CN113318828A - High-efficient ball mill - Google Patents

Abstract

The invention discloses a high-efficiency ball mill, which comprises a grinding assembly and a feeding assembly, wherein the feeding assembly is arranged on one side of a feeding mechanism, the feeding assembly comprises a slide rail, the slide rail is connected with a slide block in a sliding manner, the slide block is connected with a connecting rod, the connecting rod is connected with a movable plate, a pushing cylinder is connected below the slide block, a feeding barrel is arranged on the movable plate, the movable plate is connected with the feeding mechanism through the connecting rod, the self-transportation of the feeding process can be realized through arranging the feeding assembly, when feeding is needed, the pushing cylinder is started, the pushing cylinder pushes the slide block, the slide block drives the movable plate to move while the slide rail moves, the movable plate is connected with a feeding bin cover through the connecting rod, the movable plate drives the feeding bin cover to open, the hydraulic cylinder is driven to incline, the hydraulic rod is extended to prop the feeding bin cover, the pushing cylinder pushes until the feeding barrel pours the materials into the feeding port, then the propelling movement cylinder is under the effect of cylinder with the slider pull back, and continuous circulation realizes the material loading process and transports the change by oneself.

Description

High-efficient ball mill

Technical Field

The invention relates to the technical field of ball milling equipment, in particular to a high-efficiency ball mill.

Background

The ball mill is one of the high and fine grinding machines widely used in industrial production, it is the key equipment after the supplies are crushed, pulverize, the ball mill is made up of horizontal cylinder, charging and discharging hollow shaft and grinding head, etc., the cylinder is a long cylinder, contain the steel ball as the abradant according to different diameters and certain proportion in the cylinder, the supplies are packed into the cylinder from the hollow shaft of ball mill feed end, when the ball mill cylinder rotates, the abradant is because inertia, centrifugal force function, frictional force function, make it attach to the cylinder lining board and follow and rotate, when being brought to certain height, because its own gravity function is thrown down, the abradant of whereabouts is hit the supplies in the cylinder to be broken like the projectile, but its ball mill in the course of using, there are some deficiencies, as follows: firstly, in the use process of the ball mill, because the diameter of the cylinder body is large, the distribution range of steel balls is large (too many steel balls easily cause obstruction to the rotation of the cylinder body), so that the impact efficiency on materials in the cylinder is low, the required time is long, the grinding cost is high, meanwhile, the materials ground in the cylinder cannot be subdivided, the granularity of the ground materials is easily different, and the product quality is low; secondly, the ball mill carries out the ball-milling back to the material, in order to arrange the material and need let in the air of capacity as power in to the ball mill through the feed inlet in order to make things convenient for row to promote the material and discharge, current ball mill generally only carries out the air entrainment to the ball mill through a set of trachea, the air current is undulant can make the row of material process of ball mill stable inadequately, efficiency is not high, the material is when entering into the ball mill, can't keep unanimous rotation with the ball mill inner wall, thereby can cause and produce the friction between ball mill inner wall and the material, can lead to the ball mill inner wall impaired for a long time.

Disclosure of Invention

This section is for the purpose of summarizing some aspects of embodiments of the invention and to briefly introduce some preferred embodiments, and in this section as well as in the abstract and the title of the invention of this application some simplifications or omissions may be made to avoid obscuring the purpose of this section, the abstract and the title of the invention, and such simplifications or omissions are not intended to limit the scope of the invention.

The present invention has been made keeping in mind the above problems occurring in the prior art and/or the problems occurring in the prior art.

Therefore, the technical problem to be solved by the invention is to provide a high-efficiency ball mill which has multi-stage grinding, high grinding efficiency and stable air inlet and can not cause friction between the inner wall of the ball mill and materials.

In order to solve the technical problems, the invention provides the following technical scheme: a high-efficiency ball mill comprises a grinding assembly and a feeding assembly, wherein the grinding assembly comprises a cylinder body, hollow shafts are arranged at two ends of the cylinder body, bearings are arranged on the outer sides of the hollow shafts, lining plates are arranged on the inner side walls of the cylinder body, a sorting mechanism is arranged in the cylinder body, a feeding mechanism is arranged on one side of each bearing, and a discharging mechanism is arranged on one side far away from the feeding mechanism;

the feeding assembly is arranged on one side of the feeding mechanism and comprises a slide rail, the slide rail is connected with a slide block, the slide block is connected with a connecting rod, the connecting rod is connected with a movable plate, a pushing cylinder is connected to the lower portion of the slide block, a feeding barrel is arranged on the movable plate, and the movable plate is connected with the feeding mechanism through the connecting rod.

