KR101352441B1 - Pollutants inhaled automation device - Google Patents

Abstract

The present invention is applied to a form removal process and a powder transfer process in a foundry industry and a steel industry. The purpose of the present invention is to efficiently remove pollutants such as dust generated in a form removal work or a work for injecting molten steel in a form so that the present invention is beneficial to health for a worker by promoting pleasant work environments.

Description

Pollutants inhaled automation device

The present invention is applied to the demoulding process and the powder transfer process of the casting industry, steel industry, to effectively remove contaminants such as dust generated during injection operation or casting demoulding operation of the molten metal in a plurality of molds This automatic sequential movement while simultaneously removing and removing contaminants from the housing automatically moves gradually with the movement of the mold to quickly and accurately remove and remove contaminants such as dust, which is beneficial for worker's health. A contaminant suction automation device.

Domestic small and medium-sized casting companies are experiencing internal supply and demand problems and poor productivity due to poor working environment, and externally, they are faced with many difficulties in operating their businesses due to work environment regulation and air pollutant emission regulations.

The only way to solve these problems is to maintain a clean workplace environment, but it is difficult to spend a lot of money on environmental facilities due to the small size of the company and management difficulties.

Currently, environmental facilities installed in most domestic small and medium foundry plants are not manufactured based on accurate design and operate with only minimal functions.

In addition, most small and medium-sized foundries do not have dust collection facilities, and subcontractors are subcontracted to subcontractors in foreign companies, or illegal workers working in this process, and the average age of existing workers is 45-55 years old. As a matter of fact, after their retirement, there is no one to continue to work in this field, which is a serious condition for the national economy.

On the other hand, the generated dust is heavy and accumulated on the floor and scattered again, and only a small part of the fine dust is discharged through the exhaust system. Exhaust systems, which have been installed, have a large exhaust capacity but a duct installed too high in the upper part of the workplace. As there is no door to block the workplace and the outside, it acts as a factor that scatters the dust inside when a gust flows from the outside. As a result, some workplaces measured up to 9.82-24.835 mg / ㎥ (2 mg dust concentration of 5 mg / ㎥), and metal dusts of 0.37-3.925 mg / ㎥ exceeding the allowable concentration (metal chromium exceeding 0.5 mg / ㎥). As a matter of fact, many workplaces exceed the dust exposure standard under the Industrial Safety and Health Act.

In other words, at present, most of the castings and cast steel plants are equipped with exhaust facilities (dust collectors) to deal with the generated dust, but the emissions are less than 10% and most of them are spread within the workplaces, making the surrounding work environment worse. The situation is also damaging to other workers.

Korean Patent Registration No. 1193992 Korean Patent Publication No. 2012-55925 Korean Patent Publication No. 2012-55927 Korean Patent Registration No.875275

The present invention is to solve the problems as described above to effectively remove contaminants such as dust generated during the injection operation of the molten metal in the mold as a plurality of molds to automatically remove the contaminants while moving in sequence It is an object of the present invention to provide an automated device for inhaling contaminants that is beneficial to the health of the worker by promoting the comfort of the working environment by quickly and accurately inhaling and removing contaminants such as dust scattered by moving the housing automatically and gradually as the mold moves. have.

