510 second drive motors, 520 anti-blocking assemblies, 521 anti-blocking mounting frames, 522 first drive wheels, 523 first drive belts, 524 second drive wheels, 525 drive shafts, 526 anti-blocking movable rods, 530 grinding assemblies, 531 large grinding rollers, 532 grinding mounting frames, 533 drive gears, 534 drive gears, 535, 536 third transmission wheels, 537 third transmission belts, 538 small grinding rollers, 539 bearings, 600 ton packaging bags, 700 packaging and conveying assemblies, 710 cabinets, 711 reset hinges, 712 buckles, 713 cabinet doors, 714 cabinet door handles, 720 bearing plates, 721 pulleys, 722 bearing plate handles, 723 weighing sensors, 730 second alarms, 740 bottom plates and 741 wheels.

Detailed Description

The present invention will be described in detail with reference to the following embodiments in order to make the aforementioned objects, features and advantages of the invention more comprehensible.

In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention, but the present invention may be practiced in other ways than those specifically described herein, and it will be apparent to those of ordinary skill in the art that the present invention may be practiced without departing from the spirit and scope of the present invention, and therefore the present invention is not limited to the specific embodiments disclosed below.

In order to make the objects, technical solutions and advantages of the present invention more apparent, embodiments of the present invention will be described in further detail below.

Fig. 1-9 show that the fine-grained wet fluorite concentrate packing device meets the requirement of rapid packing, solves the problems of high labor intensity, serious equipment damage, low efficiency and large potential safety hazard, and improves the economic value;

example 1

A feed hopper 100 suspended from the feed support;

a feeding bin 200 disposed below the feeding hopper 100;

the blanking controller 300 is installed at one side of the feeding bin 200, and the movable end of the blanking controller 300 is located inside the feeding bin 200;

the belt conveyor 400 is provided with a conveying starting end below the feeding bin 200;

a packing bin 500 disposed below the conveying end of the belt conveyor 400;

the ton packaging bag 600 is arranged below the packaging bin 500, and the opening of the ton packaging bag is upward;

the packaging and conveying assembly 700 is internally provided with ton packaging bags 600 in a detachable mode;

the feeding hopper 100 is used for pouring a large amount of fluorite fine powder into the feeding bin 200, the feeding bin 200 is used for temporarily storing the fluorite fine powder and guiding the fluorite fine powder onto the belt conveyor 400, the blanking controller 300 is used for controlling the speed and the quantity of blanking to enable the fluorite fine powder to slowly fall onto the belt conveyor 400 at a constant speed, the belt conveyor 400 is used for conveying the fluorite fine powder into the packing bin 500, the packing bin 500 is used for guiding the fluorite fine powder into the ton packing bag 600 for packing, the ton packing bag 600 is used for packing the fluorite fine powder, and the packing and conveying assembly 700 is used for conveying the packed ton packing bag 600 to other positions and facilitating the replacement of the ton packing bag 600;

during specific use, pour fluorite refined powder into downwards in the feed bin 200 through feed hopper 100, the speed of blanking controller 300 control blanking in the feed bin 200, make falling into on band conveyer 400 of a large amount of fluorite refined powder can slow uniform velocity, and carry in packing feed bin 500 through band conveyer 400, carry the fluorite refined powder to ton wrapping bag 600 through packing feed bin 500, after ton wrapping bag 600 is filled with, change ton wrapping bag 600 through packing conveying assembly 700, accomplish the packing.

Example 2

The belt conveyor 400 comprises a first driving motor 410, wherein a first rotating shaft 411 is embedded and connected to an output end of the first driving motor 410, the first rotating shaft 411 penetrates through a speed change assembly 420, and a belt conveying part 430 is connected to an output end of the speed change assembly 420;

