KR101597904B1 - Recovery device of fume and flux - Google Patents

Abstract

The present invention relates to a device to collect fume and flux comprising: a main body to form an appearance; a collection part having a fume collection pipe to collect fume, a flux suction pipe to collect flux, and a connection pipe having one end connected to the fume collection pipe and the fume suction pipe, and an other end connected to one side of the main body; a filter part having a centrifugal separator to separate the flux from mixed air wherein the fume and the flux are mixed, a flux filter to filter the flux from the mixed air passed the centrifugal separator, a fume filter to filter the fume from the mixed air passed the flux filter; and a driving part to generate a suction force to suck the fume or the flux through the collection part. According to the present invention, the fume and the flux are collected and processed by one collection device at once; thus reducing an operation space to improve operation environments. Moreover, the present invention improves a user′s convenience by collecting both the fume and the flux with one collection device.

Description

[0001] The invention relates to a fume and flux recovery device,

The present invention relates to a fume and flux recovery device, and more particularly, to a fume and flux recovery device capable of collecting and treating fumes and flux generated at the same time by a single recovery device.

Generally, submerged arc welding (SAW) is performed in heavy piping, flat plate, etc. in the field of heavy industry. In submerged arc welding, most welding processes are automated. Submerged arc welding supplies flux (flux, a solvent that prevents the metal surface dissolved in the welding process to the atmosphere) to the welding area and provides an arc between the wire tip automatically supplied in the flux and the base metal ) Is generated to continuously perform welding.

As disclosed in Korean Patent Laid-Open Publication No. 2014-0033866, a conventional flux recovery apparatus is composed of a flux hopper, an ejector for flux forced suction, and a flux supply nozzle.

However, in the above-described flux recovery device, the flux can be recovered, but it is necessary to separately provide a device for collecting the fumes generated during the welding, so that the fume can be recovered, requiring a wide working space, There is.

Korean Patent Publication No. 2014-0033866 (Publication date 2014. 03. 19)

An object of the present invention is to provide a fume and flux collecting device capable of collecting and treating fumes and flux generated at the time of welding with a single collecting device.

The fume and flux recovery apparatus of the present invention comprises a main body for forming an outer appearance, a fume collecting tube for collecting fumes, a flux suction pipe for collecting flux, one end connected to the fume collecting tube and the flux suction pipe, A centrifugal separator for separating the flux from the mixed air in which the fume and the flux are mixed, a flux filter for filtering the flux from the mixed air having passed through the centrifugal separator, A filter unit having a fume filter for filtering the fume from the mixed air having passed through the flux filter and a driving unit for generating a suction force for sucking the fume or flux through the collecting unit.

The driving unit may include a vacuum pump.

The vacuum pump may provide a driving force of the centrifugal separator and a suction force for sucking the fume or flux.

The driving unit may include a vacuum pump for providing a suction force for sucking the fume or flux, and a motor for driving the centrifuge.

The connecting portion may further include a reinforcing portion coupled to a portion where the flux collides with the mixed air when the mixed air is sucked.

The recovery unit may further include a connector for connecting the fume collector tube and the flux suction pipe.

The connector may include a reinforcing portion coupled to a portion where the flux impinges upon intake of the mixed air.

The fume collecting tube and the flux suction tube may have a variable length, and the fume collecting tube may include a holder that is mounted on an object to be installed.

And a recovery container for storing the flux recovered from the centrifugal separator and the flux suction pipe.

The fume and flux recovery device of the present invention comprises a main body for forming an outer appearance, a fume collecting tube for collecting the fume, a flux suction pipe for collecting the flux, one end connected to the fume collecting tube and the flux suction pipe, A centrifugal separator for separating the flux from the mixed air in which the fume and the flux are mixed, and a filter for filtering the flux from the mixed air having passed through the centrifugal separator A filter unit having a flux filter and a fume filter for filtering the fume from the mixed air having passed through the flux filter and a driving unit for generating a suction force for sucking the fume or flux through the return unit, The centrifugal separator, the flux filter and the fume filter are arranged in two rows, or the centrifugal separator, the flux filter, It is characterized in that an emitter arranged in a straight line.

And a flow path for allowing the centrifugal separator, the flux filter, and the fume filter to communicate with each other so that the mixed air sequentially passes through the centrifugal separator, the flux filter, and the fume filter.

