KR102447520B1 - apparatus locally collecting acid vapor - Google Patents

Abstract

The present invention relates to an apparatus for locally collecting acid vapor. The apparatus for locally collecting acid vapor, according to the present invention, comprises: a vacuum ejector having an acid vapor inlet formed vertically in an upper part thereof, a pneumatic inlet, and an acid vapor outlet; and a ring blower. Therefore, the present invention can increase the durability of the ring blower and extend the service life thereof.

Description

Acid vapor local precipitator {apparatus locally collecting acid vapor}

The present invention relates to an acid vapor local dust collector, and more particularly, sulfuric acid vapor generated during the plating process is dust-collected using a ring blower. In an acid vapor local dust collector that can increase the durability of the ring blower and extend its service life by allowing dust to be collected by pneumatic pressure without going through the ring blower without damaging the impeller of the blower and other internal components due to acid corrosion. it's about

In general, the plating process includes a so-called acid washing process in which rust generated on the metal surface is washed and removed with a washing solution such as hydrochloric acid or sulfuric acid, a water washing process in which the acid-washed metal surface is washed with water, and a flux (flux) on the surface to increase plating efficiency ) is carried out through a series of steps including a flux process for coating, and a plating process for plating the surface.

In the acid washing process, flux process, and plating process, fume (mist + gas) is generated by the chemical reaction of each washing solution and treatment solution, and the fume is a mixture of various chemical components constituting each solution, Not only is it serious, but it is harmful to the human body, so if it is left as it is, work efficiency may be reduced, and it may adversely affect the health of the worker.

Therefore, the plating facility is equipped with a hood device for collecting fumes generated in each treatment process and discharging them to the outside of the workshop.

An example of a dust collector according to the prior art is disclosed in Korean Patent Publication No. 10-2002-0081751 (published on October 30, 2002, hereinafter referred to as 'Patent Document 1') and the like.

On the other hand, as another example of the dust collector according to the prior art, there is a case where the acid vapor generated during the plating process is locally collected using a ring blower.

At this time, the acid vapor is sucked in to the inlet side by the rotation of the impeller provided inside the ring blower and discharged. There is a problem that the service life of the entire dust collector may be shortened because acid corrosion may cause the ring blower to be easily damaged.

Korean Patent Publication No. 10-2002-0081751 (published on October 30, 2002)

An object of the present invention is to collect sulfuric acid vapor generated during the plating process using a ring blower, but as the sulfuric acid vapor passes through the inside of the ring blower during the dust collection process of sulfuric acid vapor, acid corrosion of internal parts including the impeller of the ring blower An object of the present invention is to provide an acid vapor local dust collector capable of increasing the durability of the ring blower and extending its service life by collecting dust by pneumatic pressure without going through the ring blower without being damaged by the ring blower.

In order to achieve the above object, according to the present invention, in a dust collector for collecting sulfuric acid vapor generated during a plating process, an acid vapor inlet to which a dust collecting hose or a dust collecting pipe extending into the plating process space is connected to the upper part is perpendicular to the upper part. A pneumatic inlet through which compressed air discharged from the ring blower is introduced is formed on one side of the horizontal part horizontally arranged in the horizontal direction at the acid steam inlet, and the horizontal part is connected to the outlet side of the ring blower to be described later. a vacuum ejector having an acid vapor outlet through which sulfuric acid vapor introduced through the acid vapor inlet is discharged to the other side; and a ring blower having a discharge port connected to the pneumatic inlet of the vacuum ejector, and provided so that compressed air is supplied to the pneumatic inlet side of the vacuum ejector by an impeller rotated by driving of a motor;

In the vacuum ejector, the inner diameter of a portion adjacent to the middle portion of the horizontal portion is gradually reduced and then gradually expanded toward the front and rear, and the acid steam inlet is located at the rear of the portion in which the inner diameter of the horizontal portion is reduced. It is formed to cross the pneumatic inlet in the horizontal direction, so that sulfuric acid vapor generated in the plating process is sucked through the acid vapor inlet by the vacuum formed while compressed air exits from the pneumatic inlet to the acid vapor outlet. It is characterized in that it is discharged toward the acid vapor outlet.

