CN213200175U - Lithium hydroxide micro powder vacuum extraction bag pouring device - Google Patents

Abstract

The utility model relates to a lithium hydroxide micro powder vacuum extraction bag pouring device, which comprises a vacuum material suction gun corresponding to a semi-finished product material bag, a dust collector and a vacuum pump communicated with the dust collector, wherein the vacuum material suction gun is communicated with a feed inlet of the dust collector; also comprises a finished product material bag corresponding to the discharge hole of the dust collector. The utility model can avoid the battery-grade lithium hydroxide micro powder from flowing out in the process of replacing the material bag, on one hand, the material loss is reduced, and the cost of enterprises is reduced; on the other hand, the operation environment of a working site is improved, the physical health of workers is improved, and the bag pouring efficiency is improved. And the utility model discloses a fall bagging apparatus simple structure, easily preparation and low in cost, be convenient for maintain and maintain, further reduced the manufacturing cost of enterprise.

Description

Lithium hydroxide micro powder vacuum extraction bag pouring device

Technical Field

The utility model relates to a technical field is carried to the powder, specifically indicates a lithium hydroxide miropowder vacuum extraction falls bagging apparatus.

Background

In the preparation process of the battery-grade lithium hydroxide, in order to meet the individual requirements of downstream customers, the packaged finished product needs to be replaced by a packaging bag.

In the manual change wrapping bag working process, battery level lithium hydroxide miropowder can fly out at the change process, causes the material loss on the one hand, and on the other hand seriously influences the field operation environment, and the staff is in a very abominable operational environment, causes to fall a bag inefficiency, causes very big hidden danger for safety in production.

SUMMERY OF THE UTILITY MODEL

The utility model provides a lithium hydroxide micro powder vacuum extraction bag-pouring device aiming at the defects of the prior art, which can avoid the battery-grade lithium hydroxide micro powder from flowing out in the process of replacing material bags, thereby reducing the material loss and the cost of enterprises on the one hand; on the other hand, the operation environment of a working site is improved, the physical health of workers is improved, and the bag pouring efficiency is improved.

The utility model is realized by the following technical scheme, the utility model provides a lithium hydroxide micro-powder vacuum extraction bag-pouring device, which comprises a vacuum material suction gun corresponding to a semi-finished product material bag, a dust collector and a vacuum pump communicated with the dust collector, wherein the vacuum material suction gun is communicated with a feed inlet of the dust collector; also comprises a finished product material bag corresponding to the discharge hole of the dust collector.

The material mouth of inhaling of the material rifle is inhaled in the material of semi-manufactured goods material bag is inserted to the vacuum of this scheme, the upper end intercommunication of vacuum pump and dust arrester, the vacuum pump is taken out into the negative pressure with the inner chamber of dust arrester, and then inhale the powder in the material rifle will semi-manufactured goods material bag through the vacuum and take out in the dust arrester, the powder takes place to sink under the effect of gravity in the cavity of dust arrester, because the powder has good mobility, consequently can flow in the finished goods material bag through the discharge gate of dust arrester.

Preferably, the vacuum material suction gun comprises a vacuum tube, a material suction tube and an air inlet tube communicated with the upper end of the material suction tube, and the lower end of the vacuum tube is in plug fit with the upper end of the material suction tube and is fixedly connected with the upper end of the material suction tube through an annular retainer ring. The lower extreme of the vacuum tube of this scheme inserts inhales the upper end of material pipe, and the vacuum tube is coaxial with inhaling the material pipe, and the upper end of vacuum tube communicates with the feed inlet of dust arrester, inhales the lower extreme of material pipe and inserts in the powder of semi-manufactured goods material bag. The end part of the air inlet pipe is fixedly connected and communicated with one side of the upper end of the material suction pipe, and when the vacuum pipe sucks powder through the material suction pipe, the air inlet pipe supplies air to the material suction pipe, so that the air pressure in the semi-finished product material bag is balanced. The lower end of the vacuum tube and the upper end of the material suction tube are connected through the annular retainer ring, so that the connection strength of the vacuum tube and the material suction tube is enhanced, and the vacuum material suction gun is firmer.