In order to achieve the above object,

"Guide rail provided with a long fixed in the longitudinal direction in the upper portion of the pillar member in the state provided with the pillar member on both sides,
It is provided to be movable in the transverse direction along the guide rail, the inlet and outlet holes are perforated on one side of the outer top, and the plurality of suction holes provided in the longitudinal direction to allow the suction of contaminants in multiple stages are perforated in the outer front part. A front part of which the suction hole is punctured, a housing for sucking contaminants formed to be inclined toward the lower side;
A plurality of fixing brackets provided in a state where a gap is maintained at a central portion of the upper surface of the outer surface of the housing;
A driving roller provided at one side of the fixed bracket and provided with a driving roller and a driven roller provided at the other side of the fixed bracket so as to move the housing along the guide rail by driving the motor;
It penetrates into the inlet / outlet of the housing to be automatically drawn in and out as the housing moves along the guide rail. The one side is fixed to the upper side of the pillar member by a bracket and has a long tubular dust in a longitudinal direction. The hood is coupled to the discharge pipe for discharging the back pollutants and the other side is provided with a suction portion penetrated inclined from the top to the bottom;
In the state where the plurality of molds are arranged in a row along the rails on the lower and front grounds of the housing, longitudinal ends of the rails are provided at both ends of the rails, and the molds arriving at the longitudinal rails are pushed by the first cylinder. Is provided with a mold moving means which is conveyed to the rear with respect to the housing along the rail and at the same time pushes the mold carried by the second cylinder to be transported along the rail provided at the rear of the housing. By doing so, the above object can be achieved.

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The present invention configured as described above is to effectively remove the contaminants such as dust generated during the injection operation of the molten metal dissolved in the mold, while the plurality of molds are automatically moved in sequence and at the same time the housing for suction removal of contaminants In this way, by gradually moving automatically and gradually inhaling and removing contaminants such as dust scattered, it is possible to improve the work environment and have a beneficial effect on the health of workers.

While the present invention has been shown and described with reference to certain preferred embodiments thereof, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, It will be understood that various changes and modifications may be possible without departing from the scope of the invention.

Figure 1 is a perspective view of the main part of the present inventors contaminant suction automation device,
Figure 2 is a perspective view of the housing in the inventors contaminant suction automation device,
3 is a side cross-sectional view of a housing showing a state in which dust or other contaminants are introduced into a hood by suction holes in the inhalation pollutant automation device of the present invention;
4 is a front view showing a state in which dust or contaminants are sucked into the suction hole of the housing in the contaminant suction automation device of the present invention, are introduced into the hood and discharged to the discharge pipe;
5 is a front view showing a state in which the housing is moved in the transverse direction in the contaminant suction automation device of the present invention,
6 is a perspective view of the present inventors contaminant suction automation device,
7 is an operation plan view showing the mold moving means in the present inventors automation device for inhaling pollutants;
8 is an operation plan view showing a state in which the mold of the mold moving means is pushed by the first cylinder from the rail to the longitudinal rail in the contaminant suction automation device of the present invention;
FIG. 9 is an operation plan view illustrating a state in which the mold of the mold moving means is pushed by the second cylinder from the vertical rail to the rail in the contaminant suction automation device according to the present invention.

Hereinafter, the detailed configuration and operation of the contaminant suction automation device of the present invention with reference to the drawings.

Figure 1 is a perspective view of the main part of the inventors of the contaminant suction automation device of the present invention, Figure 2 is a perspective view of the housing in the contaminant suction automation device of the present invention, Figure 3 is a suction hole in the contaminant suction automation device of the present invention dust or other contamination 4 is a side cross-sectional view of a housing showing a state in which a substance is sucked into the hood, and FIG. 4 illustrates a state in which dust or contaminants are sucked into the hood and discharged into the hood and discharged into the discharge pipe of the present invention. 5 is a front view showing a state in which the housing is moved in the transverse direction in the pollutant suction automation device of the present invention, FIG. 6 is an overall perspective view of the pollutant suction automation device of the present invention, FIG. An operation plan view showing the mold moving means in the material suction automation device, 8 is an operation plan view showing a state in which the mold of the mold moving means is pushed by the first cylinder from the rail to the longitudinal rail in the pollutant suction automation device of the present invention, Figure 9 is a mold movement in the pollutant suction automation device of the present invention An operation plan view showing a state in which the mold of the means is pushed by the second cylinder from the longitudinal rail back to the rail.

Hereinafter, the configuration of the present invention will be described.