the speed changing assembly 420 comprises a speed changing box 421, a first speed changing gear 422, a second speed changing gear 423, a first transmission belt 424, a second transmission wheel 425 and a transmission rotary table 426, wherein the speed changing box 421 is internally provided with the first speed changing gear 422, the second speed changing gear 423, the first transmission belt 424, the second transmission wheel 425 and the transmission rotary table 426, the first speed changing gear 422 is embedded and connected on the first rotary shaft 411, one side of the first speed changing gear 422 is engaged and connected with the second speed changing gear 423, the second speed changing gear 423 is embedded and connected on the lower part of the second rotary shaft 423a, the second rotary shaft 423a is rotatably connected in the speed changing box 421, the upper part of the second rotary shaft 423a is embedded and connected with the first transmission wheel 423b, the first transmission wheel 423b is connected with the second transmission wheel 425 through the first transmission belt 424, and the second transmission wheel 425 is embedded and connected on the upper part of the third rotary shaft 425a, the third rotating shaft 425a is rotatably connected in the transmission case 421, a driving turntable 425b is embedded and connected to the lower part of the third rotating shaft 425a, one side of the driving turntable 425b is engaged and connected with a transmission turntable 426, the transmission turntable 426 is embedded and connected to a fourth rotating shaft 426a, and one end of the fourth rotating shaft 426a penetrates through the transmission case 421 and is embedded and connected with a belt conveying component 430;

the rotating speed sensor 421a and the first alarm 421b are both connected to one side of the inside of the gearbox body 421 through bolts, a third rotating shaft 425a is arranged in a sensing end of the rotating speed sensor 421a, and the rotating speed sensor 421a is electrically connected with the first alarm 421 b;

the diameter ratio of the first speed changing gear 422 to the second speed changing gear 423 is 2:1, the diameter ratio of the first driving wheel 423b to the second driving wheel 425 is 2:1, a fan-shaped protrusion is arranged at one end of the driving turntable 425b, circular grooves are formed in the connecting positions of the driving turntable 425b and the two sides of the fan-shaped protrusion, five trapezoidal protrusions are equidistantly mounted on the driving turntable 426, the outer sides of the trapezoidal protrusions are arranged to be concave arc surfaces, the arc surfaces of the trapezoidal protrusions of the driving turntable 426 are matched with the arc surfaces of the driving turntable 425b, and the gap between the two trapezoidal protrusions of the driving turntable 426 is matched with the width of the fan-shaped protrusion of the driving turntable 425 b;

the first driving motor 410 is used for driving the first rotating shaft 411 to rotate, the first rotating shaft 411 is used for driving the first change gear 422 in the speed changing assembly 420 to rotate, the belt conveying component 430 is used for driving the speed changing assembly 420 to rotate so as to convey fluorite fine powder, the gearbox 421 is used for accommodating other internal components, the first change gear 422 is used for driving the second change gear 423 to rotate, the second change gear 423 is used for driving the second rotating shaft 423a to rotate, the second rotating shaft 423a is used for driving the first driving wheel 423b to rotate, the first driving wheel 423b is used for driving the first driving belt 424 to rotate, the first driving belt 424 is used for driving the second driving wheel 425 to rotate, the second driving wheel 425 is used for driving the third rotating shaft 425a to rotate, the third rotating shaft 425a is used for driving the driving rotating disc 425b to rotate, the driving rotating disc 425b is used for driving the driving rotating disc 426 to rotate, the driving rotating disc 426 is used for driving the fourth rotating shaft 426a to intermittently rotate, the rotating speed sensor 421a is used for sensing the rotating speed of the third rotating shaft 425a, and when the third rotating shaft 425a stops rotating, the rotating speed sensor sends information to the first alarm 421b in time, and the first alarm 421b is used for reminding surrounding personnel to perform inspection and maintenance;

when the device is used specifically, the first driving motor 410 drives the first rotating shaft 411, the first rotating shaft 411 drives the first speed changing gear 422, the first speed changing gear 422 drives the second speed changing gear 423, the second speed changing gear 423 drives the second rotating shaft 423a, the second rotating shaft 423a drives the first transmission wheel 423b, the first transmission wheel 423b drives the second transmission wheel 425 through the first transmission belt 424, the second transmission wheel 425 drives the driving turntable 425b through the third rotating shaft 425a, the driving turntable 425b drives the driving turntable 426 to rotate, and because the arcuate surfaces of the drive disks 425b match the concave arcuate surfaces of the bumps on the drive disks 426, so that each time the driving turntable 425b rotates one circle, the driving turntable 426 is driven to rotate 1/5 circles after the rest, thereby rotating the fourth rotating shaft 426a, so that the belt conveying member 430 can rotate slowly and convey the fluorite fine powder intermittently at regular time.

