CN218966241U - Fluorite powder ball press - Google Patents

Abstract

The utility model belongs to the technical field of fluorite powder ball pressing, in particular to a fluorite powder ball pressing machine, which comprises an outer shell, wherein a recovery cylinder is arranged in the outer shell, a feeding cylinder is arranged in an inner cavity of the recovery cylinder, two ball pressing cylinders are arranged in the inner cavity of the feeding cylinder, a first motor is fixedly connected to one side of each ball pressing cylinder, a connecting plate is hinged to the outer wall of each feeding cylinder, a connecting rod is fixedly connected to the connecting plate, and a feeding cabin is fixedly connected to the bottom end of each connecting rod; through separating phosphor powder ball and phosphor powder residue in the feed cabin, make phosphor powder residue can be received in the feed cabin, throw into the feed cylinder again and press the ball processing, avoid not being directly by the phosphor powder of ball and discharge together with the phosphor powder ball, avoid the waste to the phosphor powder material, and reduce the phosphor powder material and screen from the phosphor powder ball again, fill into the feed cylinder again and press the ball, improve the work efficiency of pressing the ball.

Description

Fluorite powder ball press

Technical Field

The utility model belongs to the technical field of fluorite powder ball pressing, and particularly relates to a fluorite powder ball pressing machine.

Background

The ball press is a device for pressing powdery materials into balls, is mainly used in the fields of mineral products, metallurgy and the like, when the ball press is used for pressing fluorite powder, a large amount of fluorescent powder directly falls onto a conveying mechanism together with the fluorescent powder balls, and the fluorescent powder residues and the fluorescent powder balls are directly discharged together to cause waste of the fluorescent powder, meanwhile, dust emission is generated to cause environmental pollution, and the fluorescent powder residues in the fluorescent powder balls are screened again, so that a large amount of workload is required, and the working efficiency of the fluorescent powder ball press is affected.

Disclosure of Invention

The utility model provides a fluorite powder ball press machine which has the characteristics of solving the problem that the efficiency is reduced and the production efficiency is affected when the waste is caused by the fact that fluorescent powder is remained on the fluorescent powder balls and discharged together and the fluorescent powder balls are recycled.

The utility model provides the following technical scheme: including the shell body, be equipped with the recovery section of thick bamboo in the shell body, the recovery section of thick bamboo inner chamber is equipped with the feed cylinder, the feed cylinder inner chamber is equipped with two and presses ball section of thick bamboo, it is equal fixedly connected with first motor to press ball section of thick bamboo one side, the feed cylinder outer wall articulates there is the connecting plate, fixedly connected with connecting rod on the connecting plate, connecting rod bottom fixedly connected with feed cabin, the feed cabin includes "L" template, first filter and second filter, be fixed each other between "L" template, first filter and the second filter, the side discharge gate has been seted up to recovery section of thick bamboo one side, recovery section of thick bamboo with feed inlet and feed inlet down have been seted up respectively at feed cylinder top, the feed opening that is used for the unloading has been seted up to the feed cylinder bottom.

The recycling bin comprises a recycling bin, a shell, a supporting leg, a feeding port and a feeding device, wherein the supporting leg is fixedly connected with the bottom end of the shell and used for supporting the recycling bin, and the feeding port is arranged above the shell.

Wherein, the side discharge gate below is equipped with the swash plate that is used for the unloading, side discharge gate one side is equipped with the conveyer belt that is used for transmitting the material.

The L-shaped plate is attached to the inner wall of the recovery cylinder, the L-shaped plate is in sliding connection with the inner wall of the recovery cylinder, the second filter plate is attached to the outer wall of the feeding cylinder, and the second filter plate is in sliding connection with the outer wall of the feeding cylinder.

The feeding cylinder is characterized in that two supporting columns are fixedly connected to the inner wall of the feeding cylinder, a plurality of baffles are connected to torsion springs on the supporting columns, and a hairbrush is arranged on the inner wall of the feeding cylinder.

Wherein, connecting rod one side fixedly connected with second motor.

The beneficial effects of the utility model are as follows: through separating phosphor powder ball and phosphor powder residue in the feed cabin, make phosphor powder residue can be received in the feed cabin, throw into the feed cylinder again and press the ball processing, avoid not being directly by the phosphor powder of ball and discharge together with the phosphor powder ball, avoid the waste to the phosphor powder material, and reduce the phosphor powder material and screen from the phosphor powder ball again, fill into the feed cylinder again and press the ball, improve the work efficiency of pressing the ball.

None of the parts of the device are the same as or can be implemented using prior art.

Drawings

FIG. 1 is a schematic cross-sectional view of the present utility model;

FIG. 2 is a schematic diagram of the motion structure of the present utility model;

FIG. 3 is a schematic diagram of the motion structure of the present utility model;

fig. 4 is a schematic side sectional structure of the present utility model.

