CN217773617U

CN217773617U - Magnesium chip magnesium powder collection device

Info

Publication number: CN217773617U
Application number: CN202221557942.6U
Authority: CN
Inventors: 母俊莉; 唐伟能; 祁卫东
Original assignee: Baosteel Metal Co Ltd
Current assignee: Baosteel Metal Co Ltd
Priority date: 2022-06-21
Filing date: 2022-06-21
Publication date: 2022-11-11
Anticipated expiration: 2032-06-21

Abstract

A magnesium chip and powder collecting device comprises: the upper end of the buffer cylinder is provided with a suction pipe with a telescopic structure; the dedusting bin is internally provided with an upper bin chamber and a lower bin chamber through partition plates; the left side and the right side of the partition board are respectively provided with at least one mounting through hole; the two drawer-type magnesium chip magnesium powder receiving boxes are arranged on two sides in the lower chamber of the dust removal bin, the rear ends of the drawer-type magnesium chip magnesium powder receiving boxes are provided with openings, and correspondingly, the back surface of the dust removal bin is provided with a through hole corresponding to the left and the right of the lower chamber; the top surface of the drawer-type magnesium chip and magnesium powder receiving box is provided with a connecting through hole corresponding to the mounting through hole of the partition plate; the two secondary filters are respectively arranged at two sides in the upper bin of the dust removing bin and fixed at the mounting through holes of the partition plate, and the inlet ends of the two secondary filters correspond to the connecting through holes on the top surface of the drawer type magnesium chip magnesium powder receiving box; and the inlet end of the suction fan is connected with the lower end port of the buffer cylinder, the outlet of the suction fan is communicated with two through holes which are arranged on the left and right sides of the lower part of the back surface of the dust removing bin through a connecting channel, and a switching device which can switch the two through holes to be communicated with the buffer cylinder is arranged in the connecting channel.

Description

Magnesium chip magnesium powder collection device

Technical Field

The utility model relates to a magnesium and magnesium alloy technical field, in particular to magnesium bits powdered magnesium collection device.

Background

Magnesium and magnesium alloy sectional materials can generate magnesium chips in the cutting process, and magnesium powder, the magnesium chips and the magnesium powder are particularly easy to generate natural phenomena because the magnesium is a metal with particularly active chemical properties; if magnesium chips and magnesium powder generated in the cutting process of magnesium and magnesium alloy are not properly treated, fire can easily happen.

Disclosure of Invention

An object of the utility model is to design a magnesium bits magnesium powder collection device, solve magnesium bits, magnesium powder to the influence of environment, avoid the potential safety hazard that magnesium bits, magnesium powder spontaneous combustion brought, be a recovery unit again simultaneously.

In order to achieve the above purpose, the technical scheme of the utility model is that:

a magnesium chips magnesium powder collection device, it includes:

the upper end of the buffer cylinder is provided with a suction pipe with a telescopic structure;

the dedusting bin is internally provided with a partition plate to form an upper bin chamber and a lower bin chamber which correspond to the upper bin chamber and the lower bin chamber, and the upper bin door and the lower bin door are respectively arranged on the upper side and the lower side of the front surface of the dedusting bin; the left side and the right side of the partition board are respectively provided with at least one mounting through hole;

the two drawer-type magnesium chip magnesium powder receiving boxes are arranged on two sides in the lower chamber of the dust removal bin, the rear ends of the drawer-type magnesium chip magnesium powder receiving boxes are provided with openings, and correspondingly, the back surface of the dust removal bin is provided with a through hole corresponding to the left and the right of the lower chamber; the top surface of the drawer-type magnesium chip and magnesium powder receiving box is provided with a connecting through hole corresponding to the mounting through hole of the partition plate;

the two secondary filters are respectively arranged at two sides in the upper bin of the dust removal bin, are fixed on the mounting through holes of the partition plate, and the inlet ends of the two secondary filters correspond to the connecting through holes on the top surface of the drawer type magnesium chip magnesium powder receiving box;

and the inlet end of the suction fan is connected with the lower port of the buffer cylinder, the outlet of the suction fan is communicated with the two through holes which are arranged on the left and right sides of the lower part of the back surface of the dust removing bin through a connecting channel, and a switching device capable of switching the two through holes to be communicated with the buffer cylinder is arranged in the connecting channel.

Further, the device also comprises a nitrogen generator which is connected with the lower part of the secondary filter through a back flushing pipeline.

And the top of the dust removal bin is provided with a nitrogen recovery port and a movable nitrogen recovery pipe.

Preferably, the top of the dedusting bin is provided with a nitrogen recovery port and a movable nitrogen recovery pipe, and the movable nitrogen recovery pipe is connected with the nitrogen generator.

Preferably, the telescopic structure of the straw is designed by a corrugated pipe.

And a movable nitrogen pipeline is also arranged, one end of the movable nitrogen pipeline is connected with the nitrogen generator, and the other end of the movable nitrogen pipeline can be selectively arranged at the inlet of the suction pipe.

