KR200375784Y1 - De-airing device for pug mill - Google Patents

Abstract

The vacuum device for a drill machine of the present invention is a device for preventing the passage of air in the soil from being blocked by the soil during the passage of the soil so that the air inside the soil is discharged to the outside smoothly.

The screen is formed inside the main body is formed with a plurality of through holes for penetrating the soil transported by the screw, a hole is formed in the main body on the outlet side of the screen, the air in the main body is wrapped around the hole of the main body A vacuum tank for moving to the outside is installed on the outside of the main body, a vacuum pump for discharging the air in the vacuum tank to the outside is connected to the vacuum tank, the vacuum device for a trainer machine, the vacuum tank and the inside of the main body It comprises a hollow pipe-shaped air discharge guide member for communicating between, the air discharge port is formed in the front end of the air discharge guide member located inside the main body, the position of the air discharge port is transferred by a screw It is formed at a position opposite to the direction of progress of the soil.

Description

Vacuum device for refining machine {DE-AIRING DEVICE FOR PUG MILL}

The present invention relates to a vacuum device for discharging the air inside the soil transported by the reinforcing machine to the outside, and more particularly, to a vacuum device for the reinforcing machine that can easily prevent clogging of the vacuum device.

In general, if there is air in the soil used in ceramic factories, product defects may occur in the process of baking ceramics, etc. .

Thus, as shown in FIG. 5, a screen 103 is installed to block the central portion of the screw 102 that is rotated inside the main body 101 and transports soil, thereby forming a central portion of the main body 101. The air is discharged from the outlet of the screen 103 through the hole 101a, and the screen 103 having a plurality of through holes is inserted from the outside of the main body 101 to be installed at the outside of the screw 102. The central portion is blocked, and the hole 101a is formed in the upper portion of the main body 101 on the outlet side of the screen 103, and the air passing through the hole 101a of the main body 101 passes through the vacuum tank 104. Transfer to the inside, the vacuum tank 104 is connected with the vacuum pump 105.

So, the soil transported from the screw 102 passes through the screen 103, the air inside the soil is transferred to the vacuum tank 104 through the hole 101a due to the vacuum state formed on the outlet side thereof, The air inside the vacuum tank 104 is discharged by the vacuum pump 105, so that the soil transported to the outlet side of the screw 102 is discharged to the outside in the air is removed.

However, since air is discharged to the outside through the hole 101a formed in the upper portion of the main body 101 as in the related art, the hole 101a of the main body 101 is formed in the path through which the soil passes, and the soil is screw 102 In the process of moving by) soil is introduced into the hole 101a of the main body 101 to block the hole (101a), there is a disadvantage that it is difficult to discharge the air inside the soil to the outside.

As a result, almost all plows currently produced are composed of two axes to remove the air in the soil, which increases the cost of the product.

The present invention is designed to solve the conventional problems as described above, by preventing the formation of a hole in the path through the soil by preventing the clogging due to the soil can be smoothly carried out the air discharge work inside the soil vacuum The object is to provide a device.

Therefore, the present invention, in order to solve the problems of the prior art as described above, a screen having a plurality of through-holes for penetrating the soil transported by the screw is installed inside the main body, the main body of the exit side of the screen A hole is formed, and a vacuum tank for enclosing the hole of the main body to move the air in the main body to the outside is installed outside the main body, and a vacuum pump for discharging the air inside the vacuum tank to the outside is connected to the vacuum tank. In the vacuum device for a drill machine comprising: a hollow pipe-shaped air discharge guide member for communicating between the vacuum tank and the inside of the main body, the air at the tip of the air discharge guide member located inside the main body The discharge port is formed, and the direction of movement of the soil that transfers the position of the air outlet port by a screw Provided is a vacuum device for a reinforcement machine, which is formed at a facing position.

Hereinafter, described in detail with reference to the accompanying drawings a preferred embodiment of the vacuum device for a drill machine of the present invention.

1 is a view showing an example of a vacuum device for a drill machine according to the present invention, Figures 2 to 4 is a view showing another example of the vacuum device for a drill machine according to the present invention.

The vacuum device for the drill machine is installed inside the main body 3 so as to block the soil from the screen (2) formed with a plurality of through holes (2a) for penetrating the soil transported by the screw (1) And a hole 3a is formed in the main body 3 on the outlet side of the screen 2, and surrounds the hole 3a of the main body 3 to move the air in the main body 3 to the outside. (4) is provided on the outside of the main body 3, the vacuum pump 5 for discharging the air inside the vacuum tank 4 to the outside is made of a structure that is connected to the vacuum tank (4).