In the figure: 1. an outer housing; 11. supporting feet; 12. a feed port; 13. a conveyor belt; 2. a recovery cylinder; 21. an upper feed inlet; 22. a side discharge port; 3. a feed cylinder; 31. a lower feed inlet; 32. a brush; 33. a feed opening; 4. ball pressing cylinder; 41. a connecting plate; 42. a first motor; 43. a connecting rod; 44. a second motor; 5. a feed bin; 51. an L-shaped plate; 52. a first filter plate; 53. a second filter plate; 6. a support column; 61. and a baffle.

Detailed Description

Referring to fig. 1-4, the present utility model provides the following technical solutions: including shell body 1, be equipped with recovery section of thick bamboo 2 in the shell body 1, recovery section of thick bamboo 2 inner chamber is equipped with feed cylinder 3, feed cylinder 3 inner chamber is equipped with two ball-pressing cylinder 4, it is first motor 42 to press ball cylinder 4 one side all fixedly connected with, feed cylinder 3 outer wall articulates there is connecting plate 41, fixedly connected with connecting rod 43 on the connecting plate 41, connecting rod 43 bottom fixedly connected with feed cabin 5, feed cabin 5 includes "L" template 51, first filter plate 52 and second filter plate 53, be fixed each other between "L" template 51, first filter plate 52 and the second filter plate 53, side discharge gate 22 has been seted up to recovery section of thick bamboo 2 one side, feed inlet 21 and feed inlet 31 down have been seted up respectively to recovery section of thick bamboo 2 and feed cylinder 3 top, feed inlet 33 for the unloading has been seted up to feed cylinder 3 bottom.

In this embodiment: the outer shell 1 is an installation shell of the device, the recovery cylinder 2 arranged in the outer shell 1 is discharged through the feeding side wall at the top of the recovery cylinder, so that materials can not fall out from the lower surface after being pressed into balls by the ball pressing cylinder 4, the powder which is not pressed into balls is prevented from falling out, the two ball pressing cylinders 4 in the feeding cylinder 3 arranged on the inner wall of the recovery cylinder 2 are used for pressing balls on the materials, the two ball pressing cylinders 4 are relatively rotated under the action of the first motor 42, the fluorite powder entering the feeding cylinder 3 from the lower feeding port 31 is subjected to ball pressing treatment, the fluorite powder after ball pressing falls to the bottom of the feeding cylinder 3, meanwhile, the non-compacted fluorite powder falls together with the fluorite powder, and when the fluorite powder falls between the feeding cylinder 3 and the recovery cylinder 2 or falls onto the second filter plate 53 above the feeding cabin 5, the fluorite powder ball blocks are limited by the second filter plates 53 and can not enter the feeding cabin 5, fluorite powder which is not pressed into the feeding cabin 5 is filtered, meanwhile, fluorite powder between the recycling bin 2 and the feeding bin 3 slides between the recycling bin 2 and the feeding bin 3 in the feeding cabin 5, the feeding cabin 5 is hinged with the outer wall of the feeding bin 3 through connecting plates 41 connected with first motors 42 on two sides, so that the connecting plates 41 can be controlled to rotate to drive the feeding cabin 5 to slide between the recycling bin 2 and the feeding bin 3, when revolving around the feeding bin 3, the fluorite powder in the recycling bin 2 and the feeding bin 3 is received into the feeding cabin 5, when the feeding cabin 5 rotates to the side discharging hole 22, because the first filter plates 52 and the second filter plates 53 isolate the ball blocks on the right side of the feeding cabin 5, when the feeding cabin 22, the pellet between recovery section of thick bamboo 2 and feed section of thick bamboo 3 is pushed to side discharge gate 22 by feed bin 5 and can slide out recovery section of thick bamboo 2 under the effect of first filter 52 inclined plane to make the pellet of fluorite powder can be effectual discharge outside the device, and the fluorite powder continues to slide under the spacing of "L" template 51 on feed bin 5, when feed bin 5 slides to feed section of thick bamboo 3 top, second filter 53 slides to feed bin 5 below from feed bin 5, second filter 53 can't block the phosphor powder, the phosphor powder can directly fall into feed bin 3 in, thereby make the device can be effectual when pressing the ball to the device, the remaining powder can directly be retrieved in the upper feed inlet 21, avoid not being directly together with the phosphor powder ball to discharge by the phosphor powder, avoid the waste to the phosphor powder material, and reduce the phosphor powder material and screen from the phosphor powder ball again, fill into feed bin 3 again and press the ball, improve the work efficiency of pressing the ball.

The bottom end of the outer shell 1 is fixedly connected with a supporting leg 11 for supporting the recovery cylinder 2, and a feeding port 12 for feeding is arranged above the outer shell 1; the supporting leg 11 supports the recovery cylinder 2, so that the recovery cylinder 2 is fixed in the outer shell 1, the stability of the recovery cylinder is determined, and the feeding port 12 above the outer shell 1 is used for feeding fluorescent powder into the feeding cylinder 3.