As a preferable scheme of the high-efficiency ball mill of the invention, wherein: the junction between quill shaft and feed mechanism and the discharge mechanism still is provided with rotary mechanism, and rotary mechanism includes feeding spiral shell and ejection of compact spiral shell, and the inboard of feeding spiral shell and ejection of compact spiral shell all is provided with helical blade.

As a preferred scheme of the high-efficiency ball mill, the ball mill comprises the following components: the feeding mechanism comprises a feeding base, a feeding bin is arranged on the feeding base, a hydraulic cylinder is arranged at the upper end of the feeding bin, the hydraulic cylinder is connected with a hydraulic rod, the hydraulic rod is connected with a feeding bin cover, the feeding bin cover is connected with a movable plate through a connecting rod, a feeding port is arranged at the lower end of the feeding bin, and the feeding port is arranged in a rotating mechanism.

As a preferred scheme of the high-efficiency ball mill, the ball mill comprises the following components: one side of the cylinder is further provided with a driving mechanism, the driving mechanism comprises a first gear, the first gear is arranged on the outer side of one end of the cylinder, the first gear is meshed with a second gear, the second gear is connected with a turbine speed reducer, the turbine speed reducer is connected with a coupler, and the coupler is connected with a motor.

As a preferred scheme of the high-efficiency ball mill, the ball mill comprises the following components: still be provided with air inlet mechanism on the feed mechanism, air inlet mechanism includes the air inlet, and first filter screen has been seted up to the inside of air inlet, and air inlet mechanism's inner wall has been seted up and has been divided the aerofoil, and the shape that divides the aerofoil is the round platform type, and divides the outer wall of aerofoil to seted up multichannel spiral groove, divides the aerofoil and has seted up the second filter screen with the junction of air inlet mechanism inner wall.

As a preferred scheme of the high-efficiency ball mill, the ball mill comprises the following components: the sorting mechanism comprises a first sorting plate and a second sorting plate, the first sorting plate and the second sorting plate are fixedly connected with a lining plate, the first sorting plate and the second sorting plate are both provided with through seams, and the through seams of the first sorting plate are larger than the second sorting plate.

As a preferable scheme of the high-efficiency ball mill of the invention, wherein: be provided with in the logical seam and prevent stifled piece, prevent stifled piece and include the balancing weight, lead to the seam both sides and be provided with the sliding tray that supplies the balancing weight to slide, both ends are provided with the strip of scraping about the balancing weight.

As a preferred scheme of the high-efficiency ball mill, the ball mill comprises the following components: discharge mechanism is provided with ejection of compact collection storehouse including going out the feed bin below, ejection of compact collection storehouse below and supports there is ejection of compact support.

The invention has the beneficial effects that: according to the invention, the air inlet mechanism is arranged, positive air pressure is formed at the position of the feeding mechanism, the air inlet mechanism is communicated with external air blowing equipment, and sufficient strong air is provided for the ball mill to keep the positive air pressure in the feeding mechanism stable, so that the discharging process of the ball mill is kept stable, and the problem of unstable air inlet is effectively solved.

According to the automatic feeding device, the feeding assembly is arranged, the automatic transportation of the feeding process can be realized, when feeding is needed, the pushing cylinder is started, the pushing cylinder pushes the sliding block, the sliding block moves on the sliding rail and simultaneously drives the moving plate to move, the moving plate is connected with the feeding bin cover through the connecting rod, the moving plate moves to drive the feeding bin cover to be opened, the feeding bin cover is opened, the hydraulic cylinder is driven to incline, the hydraulic rod is prolonged to prop the feeding bin cover, the pushing cylinder pushes the material until the feeding bin pours the material in the bin to the feeding port, then the pushing cylinder pulls the sliding block back under the action of the cylinder, the circulation is continuous, the automatic transportation of the feeding process is realized, the danger of manual feeding is avoided, the labor intensity is reduced, and the production efficiency is improved.