Preferably, the lower end of the vacuum pipe is welded through an annular retainer ring after being inserted into the upper end of the material suction pipe, the distance between the annular retainer ring and a feed inlet of the material suction pipe is greater than or equal to 200mm, and the air inlet pipe is positioned on one side of the material suction pipe and serves as a side branch pipe. The minimum 200mm of lower extreme feed inlet apart from annular retaining ring of inhaling the material pipe of this scheme guarantees to inhale in the material pipe has 200mm at least and inserts the dust. The air inlet pipe is positioned on one side of the suction pipe and serves as a side branch pipe, the vacuum pipe is coaxial with the suction pipe, so that the dust is guaranteed to have minimum resistance in the suction process, and the resistance of a pipeline bend when air flows is small, so that the air inlet pipe is positioned on one side of the suction pipe and serves as a side branch pipe. The radial sectional area of the material suction pipe is larger than or equal to the sum of the radial sectional areas of the vacuum pipe and the air inlet pipe, so that the work efficiency of the material suction pipe for sucking powder is improved.

As optimization, one end of the air inlet pipe, which is far away from the material suction pipe, is connected with an air filter. The air filter of this scheme plays the effect that filters the interior air of entering air inlet pipe, has avoided impurity such as floater in the air to get into in the powder to the impurity content of powder material when falling the bag has been reduced.

Preferably, the feed inlet of the dust collector is positioned in the middle of the dust collector, and the feed inlet of the dust collector is communicated with the vacuum suction gun through a vacuum delivery hose. The vacuum material conveying hose of the scheme is convenient for position adjustment, and the vacuum material suction gun is convenient to pull the circular area at the periphery of the dust collector through the vacuum material conveying hose, so that the application range of the vacuum material suction gun is enlarged. The feed inlet of the dust collector is positioned in the middle of the dust collector, so that even if the powder sinks under the action of gravity when flowing into the cavity of the dust collector, a space is reserved for the powder to be lifted, and the lifted dust has enough time to sink.

Preferably, the bottom of the dust collector is of a conical structure, and the discharge hole of the dust collector is positioned at the conical end of the conical structure of the dust collector and is provided with a star-shaped valve. The star type valve of this scheme is one kind and allows or cuts off material through rotary part. The star-shaped valve is convenient for controlling the flow passage and the open circuit of the powder, and the vacuum degree in the dust collector is ensured. The bottom of dust arrester is the toper structure, is convenient for collect sunken powder through the toper structure to make the powder gather together and flow downwards, avoided the powder to pile up in the corner of dust arrester bottom, improved the flow efficiency of powder in the dust arrester bottom.

Preferably, the discharge hole of the dust collector is connected with the feed inlet of the buffering bin, and the discharge hole of the buffering bin is connected with the finished product material bag. The first half of the surge bin of this scheme is the cask, and the lower half is the toper funnel structure, cushions the powder that flows down through the surge bin to slowed down the mobile speed of powder, avoided the powder to pack into the too big raise dust of formation of inertia when finished product material bag.

Preferably, a pneumatic butterfly valve is arranged at a discharge hole of the buffer bin. The pneumatic butterfly valve of this scheme controls the flow that the powder flows out and control the powder from the discharge gate of surge bin, fills the back as the finished product material bag, controls pneumatic butterfly valve and closes the discharge gate of surge bin to be convenient for change empty finished product material bag, further improved the work efficiency of falling the bag.

Preferably, the types of the dust collector and the vacuum pump are determined by calculation according to the output of the powder to be conveyed, namely, the dust collector and the vacuum pump of different types are replaced according to actual use requirements.

The utility model has the advantages that: the utility model can avoid the battery-grade lithium hydroxide micro powder from flowing out in the process of replacing the material bag, on one hand, the material loss is reduced, and the cost of enterprises is reduced; on the other hand, the operation environment of a working site is improved, the physical health of workers is improved, and the bag pouring efficiency is improved. And the utility model discloses a fall bagging apparatus simple structure, easily preparation and low in cost, be convenient for maintain and maintain, further reduced the manufacturing cost of enterprise.