An inclined plate for blanking is arranged below the side discharge hole 22, and a conveyor belt 13 for conveying materials is arranged on one side of the side discharge hole 22; the inclined plate arranged below the side discharge hole 22 is used for enabling the fluorescent powder balls to slide onto the conveyor belt 13 for transmission when the fluorescent powder balls are discharged, so that the fluorescent powder balls are prevented from being directly fallen onto the conveyor belt 13 to damage the appearance of the fluorescent powder balls.

The L-shaped plate 51 is attached to the inner wall of the recovery cylinder 2, the L-shaped plate 51 is in sliding connection with the inner wall of the recovery cylinder 2, the second filter plate 53 is attached to the outer wall of the feeding cylinder 3, and the second filter plate 53 is in sliding connection with the outer wall of the feeding cylinder 3; the L-shaped plate 51 is attached to the inner wall of the recovery cylinder 2, and the second filter plate 53 is attached to the feed cylinder 3, so that the fluorescent powder in the recovery cylinder 2 and the feed cylinder 3 can be effectively received in the feed cabin 5.

The inner wall of the feeding cylinder 3 is fixedly connected with two support columns 6, a torsion spring on each support column 6 is connected with a plurality of baffles 61, and the inner wall of the feeding cylinder 3 is provided with a hairbrush 32; baffle 61 is articulated on support column 6 through the torsional spring and buffers the phosphor powder ball that drops, makes it can not directly drop from feed opening 33, reduces the damage of phosphor powder ball, and brush 32 can clear away the phosphor powder residue on the ball pressing section of thick bamboo 4 when ball pressing section of thick bamboo 4 rotates.

A second motor 44 is fixedly connected to one side of the connecting rod 43; the second motor 44 is used for providing a turning force for the connecting rod 43, so that the connecting rod drives the first motor 42 and the feeding cabin 5 to slide between the recovery cylinder 2 and the feeding cylinder 3.

The working principle and the using flow of the utility model are as follows: the two ball pressing drums 4 are rotated relatively under the action of the first motor 42, ball pressing is conducted on fluorite powder entering the feeding drum 3 from the lower feeding port 31, fluorite powder which is not pressed into balls is filtered into the feeding cabin 5, meanwhile, fluorite powder located between the recycling drum 2 and the feeding drum 3 slides between the recycling drum 2 and the feeding drum 3 under the action of the first filter plate 52, when the fluorite powder in the recycling drum 2 and the feeding drum 3 is received into the feeding cabin 5, when the feeding cabin 5 rotates to the side discharging port 22, the first filter plate 52 and the second filter plate 53 isolate balls on the right side of the feeding cabin 5, when the side discharging port 22 is located, the balls located between the recycling drum 2 and the feeding drum 3 are pushed to the side discharging port 22 by the feeding cabin 5, and can slide out of the recycling drum 2 under the action of the inclined plane of the first filter plate 52, so that the fluorite balls can be effectively discharged out of the device, and when the fluorite powder is received into the feeding cabin 5, the second filter plate 53 can not slide out of the feeding cabin 5, and can not directly slide into the feeding cabin 5 from the side discharging cabin 5 to the side 3 when the second filter plate 53 is directly received into the feeding cabin 5.

Claims (6)

1. The fluorite powder ball press is characterized in that: including the shell body, be equipped with the recovery section of thick bamboo in the shell body, the recovery section of thick bamboo inner chamber is equipped with the feed cylinder, the feed cylinder inner chamber is equipped with two and presses ball section of thick bamboo, it is equal fixedly connected with first motor to press ball section of thick bamboo one side, the feed cylinder outer wall articulates there is the connecting plate, fixedly connected with connecting rod on the connecting plate, connecting rod bottom fixedly connected with feed cabin, the feed cabin includes "L" template, first filter and second filter, be fixed each other between "L" template, first filter and the second filter, the side discharge gate has been seted up to recovery section of thick bamboo one side, recovery section of thick bamboo with feed inlet and feed inlet down have been seted up respectively at feed cylinder top, the feed opening that is used for the unloading has been seted up to the feed cylinder bottom.

2. A fluorite powder ball press according to claim 1, wherein: the shell body bottom fixedly connected with is used for right the recovery section of thick bamboo supports the supporting legs, the shell body top is equipped with the dog-house that is used for throwing the material.

3. A fluorite powder ball press according to claim 1, wherein: the automatic feeding and discharging device is characterized in that an inclined plate for discharging is arranged below the side discharging hole, and a conveying belt for conveying materials is arranged on one side of the side discharging hole.

4. A fluorite powder ball press according to claim 1, wherein: the L-shaped plate is attached to the inner wall of the recovery cylinder, the L-shaped plate is in sliding connection with the inner wall of the recovery cylinder, the second filter plate is attached to the outer wall of the feeding cylinder, and the second filter plate is in sliding connection with the outer wall of the feeding cylinder.

5. A fluorite powder ball press according to claim 1, wherein: two support columns are fixedly connected to the inner wall of the feeding cylinder, a plurality of baffles are connected to the torsion springs on the support columns, and a hairbrush is arranged on the inner wall of the feeding cylinder.

6. A fluorite powder ball press according to claim 1, wherein: and one side of the connecting rod is fixedly connected with a second motor.

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