Here, a plurality of the ring blowers are provided to be partitioned inside the ring blower casing to form an upper and lower multi-stage structure, and a plurality of vacuum ejectors are provided to correspond to the ring blowers forming the upper and lower multi-stage structure, so that each of the ring blowers is individually provided. It is preferable that it is provided to be connected to.

And, it is preferable that the local acid vapor dust collector according to the present invention further includes a scrubber connected to the acid vapor outlet of the vacuum ejector so that the sulfuric acid vapor collected and discharged from the vacuum ejector is purified.

According to the present invention, sulfuric acid vapor generated during the plating process is dust-collected using a ring blower, but as the sulfuric acid vapor passes through the inside of the ring blower during the dust collection process of the sulfuric acid vapor, internal parts including the impeller of the ring blower are damaged by acid corrosion, etc. It is possible to provide an acid vapor local dust collector capable of increasing the durability of the ring blower and extending its service life by allowing dust to be collected by pneumatic pressure without being damaged by the ring blower.

1 is a perspective view showing the configuration of an acid vapor local dust collector according to the present invention;
Figure 2 is a perspective view showing the internal configuration of the ring blower casing of Figure 1;
3 is a perspective view and a front view of a ring blower according to the present invention;
4 is a perspective view of a vacuum ejector according to the present invention;
5 is a side configuration view of the vacuum ejector of FIG. 4;
Figure 6 is a front view showing that the ring blower according to the present invention is provided in the upper and lower two-stage structure inside the ring blower casing,
7 is a plan view from above that the ring blower according to the present invention is provided inside the ring blower casing;
Figure 8 is a side view showing that the ring blower according to the present invention is provided in the upper and lower two-stage structure inside the ring blower casing.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

As shown in FIGS. 1 and 2, the local acid vapor dust collector according to the present invention is for collecting sulfuric acid vapor generated during the plating process, and includes a dust collecting hose 111 or a dust collecting pipe extending into the plating process space. The acid steam inlet 110 connected to the upper portion is formed vertically on the upper portion and the discharge port 220 of the ring blower 200 is disposed on one side of the horizontal portion 120 horizontally disposed in the horizontal direction to the acid steam inlet 110 . A pneumatic inlet 121 connected to the side and through which compressed air discharged from the ring blower 200 is introduced is formed, and the other side of the horizontal part 120 is an acid through which sulfuric acid vapor flowing in through the acid steam inlet 110 is discharged. The vacuum ejector 100 in which the vapor outlet 123 is formed, the outlet 220 is connected to the pneumatic inlet 121 of the vacuum ejector 100, and the impeller 201 rotates by driving the motor 205. It includes a ring blower 200 provided to supply compressed air to the pneumatic inlet 121 side of the ejector 100 .

Here, in the vacuum ejector 100, as shown in FIGS. 4 and 5, the inner diameter of any part adjacent to the middle part of the horizontal part 120 is gradually reduced and then gradually expanded toward the front and rear. The acid steam inlet 110 is formed to cross the pneumatic inlet 121 in the horizontal direction at the rear of the reduced inner diameter of the horizontal portion 120, and the acid steam outlet 123 from the pneumatic inlet 121 side. Sulfuric acid vapor generated in the plating process is sucked through the acid vapor inlet 110 by the vacuum formed while the compressed air exits to the side, so that it is discharged toward the acid vapor outlet 123 .