Example 3

A second driving motor 510 is installed at one side of the packing bin 500, an output end of the second driving motor 510 penetrates into an anti-blocking assembly 520, the anti-blocking assembly 520 is located at the upper part of the interior of the packing bin 500, a grinding assembly 530 is connected to the bottom end of the anti-blocking assembly 520, and the grinding assembly 530 is located at the lower part of the interior of the packing bin 500;

the anti-blocking assembly 520 comprises an anti-blocking mounting frame 521, a first driving wheel 522, a first driving belt 523, a second driving wheel 524, a driving shaft 525 and an anti-blocking movable rod 526, wherein the anti-blocking mounting frame 521 is connected to the packing bin 500 through bolts, one end of the anti-blocking mounting frame 521 penetrates into the packing bin 500, a first driving wheel 522 is arranged inside the anti-blocking mounting frame 521, the first driving wheel 522 is inserted into and connected to an output end of the second driving motor 510, the first driving wheel 522 is connected to a second driving wheel 524 by a first driving belt 523, a driving shaft 525 is embedded and connected at the center of the second driving wheel 524, the upper part and the lower part of the driving shaft 525 penetrate through the anti-blocking mounting frame 521, the two sides of the upper part of the driving shaft 525 are symmetrically connected with eight anti-blocking movable rods 526 through bolts, and the eight anti-blocking movable rods 526 on the driving shaft 525 are gradually extended from bottom to top;

the grinding assembly 530 comprises a large grinding roller 531, a grinding installation frame 532, a driving gear 533, a transmission gear 534, a transmission rod 535, a third transmission wheel 536, a third transmission belt 537, a small grinding roller 538 and a bearing 539, wherein the large grinding roller 531 is embedded and connected at the lower part of the driving shaft 525, the grinding installation frame 532 is positioned below the large grinding roller 531, the bottom end of the driving shaft 525 is rotatably connected with the inner bottom end of the grinding installation frame 532 through the bearing 539, the bottom of the driving shaft 525 is embedded and connected with the driving gear 533, the driving gear 533 is positioned inside the grinding installation frame 532, the driving gear 533 is in equidistant annular meshing connection with six transmission gears 534, the six transmission gears 534 are respectively embedded and connected at the lower parts of six transmission rods 535, the upper parts of the six transmission rods 535 are all embedded and connected with the third transmission wheel 536, and the six transmission rods 535 are all rotatably connected inside the grinding installation frame 532, the six third driving wheels 536 are respectively connected with the tops of six small grinding rollers 538 through six third driving belts 537, and the six small grinding rollers 538 are connected in six grooves formed in the side wall of the grinding mounting frame 532 in an equidistant annular manner;

the second driving motor 510 is used for driving the anti-blocking component 520 and the grinding component 530 to work, the anti-blocking mounting frame 521 is used for mounting other internal components, the first driving wheel 522 is used for driving the first driving belt 523 to rotate along with the rotation of the second driving motor 510, the first driving belt 523 is used for driving the second driving wheel 524 to rotate, the second driving wheel 524 is used for driving the driving shaft 525 to rotate, the driving shaft 525 is used for driving the anti-blocking movable rod 526 to rotate, the anti-blocking movable rod 526 is used for preventing the packing bin 500 from being blocked when introducing fluorite fine powder, the large grinding roller 531 is used for providing a grinding function to prevent the fluorite fine powder with overlarge particles or conglomeration from entering the ton packing bag 600, the grinding mounting frame 532 is used for accommodating internal devices, the driving gear 533 is used for driving the driving gear 534 to rotate along with the rotation of the driving shaft 525, the driving gear 534 is used for driving the driving gear 535 to rotate, the driving gear 535 is used for driving the third driving gear 536 to rotate, the third transmission wheel 536 is used for driving a third transmission belt 537 to rotate, the third transmission belt 537 is used for driving a small grinding roller 538 to rotate, and the small grinding roller 538 is used for providing a grinding function and is matched with the large grinding roller 531;