The driving unit may include a vacuum pump for providing a driving force of the centrifugal separator and a suction force for sucking the fume or flux.

The driving unit may include a vacuum pump for providing a suction force for sucking the fume or flux, and a motor for driving the centrifuge.

The fume and flux recovering apparatus according to an embodiment of the present invention collects and processes the fumes and the flux at one time by using a single recovering device, thereby reducing the work space and improving the working environment. In addition, since the fume and the flux can be recovered by one recovery device, the convenience of the operator is improved.

1 is a schematic view of a fume and flux recovery apparatus according to an embodiment of the present invention,
2 is a view showing a connection pipe of the fume and flux recovery apparatus according to an embodiment of the present invention,
FIG. 3 is a schematic view of a fume and flux recovery apparatus according to another embodiment of the present invention.

Hereinafter, a fume and flux recovery apparatus according to an embodiment of the present invention will be described in detail with reference to the drawings.

FIG. 1 is a schematic view of a fume and flux recovery apparatus according to an embodiment of the present invention, and FIG. 2 is a view illustrating a connection pipe of a fume and flux recovery apparatus according to an embodiment of the present invention.

1 and 2, the fume and flux recovery apparatus 10 according to an embodiment of the present invention includes a main body 12 that forms an outer appearance, and fume and flux A filter unit 200 for filtering the recovered fumes and fluxes, a driving unit 300 for generating a suction force for sucking the fumes and fluxes, a filter unit 300 for storing the recovered and filtered fluxes, And a recovery container 400.

The air containing the fumes and the flux recovered through the one side of the main body 12 through the recovery unit 100 flows into the main body 12 and the air from which the fumes and the flux are removed passes through the other side of the main body 12, (12).

The recovery unit 100 includes a fume collector 110 for collecting fumes, a flux suction pipe 130 for recovering flux, a connection pipe 150 for connecting the fume collector pipe 110 and the flux suction pipe 130, ).

The fume collector pipe 110 and the flux suction pipe 130 are each branched from the end of the connection pipe 150 and are preferably provided in a form capable of flowing and variable in length.

The fume collector pipe 110 may be integrally formed at one end of the connection pipe 150 or may be separately formed and tightly coupled to the connection pipe 150, and the other end may be extended to a position for sucking the fume. For this purpose, the fume collector pipe 110 may be formed in a shape capable of varying its length, and a ring or a holder 112 may be provided at the other end.

One end of the flux suction pipe 130 is integrally formed or separately formed at the end of the connection pipe 150, and the other end is extended and used by the user for flux recovery. When the user needs to recover the flux, the flux suction pipe 130 is moved to a required position to recover the flux. The used flux suction pipe 130 may be hung on the connection pipe 150 or may be provided with a ring or a holder for fixing the connection pipe 150 to the connection pipe 150 so as not to flow at the end of the connection pipe 150 .

One end of the connection pipe 150 is coupled to one side of the recovery unit 100 and the fume collection pipe 110 and the flux suction pipe 130 are coupled to the other end. The connection pipe 150, the fume collector pipe 110, and the flux suction pipe 130 may be integrally formed, or may be separately provided and interconnected. In this case, a separate connector 170 is provided to connect the connection pipe 150 to the fume collector pipe 110 and the flux suction pipe 130 through the connector 170. When the connector 150, the fume collector pipe 110 and the flux suction pipe 130 are integrally formed or the connector 170 is provided, the reinforcing portion 152 may be commonly provided.

The reinforcing portion 152 is provided at a portion where the flux collides inside the connector pipe 150 or the connector 170 when the flux is sucked through the flux suction pipe 130. Since the flux has a certain size and weight, the flux particles struck a certain portion of the connector pipe 150 or the connector 170 due to the speed at which the flux is sucked. The force is applied by the impact of the flux, and heat is generated at the collision portion, so that there is a possibility that the collision portion is damaged due to the continuous flux collision. Therefore, it is preferable that the reinforcing portion 152 is provided at the impact portion of the flux to prevent damage to the connector pipe 150 or the connector 170 due to the flux collision. The reinforcing portion 152 is preferably made of a material having a higher rigidity than the flux, and is provided in a larger area than the impact portion, so that the flux can be prepared for collision.