Accordingly, the sulfuric acid vapor generated during the plating process is dust-collected using the ring blower 200, but while the sulfuric acid vapor passes through the inside of the ring blower 200 during the dust collection process of the sulfuric acid vapor, the impeller of the ring blower 200 ( 201) without being damaged by acid corrosion or the like, by allowing dust to be collected by the vacuum ejector 100 by pneumatic pressure without going through the ring blower 200, so that the durability of the ring blower 200 is increased and used It is possible to provide an acid vapor local dust collector that can also extend the lifespan.

As an embodiment of the present invention, as shown in FIGS. 4 and 5 , the front and rear sides of the horizontal portion 120 of the vacuum ejector 100 each have a ratio of 2:3 based on the reduced inner diameter portion. It is preferable to be prepared to achieve this.

Accordingly, the rear portion of the horizontal portion 120 of the vacuum ejector 100 is provided shorter than the front portion based on the reduced inner diameter, so that the compressed air and acid steam inlet 110 introduced through the pneumatic inlet 121 are introduced. Sulfuric acid vapors sucked in through the sulphate meet each other and mix, then pass quickly from the horizontal part 120 toward the reduced inner diameter part by the Bernoulli principle, and smooth exhaust through the acid vapor outlet 123 in the front. can make it happen.

In addition, as shown in FIG. 5 , the inclination angle of the portion extending from the rear of the horizontal portion 120 of the vacuum ejector 100 to the reduced inner diameter portion extends to the reduced inner diameter portion in front of the horizontal portion 120 . It is preferable that it is provided to have an abrupt inclination of about 1.5 to 3.5 times the inclination angle of the part to be used.

Accordingly, the sulfuric acid vapor introduced into the interior of the vacuum ejector 100 is formed so that the inner diameter of the portion leading to the portion with the reduced inner diameter from the rear of the horizontal portion 120 of the vacuum ejector 100 is formed to be more rapidly reduced than the front. It is possible to be discharged more quickly and smoothly through the acid vapor outlet 123 without being stagnant in the vacuum ejector 100 .

Here, when the inclination angle at which the rear inner diameter is reduced in the horizontal part 120 of the vacuum ejector 100 is less than 1.5 times the inclination angle at which the front inner diameter is reduced, the sulfuric acid gas introduced into the vacuum ejector 100 is discharged. The speed is slightly lowered, and if it exceeds 3.5 times, the inner diameter may be reduced too rapidly, resulting in stagnation of sulfuric acid gas.

The ring blower 200 is, as shown in FIGS. 3 and 7 , an impeller 201 installed to rotate inside the casing, and a motor 205 connected to the impeller 201 to drive the rotation of the impeller 201 . ), and a suction port 210 through which outside air is sucked is formed on one side of the casing in which the impeller 201 is installed, and on the other side of the casing, the suctioned air is compressed by the rotation of the impeller 201 and discharged. 220 is formed.

That is, in the ring blower 200, when the impeller 201 is rotated by the high-speed rotational force of the motor 205, external air is sucked into the inside of the casing through the suction port 210, and the centrifugal force generated by the rotating impeller 201 The pressure is increased by , and as it passes through the inside of the casing, it becomes compressed air by the vortex motion generated between the blades of the impeller 201 and is supplied to the inside of the vacuum ejector 100 through the discharge port 220 .

At this time, as shown in FIGS. 1 to 3 , the discharge port 220 of the ring blower 200 is connected to the pneumatic inlet 121 of the vacuum ejector 100 by a hose or a pipe.

Accordingly, by allowing the outlet 220, not the inlet 210, of the ring blower 200 to be connected to the vacuum ejector 100, the sulfuric acid vapor bypasses the inside of the ring blower 200 without passing through the vacuum ejector 100. It is possible to fundamentally block damage to internal components, including the impeller 201 of the ring blower 200, by acid corrosion and the like.

Figure 3 (a) is a perspective view of the ring blower 200 according to the present invention, Figure 3 (b) is a front view of the ring blower 200 according to the present invention.