Drawings

FIG. 1 is a schematic structural diagram of a high-efficiency ball mill provided by the invention;

FIG. 2 is a schematic structural diagram of a driving mechanism of a high-efficiency ball mill provided by the invention;

FIG. 3 is a cross-sectional view of a high-efficiency ball mill provided by the present invention;

FIG. 4 is a schematic structural diagram of a discharging mechanism of a high-efficiency ball mill provided by the invention;

FIG. 5 is a schematic view of a feeding structure of a high-efficiency ball mill provided by the present invention;

FIG. 6 is a schematic view of an air inlet structure of a high-efficiency ball mill provided by the present invention;

FIG. 7 is a three-dimensional view of the structure of the air distribution plate of the high-efficiency ball mill provided by the invention;

FIG. 8 is a side view of a sorting mechanism of a high-efficiency ball mill according to the present invention;

FIG. 9 is a front view of a first separation plate of a high-efficiency ball mill provided by the present invention;

fig. 10 is a block-proof structure diagram of the high-efficiency ball mill provided by the invention.

In the figure: 100 grinding component, 200 feeding mechanism, 300 discharging mechanism, 400 air inlet mechanism, 500 driving mechanism, 600 rotating mechanism, 700 feeding component, 101 barrel, 102 hollow shaft, 103 bearing, 104 sorting mechanism, 201 feeding base, 202 feeding bin, 203 hydraulic cylinder, 204 hydraulic rod, 205 feeding bin cover, 206 feeding port, 301 discharging screw barrel, 302 discharging bin, 303 discharging collecting bin, 304 discharging bracket, 401 air inlet, 402 first filter screen, 403 air dividing plate, 404 spiral groove, 405 second filter screen, 501 first gear, 502 second gear, 503 turbo reducer, 504 coupler, 505 motor, 601 feeding screw barrel, 602 spiral blade, 701 slide rail, 702 slide block, 703 connecting rod, 704 moving plate pushing cylinder, 706 feeding barrel, 707 connecting rod, 104a-1 first sorting plate, 104b-1 second sorting plate, 105 anti-blocking piece, 105a balancing weight, 105 balancing weight, 105b scraping the strip.

Detailed Description

In order to make the aforementioned objects, features and advantages of the present invention comprehensible, embodiments accompanied with figures are described in detail below.

Example 1

Referring to fig. 1 to 3 and 5, the embodiment provides a high-efficiency ball mill, which includes a grinding assembly 100 and a feeding assembly 700, wherein the grinding assembly 100 includes a cylinder 101, hollow shafts 102 are arranged at two ends of the cylinder 101, bearings 103 are arranged outside the hollow shafts 102, lining plates are arranged on the inner side wall of the cylinder 101, a sorting mechanism 104 is arranged in the cylinder 101, a feeding mechanism 200 is arranged on one side of each bearing 103, and a discharging mechanism 300 is arranged on one side far away from the feeding mechanism 200;

the feeding assembly 700 is arranged on one side of the feeding mechanism 200, the feeding assembly 700 comprises a sliding rail 701, the sliding rail 701 is connected with a sliding block 702 in a sliding manner, the sliding block 702 is connected with a connecting rod 703, the connecting rod 703 is connected with a moving plate 704, a pushing cylinder 705 is connected below the sliding block 702, a feeding barrel 706 is arranged on the moving plate 704, the moving plate 704 is connected with the feeding mechanism 200 through a connecting rod 707, the feeding process can be self-transported by arranging the feeding assembly 700, when feeding is needed, the pushing cylinder 705 is started, the pushing cylinder 705 pushes the sliding block 702, the sliding block 702 drives the moving plate 704 to move while moving on the sliding rail 701, the moving plate 704 is connected with the feeding mechanism 200 through the connecting rod 707, the pushing cylinder 705 pushes the materials in the barrel until the feeding barrel 706 pours the materials into the feeding port 206, then the pushing cylinder pulls the sliding block 702 back under the action of the cylinder, the circulation is realized, and the self-transporting process is self-transported, the danger of manual feeding is avoided, the labor intensity is reduced, and the production efficiency is improved.