when the packaging material box is used specifically, the second driving motor 510 drives the first driving wheel 522 to rotate, the first driving wheel 522 drives the second driving wheel 524 to rotate through the first driving belt 523, the second driving wheel 524 drives the driving shaft 525 to rotate, the upper end of the driving shaft 525 drives the anti-blocking movable rod 526 to rotate, so that the packaging material box 500 is prevented from being blocked, the lower end of the driving shaft 525 drives the large grinding roller 531 and the driving gear 533 to rotate, the driving gear 533 drives the transmission gear 534 to rotate, the transmission gear 534 drives the transmission rod 535 to rotate, the transmission rod 535 drives the third transmission wheel 536 to rotate, the third transmission wheel 536 drives the small grinding roller 538 to rotate through the third transmission belt 537, so that the small grinding roller 538 and the large grinding roller 531 are matched to grind;

example 4

The packaging and conveying assembly 700 comprises a cabinet body 710, a bearing plate 720, a second alarm 730, a bottom plate 741 and handrails, wherein the cabinet body 710 is positioned below the packaging bin 500, the inside of the cabinet body 710 is provided with the bearing plate 720, four corners of the bottom end of the bearing plate 720 are connected with pulleys 721 through bolts, the bottom ends of the four pulleys 721 are connected with the cabinet body 710 in a sliding manner, two sides of the front end of the bearing plate 720 are connected with bearing plate handles 722 through bolts, the center of the top end of the bearing plate 720 is connected with a weighing sensor 723 in an embedded manner, the weighing sensor 723 is electrically connected with the second alarm 730, the second alarm 730 is connected to one side of the outside of the cabinet body 710 through bolts, the bottom end of the cabinet body 710 is connected with the bottom plate 741 through bolts, and two sides of the front end and the rear end of the bottom plate 741 are connected with four wheels 741 in a co-rotation manner;

the middle of the upper parts of the four side walls of the cabinet body 710 is connected with a reset hinge 711 through bolts, the movable part of the reset hinge 711 is connected with a buckle 712 through bolts, the cabinet body 710 is connected with a ton packaging bag 600 through the buckle 712, the front wall of the cabinet body 710 is connected with a cabinet door 713 through a hinge, and the upper part of the front wall of the cabinet door 713 is connected with a cabinet door handle 714 through bolts;

the cabinet 710 is used for providing a place for accommodating ton packaging bags 600, the bearing plate 720 is used for bearing the ton packaging bags 600, the pulley 721 is used for enabling the bearing plate 720 to slide in the cabinet 710, the bearing plate handle 722 is used for conveniently pulling the bearing plate 720, the weighing sensor 723 is used for bearing the ton packaging bags 600 and sensing the weight of the ton packaging bags 600, the second alarm 730 is used for giving an alarm when the weighing sensor 723 senses that the weight reaches a threshold value, the bottom plate 741 is used for installing the cabinet 710, the wheels 741 are used for enabling the bottom plate 741 to move on the ground, the reset hinge 711 is used for resetting the buckle 712 after the buckle 712 rotates, the buckle 712 is used for clamping two sides of the top end of the ton packaging bag, the cabinet door 713 is used for sealing the front wall of the cabinet 710, and the cabinet door handle 714 is used for conveniently pulling the cabinet door 713;

in a specific use, when the ton packing bag 600 is loaded to reach a predetermined weight, the weighing sensor 723 senses a sufficient weight and sends the information to the second alarm 730, the second alarm 730 provides an alarm function to provide surrounding personnel, and after the ton packing belt is pushed to move to a specified position by pulling the armrest, the cabinet door 713 is opened through the cabinet door handle 714, and the mechanical arm can pull the ton packing belt out of the cabinet 710 through the pulley 721.