Here, as shown in FIGS. 2 and 6 , a plurality of ring blowers 200 are respectively partitioned inside the ring blower casing 300 to form an upper and lower multi-stage structure, and the vacuum ejector 100 has an upper and lower multi-stage structure. It is preferable that a plurality of pieces are provided to correspond to the ring blower 200 constituting the .

Accordingly, by making the ring blower 200 compactly configured in an upper and lower multi-stage structure inside the ring blower casing 300, the space efficiency of the local acid steam local dust collector according to the present invention is improved, The dust collector can be conveniently installed and used in a cramped space, and a plurality of vacuum ejectors 100 are also provided to correspond to the ring blowers 200 so that sulfuric acid vapor is collected, thereby further improving the efficiency of collecting acid vapor. can make it happen

As an embodiment of the present invention, it is preferable that the ring blower 200 is installed in two up and down to form a two-step structure in the upper and lower parts of the ring blower casing 300 .

Here, as shown in FIGS. 1 and 2, the ring blower casing 300 in which the ring blower 200 is installed includes a ring blower frame 310 constituting the skeleton of the exterior, and as shown in FIG. , it is preferable that the control panel 320 is provided on one side of the ring blower casing 300 so that the user can control the operation of the ring blower 200 from the outside.

On the other hand, as shown in Figure 8, the suction port 210 of the ring blower 200 is preferably provided with a suction filter 211 including the form of a mesh (mesh) net.

Accordingly, when the motor 205 of the ring blower 200 is operated, outside air is sucked into the inside of the ring blower 200 through the suction port 210, and foreign substances mixed in the outside air are filtered out by the suction filter 211. can

At this time, the size of the mesh mesh through-hole of the suction filter 211 is preferably formed to have an inner diameter of about 2.5 mm.

Accordingly, while the reduction in suction pressure by the suction filter 211 is minimized, relatively large foreign substances mixed with the outside air can be effectively filtered by the suction filter 211 .

As an embodiment of the present invention, the suction pressure through the suction port 210 of the ring blower 200 is about 2,200 mmAq, the discharge pressure through the discharge port 220 is about 3,000 mmAq, and the maximum air volume is about 1.65 ㎥/min It is preferable to be

On the other hand, as shown in FIG. 7, between the casing provided with the impeller 201 of the ring blower 200 therein and the discharge port 220, the compressed air is discharged to the vacuum ejector 100 through the discharge port 220. It is preferable that a discharge silencer 221 to reduce city noise is provided.

Accordingly, generated when the compressed air exits from the casing provided inside the impeller 201 to the discharge port 220 so that compressed air flows from the ring blower 200 to the pneumatic inlet 121 of the vacuum ejector 100 Noise is reduced by the discharge silencer 221 , so that the use environment of the vacuum ejector 100 can be improved.

In addition, as shown in FIG. 6 , it is preferable that a vibration-proof rubber 207 is provided between the portion where the ring blower 200 is installed and the lower portion of the ring blower 200 in the inside of the ring blower casing 300 .

Here, it is preferable that both ends of the anti-vibration rubber 207 are in close contact with the ring blower frame 310, and the middle portion is bent to form a shape of a leaf spring by enclosing the ring blower 200 from the bottom.

Accordingly, the vibration load generated by the operation of the motor 205 of the ring blower 200 is effectively buffered and attenuated by the vibration-proof rubber 207 so that the durability of the ring blower 200 can be further improved.

On the other hand, as shown in FIGS. 1 and 2 , the local acid vapor precipitator according to the present invention is connected to the acid vapor outlet 123 of the vacuum ejector 100 to collect and discharge sulfuric acid vapor in the vacuum ejector 100 . It is preferable to further include a scrubber 400 that allows the purification process.

Accordingly, the compressed air supplied from the ring blower 200 passes at a high speed and is collected by the vacuum ejector 100 that forms a vacuum, and the sulfuric acid vapor that is discharged without going through the ring blower 200 is bypassed and discharged by the scrubber 400 . It can be transferred to the scrubber 400 to be easily purified and removed.