The filter unit 200 includes a centrifugal separator 210 for recovering and separating the flux, a flux filter 230 for filtering the remaining flux that is not filtered through the centrifugal separator 210, a centrifugal separator 210, And a fume filter 250 for removing fine fumes passing through the filter 230. It is preferable that the filter unit 200 is formed with a flow path 270 through which the recovered fumes and the filter are introduced and sequentially passed through the centrifugal separator 210, the flux filter 230, and the fume filter 250.

That is, the air including the fume and the flux flowing into the main body 12 through the connection pipe 150 flows into the flux filter 230 through the centrifugal separator 210, passes through the flux filter 230 And is discharged to the outside of the main body 12 through the fume filter 250.

The centrifugal separator 210 separates the flux in the air mixed with the fume and the flux by centrifugal force and gravity. The mixed air is rotated in the centrifugal separator 210. The relatively heavier flux falls and collects in the recovery container 400. The relatively light flux and fine fume are discharged to the outside of the centrifugal separator 210 by centrifugal force I get out. For this purpose, the recovery container 400 is preferably provided under the centrifuge 210. The mixed air exiting the centrifugal separator 210 flows into the flux filter 230.

The flux filter 230 separates the flux in the air mixed with the fume and the flux that have passed through the centrifugal separator 210. The flux that does not pass through the flux filter 230 falls and flows into the recovery container 400 Gathered. Therefore, it is preferable that the recovery container 400 is provided below the flux filter 230. The recovery container 400 may be provided under the centrifugal separator 210 and the flux filter 230, or may have a size sufficient to cover both of them. . The mixed air having passed through the flux filter 230 flows into the fume filter 250.

The fume filter 250 is preferably a fine filter that filters fumes in the mixed air that has passed through the flux filter 230 and filters the fume, which is fine powder having a particle diameter of 1 μm or less. The air from which the fumes are removed is discharged to the outside of the main body 12 through one side of the main body 12.

As described above, the suction force for sucking the mixed air so that the air in which the fume and the flux are mixed is sucked through the fume collecting tube 110 and the flux suction pipe 130 and discharged through the filter unit 200, Lt; / RTI >

The driving unit 300 may be provided with a vacuum pump 310 and may provide a suction force for sucking the mixed air and a driving force for driving the centrifugal separator 210. In this case, the vacuum pump 310 and the centrifugal separator 210 are connected to each other by a separate gear set, so that the suction force and the driving force can be simultaneously provided.

Alternatively, the driving unit 300 may include a vacuum pump 310 and a motor 330. The motor 330 is used as a driving source for driving the centrifugal separator 210 and may be directly connected to the centrifugal separator 210 or may be connected to the centrifugal separator 210 by a separate gear set to provide a driving force.

The filter unit 200 is arranged in a two-row parallel structure so as to reduce the size of the main body 12 and the mixed air passes through the centrifugal separator 210, the flux filter 230, and the fume filter 250 sequentially And may be connected to the flow path 270.

1, the filter unit 200 includes a centrifugal separator 210 disposed at one side of the main body 12 to which the connection pipe 150 is coupled, a centrifugal separator 210 disposed at one side of the centrifugal separator 210, The filter 230 and the fume filter 250 may be stacked. At this time, the centrifugal separator 210 is installed to discharge the flux to the lower part of the main body 12, and one of the flux filter 230 and the fume filter 250 is stacked on the upper part, do. The flow path 270 is formed so that the mixed air passing through the centrifugal separator 210 passes first through the flux filter 230 and passes through the fume filter 250.

When the fume filter 250 is stacked on the flux filter 230, the flow path 270 is formed on the lower side of the centrifugal separator 210 so that only the centrifugal separator 210 and the flux filter 230 are communicated, (230) and the fume filter (250).

When the flux filter 230 is stacked on the upper portion of the fume filter 250, the flow path 270 is formed on the upper side of the centrifugal separator 210 to allow only the centrifugal separator 210 and the flux filter 230 to communicate with each other, (230) and the fume filter (250).

When the filter units 200 are arranged in series, the width of the main body 12 may be larger than when the filter units 200 are arranged in parallel. However, when the filter units 200 are arranged in series, And the collecting device 10 may be disposed at the lower part of the welding workbench.

Therefore, when the filter unit is arranged in series or in parallel, it takes less work space and the working environment is improved. Further, since the fume and the flux can be collectively collected and processed by one collecting device, the convenience of the operator is improved.

Although the filter units are arranged in a parallel structure in the above-described embodiment, the filter units may be arranged in a serial structure (for convenience, the same reference numerals are used for the same structures as those in the above embodiment, ).