Reference numeral 100 denotes a guide rail, and the guide rail 100 has a pillar member 110 provided at both sides of the pillar member 110 as shown in FIGS. 1 and 3 to 5. It is provided with a long fixed in the upper direction.

Reference numeral 200 denotes a housing, and the housing 200 is provided to be movable laterally along the guide rail 100 as shown in FIGS. As to discharge to the discharge pipe 320 through the hood 300,

Specifically, the housing 200
It is provided to be movable in the transverse direction along the guide rail 100, the lead-out hole 250 is perforated on one side of the outer upper end, the outer front portion is provided with a plurality of long in the longitudinal direction to allow the intake of contaminants in multiple stages The suction hole 260 is punctured and the front portion of the suction hole 260 is a structure that sucks contaminants formed to be inclined toward the lower side, and is provided in a state in which a gap is maintained at the center of the outer upper surface of the housing 200. A motor 220 is provided at one side of the two fixing brackets 210 and the main roller 230 is provided to move the housing 200 along the guide rail 100 by the driving of the motor 220. A driven roller 240 provided on the other side of the fixing bracket 210 is provided to move the left and right along the guide rail 100 to the driving roller 230 and the driven roller 240 by driving the motor 220. To the enable.

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Reference numeral 300 denotes a hood, and the hood 300 is a tubular shape elongated in the longitudinal direction and drilled in and out of the outer upper end side of the housing 200 as shown in FIGS. 1 and 4 and 5. Through and provided in the 250 is provided to be automatically withdrawn as the housing 200 moves along the guide rail 100 while being fixedly coupled to the upper side of the one pillar member 110 by the bracket 310 One side is coupled to the discharge pipe 320,

The long side in the longitudinal direction is coupled to the discharge pipe 320 for discharging contaminants such as dust and the other side is provided with a suction portion 330 is inclined inclined downward to the top.

Reference numeral 400 denotes a mold moving means, and the mold moving means 400 is provided with a plurality of molds F on the bottom and front and rear surfaces of the housing 200 as shown in FIGS. 6 to 9. Mold (F) is to move along the rail (R) from the front of the housing 200 to the rear, specifically,

In the state where the plurality of molds (F) are provided in a line along the rail (R), both ends of the rail (R) are provided with longitudinal longitudinal rails (410) to reach the longitudinal rails (410) (F) is pushed by the first cylinder 420 is conveyed to the rear with respect to the housing 200 along the longitudinal rail 410 and at the same time the mold (F) transported by the second cylinder 430 By pushing it to be transported along the rail (R) provided at the rear of the housing 200.

Hereinafter, the operation of the present invention will be described.

First, the overall configuration of the present invention is as shown in FIG. In other words, although not schematically illustrated in the drawing, when the operator injects the molten metal in the mold F after applying the power for the operation of the present invention by the operation of the controller, contaminants such as dust or gas at the same time. The housing 200 moves along the guide rail 100 in a suitable mold for scattering to the outside and injecting the user's choice by the operation of the motor 220, while the hood 300 is not shown in the drawing. The suction fan is provided at the suction part 330, and at this time, dust or gas such as dust or gas is sucked through the suction hole 260 perforated on the front surface of the housing 200, and the suction part 330 is sucked through the suction part 330. It is to be discharged past the suction discharge pipe (320).

This will be described in detail with reference to the operation as follows.

As shown in FIG. 6, when a worker injects molten metal into the mold F after applying power to the controller, when contaminants such as dust or gas are scattered to the outside, as shown in FIGS. 3 and 4. As the contaminants such as dust or gas are sucked in through the suction hole 260 perforated on the front surface of the housing 200, the pump 200 operates to discharge through the suction discharge pipe 320 through the suction part 330 of the hood 300. 5, when the position of the housing 200 is inconsistent with the mold F for injecting molten molten metal, the operator presses a pendant operation unit (not shown), thereby operating the motor 220. The housing 200 moves along the guide rail 100 to a suitable mold for injecting the molten metal to perform the suction process of dust and contaminants as described above.