The scrubber 400 is provided so that the sulfuric acid vapor introduced from the vacuum ejector 100 is purified by being in contact with them through injection of water or water and other absorbents inside, and then purified air is discharged to the outside.

At this time, the liquid used for cleaning in the scrubber 400 is usually water, but in some cases, a surface active agent may be mixed and used. In addition, the water that has been circulated once is recirculated and used. In addition, in order to increase the contact area with the sulfuric acid vapor to increase the collection effect, the type of nozzle may be changed according to the shape and size of the sprayed water droplet, or the water pressure for jetting may be increased.

Although the technical aspects have been described in the accompanying drawings and described above, the technical idea of the present invention is for the description, and does not limit the invention, and those of ordinary skill in the art It will be understood that various modifications and changes of the present invention can be made without departing from the technical scope of the present invention described in the following claims.

100: vacuum ejector 110: acid vapor inlet
111: dust collection hose 120: horizontal part
121: pneumatic inlet 123: acid vapor outlet
200: ring blower 210: inlet
211: suction filter 220: outlet
221: discharge silencer 300: ring blower casing
310: ring blower frame 320: control panel
400: scrubber

Claims (3)

In the dust collector for collecting sulfuric acid vapor generated during the plating process,
The acid steam inlet 110 to which the dust collecting hose 111 or the dust collecting pipe extending into the plating process space is connected to the upper part is formed vertically on the upper part, and the horizontal part is horizontally disposed in the horizontal direction at the acid vapor inlet 110 . A pneumatic inlet 121 through which compressed air discharged from the ring blower 200 is introduced is formed on one side of the 120, which is connected to the outlet 220 of the ring blower 200 to be described later, and the horizontal portion 120 ) at the other side of the vacuum ejector 100 having an acid vapor outlet 123 through which sulfuric acid vapor flowing in through the acid vapor inlet 110 is discharged; and
The discharge port 220 is connected to the pneumatic inlet 121 of the vacuum ejector 100, and the pneumatic inlet 121 of the vacuum ejector 100 is rotated by the impeller 201 rotated by the driving of the motor 205 toward the pneumatic inlet 121 side. Ring blower 200 provided to supply compressed air;
including,
The vacuum ejector 100 is formed such that the inner diameter of a portion adjacent to the middle portion of the horizontal portion 120 is gradually reduced and then gradually expanded toward the front and rear, and the acid steam inlet 110 is the It is formed to cross the pneumatic inlet 121 at the rear of the reduced inner diameter of the horizontal portion 120 in the horizontal direction, and compressed air exits from the pneumatic inlet 121 side to the acid steam outlet 123 side. Sulfuric acid vapor generated in the plating process by the vacuum formed during the plating process is sucked through the acid vapor inlet 110 and discharged to the acid vapor outlet 123 side,
A plurality of the ring blowers 200 are respectively partitioned inside the ring blower casing 300 to form an upper and lower multi-stage structure, and the vacuum ejector 100 corresponds to the ring blower 200 forming an upper and lower multi-stage structure. A plurality of pieces are provided so as to be individually connected to the ring blower 200,
Further comprising a scrubber 400 connected to the acid vapor outlet 123 of the vacuum ejector 100 so that the sulfuric acid vapor collected and discharged from the vacuum ejector 100 is purified,
Based on the reduced inner diameter of the horizontal portion 120 of the vacuum ejector 100, the front and rear are provided to form a ratio of 2:3, respectively,
The inclination angle of the portion extending from the rear of the horizontal portion 120 of the vacuum ejector 100 to the reduced inner diameter portion is 1.5 to 3.5 of the inclination angle of the portion extending to the reduced inner diameter portion in front of the horizontal portion 120 . Acid vapor local dust collector, characterized in that it is provided to have a sharp inclination to the ship.

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