Drawings

Fig. 1 is a schematic structural diagram of the present invention;

FIG. 2 is a schematic structural view of the vacuum suction gun of the present invention;

shown in the figure:

1. vacuum suction gun, 2, semi-finished product material bag, 3, dust collector, 4, vacuum pump, 5, finished product material bag, 6, air filter, 7, vacuum conveying hose, 8, star valve, 9, buffer bin, 10, pneumatic butterfly valve, 11, vacuum tube, 12, suction tube, 13, air inlet tube, 14 and annular retainer ring.

Detailed Description

In order to clearly illustrate the technical features of the present solution, the present solution is explained below by way of specific embodiments.

A lithium hydroxide micro powder vacuum extraction bag-pouring device is shown in the figure, and comprises a vacuum material suction gun 1 corresponding to a semi-finished product material bag 2, a dust collector 3 and a vacuum pump 4 communicated with the dust collector 3, wherein the vacuum material suction gun 1 is communicated with a feed inlet of the dust collector 3; and a finished product material bag 5 corresponding to the discharge port of the dust collector 3.

The vacuum material suction gun 1 comprises a vacuum tube 11, a material suction tube 12 and an air inlet tube 13 communicated with the upper end of the material suction tube 12, wherein the lower end of the vacuum tube 11 is in insertion fit with the upper end of the material suction tube 12 and is fixedly connected with the upper end of the material suction tube 12 through an annular retainer ring 14. The lower end of the vacuum pipe 11 is inserted into the upper end of the material suction pipe 12 and then welded through an annular retainer ring 14, the distance between the annular retainer ring 14 and a feed inlet of the material suction pipe 12 is greater than or equal to 200mm, and the air inlet pipe 13 is positioned on one side of the material suction pipe 12 and serves as a side branch pipe. The end of the air inlet pipe 13 far away from the material suction pipe 12 is connected with the air filter 6.

The feed inlet of the dust collector 3 is positioned in the middle of the dust collector 3, and the feed inlet of the dust collector 3 is communicated with the vacuum material suction gun 1 through a vacuum material conveying hose 7. The bottom of the dust collector 3 is a cone structure, and the discharge hole of the dust collector 3 is positioned at the cone end of the cone structure of the dust collector 3 and is provided with a star-shaped valve 8. The discharge hole of the dust collector 3 is connected with the feed inlet of the buffer bin 9, and the discharge hole of the buffer bin 9 is connected with the finished product material bag 5. A pneumatic butterfly valve 10 is arranged at the discharge hole of the buffer bin 9.

The material mouth that inhales of spray gun 1 is inhaled in the material of inserting semi-manufactured goods material bag 2 in the vacuum, vacuum pump 4 and dust arrester 3's upper end intercommunication, vacuum pump 4 takes out into the negative pressure with the inner chamber of dust arrester 3, and then inhale the powder of spray gun 1 in with semi-manufactured goods material bag 2 through the vacuum and take out in dust arrester 3, the powder is in the cavity of dust arrester 3, take place to sink under the effect of gravity, because the powder has good mobility, consequently can flow in finished goods material bag 5 through the discharge gate of dust arrester 3.

The lower end of the vacuum tube 11 is inserted into the upper end of the material suction tube 12, the vacuum tube 11 is coaxial with the material suction tube 12, the upper end of the vacuum tube 11 is communicated with the feeding hole of the dust collector 3, and the lower end of the material suction tube 12 is inserted into the powder body of the semi-finished product material bag 2. The end part of the air inlet pipe 13 is fixedly connected and communicated with one side of the upper end of the material suction pipe 12, and when the vacuum pipe 11 sucks powder through the material suction pipe 12, the air inlet pipe 13 supplies air to the material suction pipe 12, so that the air pressure in the semi-finished product material bag 2 is balanced. The lower end of the vacuum tube 11 and the upper end of the material suction tube 12 are connected through the annular retainer ring 14, so that the connection strength of the vacuum tube 11 and the material suction tube 12 is enhanced, and the vacuum material suction gun 1 is firmer.