As an example, the vacuum apparatus of the present invention includes a hollow pipe-shaped air discharge guide member 10 communicating between the vacuum tank 4 and the inside of the main body 3, as shown in FIG. .

In particular, an air discharge port 10a is formed at a tip end of the air discharge guide member 10 located inside the main body 3, and the air discharge port 10a formed in the air discharge guide member 10 is the screw ( Characterized in that it is formed at a position opposite to the traveling direction of the soil to be transported by 1).

That is, since the soil passing through the through hole 2a of the screen 2 moves in the longitudinal direction of the screw 1 while being rotated according to the rotation of the screw 1, the soil is transferred along the spiral trajectory, As shown in FIG. 3, the air outlet 10a of the air discharge guide member 10 is formed at the right side of the drawing when the screw 1 is rotated in the clockwise direction.

Then, the soil moving by the screw 1 is not directly introduced into the air outlet (10a) of the air discharge guide member 10, and the soil is air due to the viscosity of the soil mixed with water The outlet 10a cannot be blocked.

On the other hand, the present invention, as shown in Figures 1 and 2, it is preferable that the air discharge guide member 10 is detachably inserted and fixed to the mounting portion (4a) formed inside the vacuum tank (4).

In particular, in order to smoothly twist the advancing direction of the soil in the rotational direction of the screw 1, as shown in FIGS. 2 to 4, in the present invention, the screen 2 is fixed to the center of the screw 1. It is fixed to the screen installation portion 2b includes a structure that is rotated with the screw (1).

The vacuum device for a drill according to the present invention made as described above acts as follows.

First, the air pump 5 is operated to make the inside of the vacuum tank 4 in a vacuum state, and the soil is supplied to the main body 3 to operate the screw 1.

Then, the soil is rotated by the screw 1 in accordance with the rotation of the screw (1) is transported in the longitudinal direction, the soil to be transported is pressed while passing through the through hole (2a) of the screen (2).

Then, the compressed soil is recombined at the outlet side of the screen (2), at which time the air inside the main body (3) of the screen (2) through the air outlet (10a) formed in the air discharge guide member (10) It enters into the vacuum tank 4, and the air in the vacuum tank 4 is discharged | emitted to the exterior by the vacuum pump 5. As shown in FIG.

Thus, since the inside of the main body 3 on the outlet side of the screen 2 maintains a vacuum state, the air inside the soil to be transported while mixing is smoothly discharged and then discharged to the outlet side of the main body 3.

Of course, since the air outlet 10a of the air discharge guide member 10 is formed at a position opposed to the direction of the soil, the soil mixed with water has a viscous force, so the soil does not flow into the air outlet 10a. As the screw 1 moves, it moves and mixes.

As described above, since the air discharge port is not formed in the path through which the soil passes, the vacuum device for the drill according to the present invention does not have a clogging phenomenon caused by the soil transported by the screw, resulting in excellent workability. It is possible to discharge air smoothly.

1 is a partial cross-sectional view showing an example of a vacuum device for a reinforcing machine according to the present invention.

Figure 2 is a partial cross-sectional view showing another example of the vacuum device for a reinforcing machine according to the present invention.

3 is an enlarged cross-sectional view of portion A of FIG. 2;

4 is a cross-sectional view taken along line B-B of FIG.

5 is a partial cross-sectional view of a vacuum device for a reinforcing machine according to the related art.

<Explanation of symbols for main parts of drawing>

1: screw

2: screen

2b: Screen installation

3: body

4: vacuum tank

4a: installation

10: air discharge guide member

10a: air outlet

Claims (3)

A screen having a plurality of through holes for penetrating the soil conveyed by the screw is formed inside the main body, a hole is formed in the main body on the outlet side of the screen, and the air in the main body is enclosed by surrounding the hole of the main body. In the vacuum device for the cultivator comprising a vacuum tank for moving to the outside of the main body, the vacuum pump for discharging the air in the vacuum tank to the outside is connected to the vacuum tank, It comprises a hollow pipe-shaped air discharge guide member 10 for communicating between the vacuum tank 4 and the inside of the main body 3, An air outlet 10a is formed at the front end of the air discharge guide member 10 located inside the main body 3, and the air outlet 10a formed in the air discharge guide member 10 is a screw (1). Vacuum apparatus for a drill machine, which is formed in a position opposite to the traveling direction of the soil to be transported by. The method of claim 1, The air discharge guide member (10) is a vacuum device for a drill machine consisting of a removable insert fixed to the installation portion (4a) formed inside the vacuum tank (4). The method of claim 1, The vacuum device for a reinforcement machine comprising a screen (2) is fixed to the central portion of the screw (1) is rotated with the screw (1).