While the invention has been described above with reference to an embodiment, various modifications may be made and equivalents may be substituted for elements thereof without departing from the scope of the invention. In particular, the various features of the disclosed embodiments of this invention can be used in any combination as long as there is no structural conflict, and the combination is not exhaustively described in this specification merely for the sake of brevity and resource savings. Therefore, it is intended that the invention not be limited to the particular embodiments disclosed, but that the invention will include all embodiments falling within the scope of the appended claims.

Claims

1. The utility model provides a wet fluorite concentrate packing apparatus of fine grit which characterized in that includes:

a feed hopper (100) suspended from the feed support;

a feed bin (200) disposed below the feed hopper (100);

the blanking controller (300) is arranged on one side of the feeding bin (200), and the movable end of the blanking controller (300) is positioned in the feeding bin (200);

the belt conveyor (400) is provided with a conveying starting end below the feeding bin (200);

the packing bin (500) is arranged below the conveying tail end of the belt conveyor (400);

the ton packaging bag (600) is arranged below the packaging bin (500), and the opening of the ton packaging bag is upward;

the packaging and conveying assembly (700) is internally provided with ton packaging bags (600) in a detachable mode.

2. The fine grained wet fluorite concentrate baling apparatus of claim 1, wherein,

band conveyer (400) include first driving motor (410), first rotation axis (411) are installed to the output of first driving motor (410), first rotation axis (411) run through variable speed subassembly (420), the output of variable speed subassembly (420) is connected with belt conveyor part (430).

3. The fine grained wet fluorite concentrate baling apparatus of claim 2,

the speed changing assembly (420) comprises a speed changing box body (421), a first speed changing gear (422), a second speed changing gear (423), a first transmission belt (424), a second transmission wheel (425) and a transmission turntable (426), wherein the speed changing box body (421) is internally provided with the first speed changing gear (422), the second speed changing gear (423), the first transmission belt (424), the second transmission wheel (425) and the transmission turntable (426), the first speed changing gear (422) is installed on a first rotating shaft (411), one side of the first speed changing gear (422) is movably connected with the second speed changing gear (423), the second speed changing gear (423) is installed at the lower part of a second rotating shaft (423a), the second rotating shaft (423a) is movably connected in the speed changing box body (421), the upper part of the second rotating shaft (423a) is provided with a first transmission wheel (423b), first drive wheel (423b) is connected with second drive wheel (425) through first drive belt (424), the upper portion at third rotation axis (425a) is installed in second drive wheel (425), third rotation axis (425a) swing joint is in gearbox body (421), drive carousel (425b) are installed to the lower part of third rotation axis (425a), one side swing joint of drive carousel (425b) has transmission carousel (426), install on fourth rotation axis (426a) transmission carousel (426), the one end of fourth rotation axis (426a) is run through gearbox body (421) and is connected with belt conveyor components (430).

4. A fine grained wet fluorite concentrate baling apparatus as recited in claim 3,

rotational speed sensor (421a) and first alarm (421b) all install in the inside one side of gearbox body (421), be provided with third rotation axis (425a) in rotational speed sensor (421 a)'s the response end, rotational speed sensor (421a) electric connection has first alarm (421 b).

5. A fine grained wet fluorite concentrate baling apparatus as recited in claim 3,

the diameter ratio of the first speed changing gear (422) to the second speed changing gear (423) is 2:1, the diameter ratio of the first transmission wheel (423b) to the second transmission wheel (425) is 2:1, a fan-shaped bulge is arranged at one end of the driving turntable (425b), circular grooves are formed in the joints of the two sides of the driving turntable (425b) and the two sides of the fan-shaped bulge, five trapezoid bulges are equidistantly arranged on the driving turntable (426), the outer sides of the trapezoid bulges are arranged to be concave cambered surfaces, the cambered surfaces of the trapezoid bulges of the driving turntable (426) are matched with the cambered surfaces of the driving turntable (425b), and the gap between the two trapezoid bulges of the driving turntable (426) is matched with the width of the fan-shaped bulge of the driving turntable (425 b).