The distance between the lower end feed inlet of the material suction pipe 12 and the annular retainer ring 14 is at least 200mm, so that the material suction pipe 12 is ensured to be inserted into dust by at least 200 mm. The air inlet pipe 13 is positioned on one side of the material suction pipe 12 and serves as a side branch pipe, because the vacuum pipe 11 is coaxial with the material suction pipe 12, the minimum resistance of dust in the suction process is ensured, and the resistance of a pipeline bend when air flows is smaller, so that the air inlet pipe 13 is positioned on one side of the material suction pipe 12 and serves as a side branch pipe. The radial sectional area of the material suction pipe 12 is larger than or equal to the sum of the radial sectional areas of the vacuum pipe 11 and the air inlet pipe 13, so that the work efficiency of the material suction pipe 12 for sucking powder is improved.

The air filter 6 plays a role in filtering air entering the air inlet pipe 13, and impurities such as floaters in the air are prevented from entering the powder body, so that the impurity content of the powder material during bag pouring is reduced.

The vacuum material conveying hose 7 is convenient for adjusting the position, and the vacuum material suction gun 1 is convenient to be drawn to the circular area at the periphery of the dust collector 3 through the vacuum material conveying hose 7, so that the application range of the vacuum material suction gun 1 is expanded. The feed inlet of the dust collector 3 is positioned in the middle of the dust collector 3, so that even if the powder sinks under the action of gravity when flowing into the cavity of the dust collector 3, a space is reserved for the powder to be lifted, and the lifted dust has enough time to sink.

The star valve 8 is a regulating valve that changes the valve from an open position to a closed position by rotating a rotating member such as a rotary flap by 90 degrees. The flow is allowed or shut off by a rotating member. The star-shaped valve 8 is convenient for controlling the passage and the disconnection of the powder flow. The bottom of dust arrester 3 is the toper structure, is convenient for collect sunken powder through the toper structure to make the powder gather together and flow downwards, avoided the powder to pile up in the corner of dust arrester 3 bottom, improved the flow efficiency of powder in dust arrester 3 bottom.

The upper half of surge bin 9 is the cask, and the lower half is the toper funnel structure, cushions the powder that flows down through surge bin 9 to slowed down the flow velocity of powder, avoided the powder to pack into the too big raise dust of formation of inertia when finished product material bag 5.

The pneumatic butterfly valve 10 controls the powder to flow out of the discharge port of the buffer bin 9 and controls the flow of the powder, and after the finished product material bag 5 is filled, the pneumatic butterfly valve 10 is controlled to close the discharge port of the buffer bin 9, so that the empty finished product material bag 5 can be replaced conveniently, and the work efficiency of bag pouring is further improved.

The types of the dust collector 3 and the vacuum pump 4 are determined after calculation according to the output of the powder to be conveyed, namely, the dust collector 3 and the vacuum pump 4 of different types are replaced according to actual use requirements.

When the vacuum powder sucking gun is used, the vacuum pump 4 is started, the vacuum pump 4 pumps the inner cavity of the dust collector 3 into negative pressure, and then the powder materials in the semi-finished product material bag 2 are sucked by the vacuum material conveying hose 7 through the material sucking pipe 12 of the vacuum material sucking gun 1. When the vacuum tube 11 sucks the powder through the suction tube 12, the air inlet tube 13 supplies air to the suction tube 12, so that the air pressure in the semi-finished product material bag 2 is balanced. Meanwhile, the air filter 6 plays a role in filtering air entering the air inlet pipe 13, so that air cleanness is ensured, and impurities in the air, such as floaters and the like, are prevented from entering the powder body, so that the impurity content of the powder material during bag pouring is reduced, and ferromagnetic dust in the air is prevented from polluting products.