Furthermore, the collecting device also comprises a walking trolley, and the collecting device is arranged on the walking trolley.

The utility model discloses in the magnesium bits magnesium powder collection device:

the straw has a telescopic function, and the height of the straw can be adjusted according to actual use conditions during use.

The magnesium chips and the magnesium powder are sucked into the buffer cylinder, so that the sedimentation speed of the magnesium powder and the magnesium chips can be controlled.

The drawer type magnesium chip and magnesium powder receiving box is designed, and can be conveniently drawn out. The collected magnesium chips and magnesium powder are left in the drawing type sealed collecting box, air and moisture are isolated by nitrogen, the magnesium chips and the magnesium powder are prevented from reacting with water vapor in the air, and the magnesium chips and the magnesium powder are prevented from being burnt and exploded due to the fact that the magnesium chips and the magnesium powder contact the air or are suspended in the air.

And separating magnesium chips, magnesium powder and nitrogen by using a filter, settling the separated magnesium chips and magnesium powder downwards in a drawing type sealed collecting box at the lower part, and feeding the separated clean nitrogen into a nitrogen generator to be used as sweeping gas for continuous recycling.

The nitrogen generator provides high-purity dry nitrogen for the whole system, so that the magnesium chips and the magnesium powder are always in an inert gas environment, and the fire hazard caused by the natural phenomenon of the magnesium chips and the magnesium powder is prevented.

The utility model has the advantages that:

the utility model discloses use nitrogen gas to sweep magnesium bits, magnesium powder, isolated air and steam contact magnesium bits, magnesium powder.

The utility model discloses collect inflammable, explosive active metal bits and powder such as magnesium bits, magnesium powder, guaranteed that places such as workshop, laboratory are clean and tidy, effectively avoided magnesium bits, magnesium powder because the potential safety hazard that leads to naturally.

The utility model discloses concentrate and collect magnesium bits, magnesium powder, avoid other impurity to sneak into, provide convenience for recycling of magnesium bits, magnesium powder.

The utility model discloses use grouping design secondary filter to filter magnesium bits, magnesium powder, raise the efficiency, seamless switching, the filter cylinder is strained with changing to the clearance storage drawer that does not shut down, makes magnesium bits, magnesium powder be in the safety ring border all the time at the collection in-process, accomplishes safety ring promptly, in time collects magnesium bits, magnesium powder again as the secondary energy, and nitrogen gas can be retrieved simultaneously, has accomplished energy saving and emission reduction's effect simultaneously again.

Drawings

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

Fig. 2 is a schematic structural diagram of embodiment 1 of the present invention.

Fig. 3 is a schematic structural view of the dust removing bin in embodiment 1 of the present invention.

Fig. 4 is a schematic structural diagram of embodiment 2 of the present invention.

Detailed Description

Referring to fig. 1 to fig. 3, the magnesium chips and magnesium powders collecting device of the present invention comprises:

a buffer cylinder 1, the upper port of which is provided with a suction pipe 2 with a telescopic structure;

the dedusting bin 3 is internally provided with a partition plate to form an upper bin 31 and a lower bin 32 which correspond to the upper bin 31 and the lower bin 32, and the upper bin door and the lower bin door are respectively arranged on the upper side and the lower side of the front surface of the dedusting bin 3; the left side and the right side of the partition board are respectively provided with at least one mounting through hole;

the two drawer-type magnesium chip magnesium powder receiving boxes 4 are arranged on two sides in the lower chamber of the dust removal chamber 3, the rear end of each drawer-type magnesium chip magnesium powder receiving box 4 is opened, and correspondingly, the back surface of the dust removal chamber 3 is provided with a through hole 301 and a through hole 302 corresponding to the left and the right of the lower chamber 32; the top surface of the drawer-type magnesium chip and magnesium powder receiving box 4 is provided with a connecting through hole corresponding to the mounting through hole of the partition board;

at least two secondary filters 5 which are respectively arranged at two sides in the upper chamber 31 of the dust removing bin 1 and are fixed in the mounting through holes of the partition plate, and the inlet ends of the secondary filters correspond to the connecting through holes on the top surface of the drawer type magnesium chips magnesium powder receiving box 4;

the inlet end of the suction fan 6 is connected with the lower end of the buffer cylinder 1, the outlet of the suction fan is communicated with the two through

holes

301 and 302 arranged on the left and right sides of the lower part of the back surface of the dust removing bin 3 through a connecting channel 7, and a switching device capable of switching the two through

holes

301 and 302 to be communicated with the buffer cylinder 1 is arranged in the connecting channel 7.

Referring to fig. 4, the present invention further comprises a nitrogen generator 7 connected to the lower portion of the secondary filter 5 through a blowback pipe 8.