Example 2

Referring to fig. 1 to 7, a second embodiment of the present invention is based on the previous embodiment, and is different from the previous embodiment in that: wherein, the junction between hollow shaft 102 and feed mechanism 200 and discharge mechanism 300 still is provided with rotary mechanism 600, rotary mechanism 600 includes feeding spiral shell 601 and ejection of compact spiral shell 301, the inboard of feeding spiral shell 601 and ejection of compact spiral shell 301 all is provided with helical blade 602, through setting up rotary mechanism 600, when barrel 101 rotates, it is rotatory to drive feeding spiral shell 601 and ejection of compact spiral shell 301, the material that gets into in feeding spiral shell 601 by feed inlet 206 is pushed in barrel 101 under helical blade 602's effect, in the same reason when the ejection of compact, the material can be pushed out feed bin 302 under helical blade 602's effect.

Further, the feeding mechanism 200 includes a feeding base 201, a feeding bin 202 is arranged on the feeding base 201, a hydraulic cylinder 203 is arranged at the upper end of the feeding bin 202, the hydraulic cylinder 203 is connected with a hydraulic rod 204, the hydraulic rod 204 is connected with a feeding bin cover 205, the feeding bin cover 205 is connected with a moving plate 704 through a connecting rod 707, a feeding port 206 is arranged at the lower end of the feeding bin 202, the feeding port 206 is arranged in the rotating mechanism 600, the moving plate 704 is connected with the feeding bin cover 205 through the connecting rod 707, the feeding bin cover 205 is driven to be opened when the moving plate 704 moves upwards, the feeding bin cover 205 is opened, the hydraulic cylinder 203 is driven to incline, meanwhile, the hydraulic rod 204 is extended to support the feeding bin cover 205, the feeding port 206 is arranged at the lower end of the feeding bin 202, the material enters the rotating mechanism 600 through the feeding port 206, and the rotating mechanism 600 pushes the material into the barrel 101.

Preferably, a driving mechanism 500 is further disposed on one side of the cylinder 101, the driving mechanism 500 includes a first gear 501, the first gear 501 is disposed on an outer side of one end of the cylinder 101, the first gear 501 is engaged with a second gear 502, the second gear 502 is connected with a turbine speed reducer 503, the turbine speed reducer 503 is connected with a coupler 504, the coupler 504 is connected with a motor 505, the cylinder 101 is driven to rotate by the driving mechanism 500, the motor 505 is started, the turbine speed reducer 503 is driven to rotate by the motor 505, the second gear 502 is driven to rotate by the rotation of the turbine speed reducer 503, and the engaged first gear 501 is driven to rotate, and the first gear 501 rotates to drive the cylinder 101 to rotate.

Preferably, the feeding mechanism 200 is further provided with an air inlet mechanism 400, the air inlet mechanism 400 includes an air inlet 401, a first filter screen 402 is disposed inside the air inlet 401, an air distribution plate 403 is disposed on an inner wall of the air inlet mechanism 400, the air distribution plate 403 is shaped like a circular truncated cone, a plurality of spiral grooves 404 are disposed on an outer wall of the air distribution plate 403, a second filter screen 405 is disposed at a connection position between the air distribution plate 403 and the inner wall of the air inlet mechanism 400, when the ball mill grinds the material, in order to facilitate discharging, a positive air pressure is required to be formed at a position of the feed inlet 206, the air inlet 401 is connected to an external blowing device to provide sufficient strong wind for the ball mill, the strong wind firstly passes through the first filter screen 402 to prevent impurities contained in the strong wind from entering the feeding mechanism 200 to damage the feeding mechanism 200, and then the strong wind continues to flow along the air distribution plate 403, and a plurality of sets of thread grooves 404 disposed on the surface of the air distribution plate 403 can drive the strong wind to rotate and reduce the flow rate of the strong wind, strong wind can uniformly penetrate through the second filter screen 405 and continuously reach the interior of the cylinder 101, so that the strong wind forms uniform spiral wind, the positive air pressure in the feeding mechanism 200 is kept stable, the discharging process of the ball mill is kept stable, and the problem of unstable air inlet is effectively solved; the strong wind can be decomposed into a plurality of strands of weak wind by the wind dividing plate 403, so that the weak wind can uniformly enter the cylinder 101.