In taking out dust arrester 3 with the powder in semi-manufactured goods material bag 2, the powder is in the cavity of dust arrester 3, take place to sink under the effect of gravity, open star valve 8, because the powder has good mobility, consequently can flow to surge bin 9 in through dust arrester 3's discharge gate, the first half of surge bin 9 is the cask, the latter half is the toper funnel structure, cushion the powder that flows down through surge bin 9, thereby the flow velocity of powder has been slowed down, the too big raise dust that forms of inertia when having avoided the powder to pack into finished goods material bag 5. The pneumatic butterfly valve 10 is opened to allow the powder to flow into the finished product bag 5. The pneumatic butterfly valve 10 controls the powder to flow out of the discharge port of the buffer bin 9 and controls the flow of the powder, and after the finished product material bag 5 is filled, the pneumatic butterfly valve 10 is controlled to close the discharge port of the buffer bin 9, so that the empty finished product material bag 5 can be replaced conveniently, and the work efficiency of bag pouring is further improved.

The utility model can avoid the battery-grade lithium hydroxide micro powder from flowing out in the process of replacing the material bag, on one hand, the material loss is reduced, and the cost of enterprises is reduced; on the other hand, the operation environment of a working site is improved, the physical health of workers is improved, and the bag pouring efficiency is improved. And the utility model discloses a fall bagging apparatus simple structure, easily preparation and low in cost, be convenient for maintain and maintain, further reduced the manufacturing cost of enterprise.

Of course, the above description is not limited to the above examples, and technical features of the present invention that are not described in the present application may be implemented by or using the prior art, and are not described herein again; the above embodiments and drawings are only used for illustrating the technical solutions of the present invention and are not intended to limit the present invention, and the present invention has been described in detail with reference to the preferred embodiments, and those skilled in the art should understand that changes, modifications, additions or substitutions made by those skilled in the art within the spirit of the present invention should also belong to the protection scope of the claims of the present invention.

Claims (8)

1. The utility model provides a lithium hydroxide miropowder vacuum extraction device of falling bagging apparatus which characterized in that: the vacuum material suction device comprises a vacuum material suction gun (1) corresponding to a semi-finished product material bag (2), a dust collector (3) and a vacuum pump (4) communicated with the dust collector (3), wherein the vacuum material suction gun (1) is communicated with a feeding hole of the dust collector (3);

also comprises a finished product material bag (5) corresponding to the discharge hole of the dust collector (3).

2. The lithium hydroxide micropowder vacuum extraction and bag-pouring device according to claim 1, characterized in that: the vacuum material suction gun (1) comprises a vacuum tube (11), a material suction tube (12) and an air inlet tube (13) communicated with the upper end of the material suction tube (12), wherein the lower end of the vacuum tube (11) is in plug fit with the upper end of the material suction tube (12) and is fixedly connected with the material suction tube through an annular retainer ring (14).

3. The lithium hydroxide micropowder vacuum extraction bag-pouring device according to claim 2, characterized in that: the lower end of the vacuum pipe (11) is inserted into the upper end of the material suction pipe (12) and then welded through an annular retainer ring (14), and the air inlet pipe (13) is positioned on one side of the material suction pipe (12) and serves as a side branch pipe.

4. The lithium hydroxide micropowder vacuum extraction bag-pouring device according to claim 2, characterized in that: and one end of the air inlet pipe (13) far away from the material suction pipe (12) is connected with an air filter (6).

5. The lithium hydroxide micropowder vacuum extraction and bag-pouring device according to claim 1, characterized in that: the feed inlet of dust arrester (3) is located the middle part of dust arrester (3), and the feed inlet of dust arrester (3) and vacuum inhale material rifle (1) and pass through vacuum conveying hose (7) intercommunication.

6. The lithium hydroxide micropowder vacuum extraction and bag-pouring device according to claim 1, characterized in that: the bottom of the dust collector (3) is of a conical structure, and a discharge hole of the dust collector (3) is positioned at the conical end of the conical structure of the dust collector (3) and is provided with a star-shaped valve (8).

7. The lithium hydroxide micropowder vacuum extraction and bag-pouring device according to claim 1, characterized in that: the discharge hole of the dust collector (3) is connected with the feed inlet of the buffering bin (9), and the discharge hole of the buffering bin (9) is connected with the finished product material bag (5).

8. The lithium hydroxide micropowder vacuum extraction and bag-pouring device according to claim 7, characterized in that: and a discharge hole of the buffer bin (9) is provided with a pneumatic butterfly valve (10).

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