6. The fine grained wet fluorite concentrate baling apparatus of claim 1, wherein,

second driving motor (510) is installed to one side of packing feed bin (500), the output of second driving motor (510) penetrates and prevents stifled subassembly (520) inside, prevent stifled subassembly (520) and be located the inside upper portion of packing feed bin (500), the bottom of preventing stifled subassembly (520) is connected with grinding component (530), grinding component (530) are located the inside lower part of packing feed bin (500).

7. The fine grained wet fluorite concentrate baling apparatus of claim 6,

the anti-blocking component (520) comprises an anti-blocking mounting frame (521), a first driving wheel (522), a first driving belt (523), a second driving wheel (524), a driving shaft (525) and anti-blocking movable rods (526), the anti-blocking mounting frame (521) is mounted on the packaging bin (500), one end of the anti-blocking mounting frame (521) penetrates through the packaging bin (500), the first driving wheel (522) is arranged inside the anti-blocking mounting frame (521), the first driving wheel (522) is mounted at the output end of the second driving motor (510), the first driving wheel (522) is connected with the second driving wheel (524) through the first driving belt (523), the driving shaft (525) is mounted at the center of the second driving wheel (524), the upper portion and the lower portion of the driving shaft (525) penetrate through the outside of the mounting frame (521), and the eight anti-blocking movable rods (526) are symmetrically mounted on two sides of the upper portion of the driving shaft (525), eight anti-blocking movable rods (526) on the driving shaft (525) are extended from bottom to top step by step.

8. A fine grained wet fluorite concentrate packing apparatus according to claim 6, characterized in that,

the grinding assembly (530) comprises a large grinding roller (531), a grinding mounting frame (532), a driving gear (533), a transmission gear (534), a transmission rod (535), a third transmission wheel (536), a third transmission belt (537), a small grinding roller (538) and a bearing (539), the large grinding roller (531) is mounted at the lower part of the driving shaft (525), the grinding mounting frame (532) is located below the large grinding roller (531), the bottom end of the driving shaft (525) is movably connected with the inner bottom end of the grinding mounting frame (532) through the bearing (539), the driving gear (533) is mounted at the bottom of the driving shaft (525), the driving gear (533) is located inside the grinding mounting frame (532), the driving gear (533) is equidistantly and annularly and movably connected with six transmission gears (534), and the six transmission gears (534) are respectively mounted at the lower parts of the six transmission rods (535), six third drive wheel (536) are all installed on the upper portion of transfer link (535), and six transfer links (535) are all swing joint in the inside of grinding installing frame (532), six third drive wheel (536) are connected with the top of six little grinding roller (538) respectively through six third drive belt (537), six little grinding roller (538) equidistance annular swing joint is in six recesses seted up on grinding installing frame (532) lateral wall.

9. The fine grained wet fluorite concentrate baling apparatus of claim 1, wherein,

the packaging and conveying assembly (700) comprises a cabinet body (710), a bearing plate (720), a second alarm (730), a bottom plate (741) and a handrail, the cabinet body (710) is positioned below the packing bin (500), a bearing plate (720) is arranged inside the cabinet body (710), pulleys (721) are arranged at four corners of the bottom end of the bearing plate (720), the bottom ends of the four pulleys (721) are movably connected with a cabinet body (710), the two sides of the front end of the bearing plate (720) are respectively provided with a bearing plate handle (722), a weighing sensor (723) is arranged at the center of the top end of the bearing plate (720), the weighing sensor (723) is electrically connected with a second alarm (730), the second alarm (730) is arranged on one side of the outer part of the cabinet body (710), a bottom plate (741) is installed at the bottom end of the cabinet body (710), and four wheels (741) are installed on two sides of the front end and the rear end of the bottom plate (741).

10. The fine-grained wet fluorite concentrate packing device according to claim 9, characterized in that reset hinges (711) are installed in the middle of the upper portions of the four side walls of the cabinet body (710), movable portions of the reset hinges (711) are provided with buckles (712), the cabinet body (710) is connected with ton packing bags (600) through the buckles (712), a cabinet door (713) is installed on the front wall of the cabinet body (710), and a cabinet door handle (714) is installed on the upper portion of the front wall of the cabinet door (713).