The implementation mode is as follows: the material to be processed is put into an upper charging barrel 706, a pushing cylinder 705 is started, the pushing cylinder 705 pushes a sliding block 702, the sliding block 702 moves on a sliding rail 701 and drives a moving plate 704 to move, the moving plate 704 is connected with a feeding bin cover 205 through a connecting rod 707, the moving plate 704 moves and drives the feeding bin cover 205 to open, the feeding bin cover 205 is opened and drives a hydraulic cylinder 203 to incline, a hydraulic rod 204 extends to push the feeding bin cover 205, the pushing cylinder 705 pushes the material until the upper charging barrel 706 pours the material in the barrel into a feeding port 206, when a barrel 101 rotates, the feeding screw barrel 601 rotates along with the rotation, the material entering the feeding screw barrel 601 from the feeding port 206 is pushed into the barrel 101 under the action of a screw blade 602, a grinding steel ball is attached to a lining plate of the barrel 101 to rotate along with the action of friction force due to the inertia and centrifugal force, and is thrown off due to the action of the gravity of the grinding steel ball when the grinding steel ball is brought to a certain height, the falling grinding steel balls crush the material in the cylinder 101 like a projectile.

Example 3

Referring to fig. 1 to 10, a third embodiment of the present invention is based on the previous embodiment, and is different from the previous embodiment in that: the sorting mechanism 104 comprises a first sorting plate 104a-1 and a second sorting plate 104b-1, the first sorting plate 104a-1 and the second sorting plate 104b-1 are fixedly connected with a lining plate, the first sorting plate 104a-1 and the second sorting plate 104b-1 are both provided with through slits, and the inner diameter of the through slits of the first sorting plate 104b-1 is larger than that of the second sorting plate 104 b-1. The effective grinding space is further compressed by designing the sorting mechanism 104, the impact efficiency of grinding steel balls and materials is increased, the grinding effect of the area is improved, the grinding efficiency is further increased, the through seam of the first sorting plate 104a-1 is larger than that of the second sorting plate 104b-1, the materials are ground and crushed in the first sorting plate 104a-1 area until the materials are crushed to the size smaller than or equal to the through seam in the first sorting plate 104a-1 and then enter the second sorting plate 104b-1 area, and the materials are ground and crushed again, so that the materials reach the required granularity.

The preferred, it prevents stifled piece 105 to be provided with in the logical seam, prevent stifled piece 105 includes balancing weight 105a, it is provided with the sliding tray that supplies balancing weight 105a to slide to lead to the seam both sides, balancing weight 105a is provided with scraping strip 105b at both ends from top to bottom, prevent stifled piece 105 through setting up, balancing weight 105a is reciprocating motion along the sliding tray that leads to the seam both sides under the effect of self gravity, the inside jam material of the strip 105b automatic clearance logical seam of scraping that balancing weight 105a upper and lower both ends set up, need not shut down manual cleaning, time saving and labor saving, high efficiency.

Further, discharge mechanism 300 includes ejection of compact storehouse 302, goes out the ejection of compact storehouse 302 below and is provided with ejection of compact collection storehouse 303, and ejection of compact collection storehouse 303 below supports there is ejection of compact support 304, and the material gets into ejection of compact spiral shell 301 after passing through the grinding of sorting mechanism 104, is pushed out the storehouse 302 under the blade effect in ejection of compact spiral shell 301, under the wind-force effect, will grind the good material and discharge into in the ejection of compact collection storehouse 303.

The implementation mode is as follows: putting the material to be processed into an upper material barrel 706, starting a pushing cylinder 705, pushing a sliding block 702 by the pushing cylinder 705, moving the sliding block 702 on a sliding rail 701 and simultaneously driving a moving plate 704 to move, connecting the moving plate 704 with a feeding bin cover 205 through a connecting rod 707, moving the moving plate 704 to drive the feeding bin cover 205 to open, opening the feeding bin cover 205, driving a hydraulic cylinder 203 to incline and simultaneously extending a hydraulic rod 204 to prop the feeding bin cover 205, pushing the pushing cylinder 705 until the material in the barrel is poured out to a feeding port 206 by the upper material barrel 706, when a barrel 101 rotates, the feeding spiral barrel 601 rotates along with the rotation, pushing the material entering the feeding spiral barrel 601 from the feeding port 206 into the barrel 101 under the action of a spiral blade 602, grinding and crushing the material in a first sorting plate 104a-1 area until the material is crushed to be smaller than or equal to the size of a through hole in the first sorting plate 104a-1 and then entering a second sorting plate 104b-1 area, then grind once more and smash, get into ejection of compact spiral shell 301 after the material reaches required granularity size, pushed out feed bin 302 under the blade effect in ejection of compact spiral shell 301, under the wind-force effect, will grind in the good material discharge collection storehouse 303.