FIG. 3 is a schematic view of a fume and flux recovery apparatus according to another embodiment of the present invention.

3, the fume and flux recovering device 10 'according to another embodiment of the present invention is configured such that the mixed air passes through the centrifugal separator 210, the flux filter 230, and the fume filter 250 sequentially The filter units 200 'may be arranged in a series structure. That is, the centrifugal separator 210, the flux filter 230, and the fume filter 250, which are the constituents of the filter unit 200 ', may be arranged on a straight line and connected to the flow path 270.

In this case, a centrifugal separator 210 is installed on one side of the main body 12 to which the connection pipe 150 is coupled, a flux filter 230 is disposed on the downstream side of the centrifugal separator 210, And a fume filter 250 is disposed at a rear end thereof, and the space between them is connected with a flow path 270.

One embodiment of the present invention described above and shown in the drawings should not be construed as limiting the technical spirit of the present invention. The scope of the present invention is limited only by the matters described in the claims, and those skilled in the art can improve and modify the technical spirit of the present invention in various forms. Accordingly, it is intended that the present invention cover the modifications and variations of this invention provided they come within the scope of the appended claims and their equivalents.

10: Collecting device 12:
100: recovery unit 110: fume collector pipe
130 flux suction pipe 150 connection pipe
152: connector 154:
200, 200 ': filter unit 210: centrifugal separator
230: flux filter 250: fume filter
270: flow path 300: driving part
400: Collection container

Claims (13)

A body forming an outer appearance,
A recovery unit having a fume collector tube for collecting the fumes, a flux suction pipe for recovering the flux, a connection pipe connected to the fume collector pipe and the flux suction pipe at one end and connected to one side of the main body,
A centrifugal separator for separating the flux from the mixed air in which the fume and the flux are mixed, a flux filter for filtering the flux from the mixed air having passed through the centrifugal separator, A filter portion having a fume filter for filtering the filter portion,
And a driving unit for generating a suction force for sucking the fume or flux through the recovery unit. The method according to claim 1,
Wherein the driving unit comprises a vacuum pump. 3. The method of claim 2,
Wherein the vacuum pump provides a suction force for sucking the driving force of the centrifugal separator and the fume or flux. The method according to claim 1,
Wherein the driving unit includes a vacuum pump for providing a suction force for sucking the fume or flux, and a motor for driving the centrifuge. The method according to claim 1,
Wherein the coupling tube further comprises a reinforcing portion coupled to a portion where the flux impinges upon intake of the mixed air. The method according to claim 1,
Wherein the recovery unit further comprises a connector for connecting the fume collector tube and the flux suction pipe. The method according to claim 6,
Wherein the connector includes a reinforcing portion coupled to a portion where the flux collides when the mixed air is sucked. 8. The method according to any one of claims 5 to 7,
Wherein the fume collecting tube and the flux suction tube have a shape capable of varying the length thereof, and the fume collecting tube includes a holder which is mounted on an object to be installed. The method according to claim 1,
And a recovery vessel for storing the flux recovered from the centrifuge and the flux suction pipe. A body forming an outer appearance,
A recovery unit having a fume collector tube for collecting the fumes, a flux suction pipe for recovering the flux, a connection pipe connected to the fume collector pipe and the flux suction pipe at one end and connected to one side of the main body,
A centrifugal separator for separating the flux from the mixed air in which the fume and the flux are mixed, a flux filter for filtering the flux from the mixed air having passed through the centrifugal separator, A filter portion having a fume filter for filtering the filter portion,
And a driving unit for generating a suction force for sucking the fume or flux through the recovery unit,
Wherein the filter unit includes the centrifugal separator, the flux filter and the fume filter arranged in two rows, or the centrifugal separator, the flux filter, and the fume filter are arranged in a straight line. 11. The method of claim 10,
And a flow path for connecting the centrifugal separator to the flux filter and the fume filter so that the mixed air sequentially passes through the centrifugal separator, the flux filter, and the fume filter. 11. The method of claim 10,
Wherein the driving unit includes a vacuum pump for providing a suction force for sucking the driving force of the centrifuge and the fume or flux. 11. The method of claim 10,
Wherein the driving unit includes a vacuum pump for providing a suction force for sucking the fume or flux, and a motor for driving the centrifuge.

Images