In this embodiment, four secondary filters 5 are provided, two by two disposed on two sides of the upper compartment 31 of the dust-removing bin 1, and fixed on the partition 33 respectively.

The top of the dust removing bin 3 is provided with a nitrogen recovery port 303 and a movable nitrogen recovery pipe 9.

Preferably, the top of the dedusting bin 3 is provided with a nitrogen recovery port 303 and a movable nitrogen recovery pipe 9, and the movable nitrogen recovery pipe is connected with the nitrogen generator 7.

And a movable nitrogen pipeline 10 is also arranged, one end of the movable nitrogen pipeline is connected with the nitrogen generator 7, and the other end of the movable nitrogen pipeline can be selectively arranged at the inlet of the suction pipe 2. Before the magnesium material cutting machine starts to work, the nitrogen generator generates high-purity nitrogen, the nitrogen is blown in from the inlet of the suction pipe, the blown nitrogen drives the air in the whole system to the outside of the system, and the collected magnesium chips and magnesium powder are immediately isolated from the air and are in a nitrogen protection environment.

Preferably, the telescopic structure of the suction pipe 2 adopts a bellows design.

Furthermore, the device also comprises a walking trolley 11, and the collecting device is arranged on the walking trolley, so that the whole device can be conveniently moved.

Magnesium chips and magnesium powder enter the buffer cylinder through the suction pipe under the action of the powerful suction fan, the height of the telescopic structure of the suction pipe can be adjusted according to specific use conditions, and the shape of the inlet of the suction pipe is a suction inlet with a proper shape selected according to the shape of a cut profile.

Before the magnesium material cutting machine starts to work, the nitrogen generator generates high-purity nitrogen, the nitrogen is blown in from the inlet of the nitrogen suction pipe, and the blown nitrogen drives the air in the whole system to the outside of the system, so that the collected magnesium chips and magnesium powder are immediately isolated from the air and are in a nitrogen protection environment. When the magnesium material cutting machine starts to work, magnesium chips and magnesium powder generated by cutting continuously enter the buffer cylinder through the suction pipe under the action of dry nitrogen purging and the suction fan, then enter the drawer-type magnesium chip and magnesium powder receiving box in the dust removal bin through the connecting channel, the magnesium chips and the magnesium powder are filtered by the secondary filter in the dust removal bin, and the collected magnesium chips and the collected magnesium powder are placed to a designated safe storage position to be recycled according to requirements.

The left drawer type magnesium chip and the right drawer type magnesium chip and magnesium powder receiving boxes can be separately controlled through the switching device in the connecting channel, when one receiving box drawer is opened and taken away for cleaning, the magnesium chips and the magnesium powder can be collected to the other receiving box through the control of the switching device, and vice versa.

And (4) starting the nitrogen generator regularly according to specific use conditions, and supplementing nitrogen into the bin. The whole device is used in a benign working state, and safety accidents caused by the nature of magnesium chips and magnesium powder are effectively prevented.

Claims

1. The utility model provides a magnesium bits powdered magnesium collection device which characterized in that includes:

the upper port of the buffer cylinder is provided with a suction pipe with a telescopic structure;

the two drawer-type magnesium chip magnesium powder receiving boxes are arranged on two sides in the lower chamber of the dust removal bin, the rear ends of the drawer-type magnesium chip magnesium powder receiving boxes are provided with openings, and correspondingly, the back surface of the dust removal bin is provided with a through hole corresponding to the left and the right of the lower chamber; the top surface of the drawer-type magnesium chip magnesium powder receiving box is provided with a connecting through hole corresponding to the mounting through hole of the partition plate;

and the inlet end of the suction fan is connected with the lower port of the buffer cylinder, the outlet of the suction fan is communicated with two through holes which are formed in the left and right sides of the lower part of the back surface of the dust removal bin through a connecting channel, and a switching device capable of switching the two through holes to be communicated with the buffer cylinder is arranged in the connecting channel.

2. The magnesium chips-magnesia powder collecting device of claim 1 further comprising a nitrogen generator connected to the lower portion of said secondary filter through a blowback pipe.

3. The magnesium chips and magnesium powder collecting device of claim 1, wherein a nitrogen recovery port and a movable nitrogen recovery pipe are arranged at the top of the dust removal bin.

4. The magnesium dust and magnesium powder collecting device of claim 2, wherein the top of the dust removing bin is provided with a nitrogen recovery port and a movable nitrogen recovery pipe, and the movable nitrogen recovery pipe is connected with the nitrogen generator.

5. The magnesium chips-magnesia powder collecting apparatus as set forth in claim 2, further comprising a movable nitrogen gas pipe having one end connected to the nitrogen gas generator and the other end selectively disposed at the suction pipe inlet.

6. The magnesium dust collecting device of claim 1, wherein the telescopic structure of the suction pipe is designed as a bellows.

7. The magnesium chips and powder collecting device of claim 1, further comprising a traveling trolley, wherein the collecting device is arranged on the traveling trolley.