On the other hand, the mold moving means 400 is to move gradually and if the mold in which the molten metal is injected is fixed as it is, the efficiency and speed of the work is deteriorated, and in such a state, it is impossible to move the housing 200 every moment. In view of the fact that it is efficient to move the mold (F) gradually, as shown in Figures 7 to 9 with the mold moving means 400 as shown in the specific operation, although the figure is shown one side In the state in which the mold (F) is provided in a line along the rail (R), both ends of the rail (R) are provided with longitudinal longitudinal rails (410), and the rail (R) is shown in FIG. As described above, the mold is circulated based on the housing 200, and a separate demolding operation is performed in the process in which the mold F is circulated to the rear of the housing 200. Since the omission is omitted and the longitudinal rails 410 are provided at both ends of the rail R, the mold F arriving at the longitudinal rails 410 is pushed by the first cylinder 420 as shown in FIG. , The mold is moved along the longitudinal rail 410 to the rail R provided at the rear with respect to the housing 200, and at the same time, the mold transferred by the second cylinder 430 as shown in FIG. 9 ( It is to be able to transport along the rail (R) provided at the rear of the housing 200 by pushing F).

As such, the operator sets the speed at which the molten metal is injected and the speed at which the mold F is moved by the controller to move the housing 200 for a predetermined time without moving the housing 200 every minute. When working, as shown in Figure 3 to Figure 5 through the hood 300 to automatically inhale dust or foreign matter and other harmful contaminants scattered in the workplace to discharge through the discharge pipe 320 to improve the environment of the workplace And health of workers.

100: guide rail 110: pillar member
200 housing 210 fixing bracket
220: motor 230: main roller
240: driven roller 250: drawing-out
260: suction hole 300: hood
310: bracket 320: discharge pipe
330: suction unit 400: mold moving means
410: vertical rail 420: first cylinder
430: second cylinder F: mold
R: Rail

Claims (4)

A guide rail 100 fixedly provided in the longitudinal direction on an upper portion of the pillar member 110 in a state where the pillar member 110 is provided at both sides,
It is provided to be movable in the transverse direction along the guide rail 100, the lead-out hole 250 is perforated on one side of the outer upper end, the outer front portion is provided with a plurality of long in the longitudinal direction to allow the intake of contaminants in multiple stages The above suction hole 260 is punctured and the front portion where the suction hole 260 is punctured has a housing 200 which sucks contaminants formed to be inclined toward the lower side;
A plurality of fixing brackets 210 provided in a state in which a gap is maintained at the center of the outer upper surface of the housing 200;
A motor 220 is provided at one side of the fixing bracket 210, and the main roller 230 provided to move the housing 200 along the guide rail 100 by driving the motor 220; A driven roller 240 provided at the other side of the fixing bracket 210;
Penetrating into the inlet and outlet holes 250 of the housing 200 is provided to be automatically withdrawn as the housing 200 moves along the guide rail 100, the bracket on the upper side of the pillar member 110 310 is fixedly coupled to one side is coupled to the discharge pipe 320 for discharging contaminants such as dust in a long tubular shape in the longitudinal direction and the other side is inlet 330 is inclined inclined from the top to the bottom Hood 300 is provided with a through,
In the state in which a plurality of molds (F) are provided in a line along the rail (R) in the front and rear of the lower surface of the housing 200, longitudinal longitudinal rails (410) are provided at both ends of the rail (R). The mold F arriving at the longitudinal rail 410 is pushed by the first cylinder 420 to be transported backward along the longitudinal rail 410 with respect to the housing 200, and at the same time, the second cylinder 430 Automated inhalation pollutants, characterized in that the mold moving means (400) is provided so as to be able to transport along the rail (R) provided in the rear of the housing 200 by pushing the mold (F) transferred by.


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