Claims (8)

1. The utility model provides a high-efficient ball mill which characterized in that: comprises a grinding component (100) and a feeding component (700),

the grinding assembly (100) comprises a cylinder body (101), hollow shafts (102) are arranged at two ends of the cylinder body (101), bearings (103) are arranged on the outer sides of the hollow shafts (102), lining plates are arranged on the inner side wall of the cylinder body (101), a sorting mechanism (104) is arranged in the cylinder body (101), a feeding mechanism (200) is arranged on one side of each bearing (103), and a discharging mechanism (300) is arranged on one side far away from the feeding mechanism (200);

the feeding assembly (700) is arranged on one side of the feeding mechanism (200), the feeding assembly (700) comprises a sliding rail (701), the sliding rail (701) is connected with a sliding block (702) in a sliding mode, the sliding block (702) is connected with a connecting rod (703), the connecting rod (703) is connected with a moving plate (704), a pushing air cylinder (705) is connected to the lower portion of the sliding block (702), an upper charging barrel (706) is arranged on the moving plate (704), and the moving plate (704) is connected with the feeding mechanism (200) through a connecting rod (707).

2. A high efficiency ball mill according to claim 1, wherein: the connection between the hollow shaft (102) and the feeding mechanism (200) and the discharging mechanism (300) is also provided with a rotating mechanism (600), the rotating mechanism (600) comprises a feeding spiral cylinder (601) and a discharging spiral cylinder (301), and spiral blades (602) are arranged on the inner sides of the feeding spiral cylinder (601) and the discharging spiral cylinder (301).

3. A high efficiency ball mill according to claim 2, wherein: feed mechanism (200) is including feeding base (201), be provided with feeding storehouse (202) on feeding base (201), feeding storehouse (202) upper end is provided with pneumatic cylinder (203), pneumatic cylinder (203) are connected with hydraulic stem (204), hydraulic stem (204) are connected with feeding storehouse lid (205), feeding storehouse lid (205) are connected with movable plate (704) through connecting rod (707), feeding storehouse (202) lower extreme is provided with feed inlet (206), feed inlet (206) set up in rotary mechanism (600).

4. A high efficiency ball mill according to claim 3, wherein: barrel (101) one side still is provided with actuating mechanism (500), actuating mechanism (500) include first gear (501), first gear (501) set up in barrel (101) one end outside, first gear (501) meshing is connected with second gear (502), second gear (502) are connected with turbo reducer (503), turbo reducer (503) are connected with shaft coupling (504), shaft coupling (504) are connected with motor (505).

5. A high-efficiency ball mill according to claim 4, characterized in that: still be provided with air inlet mechanism (400) on feed mechanism (200), air inlet mechanism (400) includes air inlet (401), first filter screen (402) have been seted up to the inside of air inlet (401), air inlet mechanism's (400) inner wall has been seted up and has been divided aerofoil (403), the shape of dividing aerofoil (403) is the round platform type, just multichannel spiral groove (404) have been seted up to the outer wall of dividing aerofoil (403), divide aerofoil (403) and air inlet mechanism's (400) inner wall junction to have seted up second filter screen (405).

6. A high-efficiency ball mill according to claim 5, characterized in that: sorting mechanism (104) includes first sorting plate (104 a-1) and second sorting plate (104 b-1), first sorting plate and second sorting plate and welt fixed connection, first sorting plate (104 a-1) and second sorting plate (104 b-1) all are provided with logical seam, the logical seam internal diameter of first sorting plate (104 b-1) is greater than second sorting plate (104 b-1).

7. A high-efficiency ball mill according to claim 6, characterized in that: be provided with in the through joint and prevent stifled piece (105), prevent stifled piece (105) including balancing weight (105 a), the through joint both sides are provided with the sliding tray that supplies balancing weight (105 a) to slide, balancing weight (105 a) both ends are provided with scrapes strip (105 b) about.

8. A high efficiency ball mill according to claim 7, wherein: discharge mechanism (300) are including going out feed bin (302), it is provided with ejection of compact collection storehouse (303) to go out feed bin (302) below, ejection of compact collection storehouse (303) below is supported there is ejection of compact support (304).

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