KR20230001832U - Modular Die - Google Patents

Abstract

The present invention relates to an explosion attenuation fitting for a device that manufactures fuel rods using a mixed material of combustible waste and food waste,
Inside the circular tube body 11, a screw hole 16 is formed that is assembled with a screw formed at the bottom of the fuel rod discharge pipe assembled in the extrusion mold, and the entire inner surface excluding the screw hole 16 has slots for explosion attenuation at regular intervals. (12) is formed, and in each explosion attenuation slot (12), small-diameter holes (13) are formed in the longitudinal direction of the circular tube body (11), and the small-diameter holes (13) are directed to the outside of the circular tube body (11). Inclined holes 14 are formed, and large-diameter holes 15 are formed in the inclined holes 14, and on the opposite side of the screw hole 16, a flat machining edge is provided at the end of the outer surface of the circular tube body 11 by inserting a tool. (17) is characterized by being formed.
This present invention can greatly reduce the phenomenon of generating explosive noise when the mixed material passes through a high-temperature extrusion mold and is molded into a fuel rod, the moisture contained in the mixed material expands instantaneously and is discharged through the fuel rod discharge pipe. It has a useful effect in solving the noise pollution problem.

Description

Explosion attenuation metal fitting for a device that manufactures fuel rods using a mixed material of combustible waste and food waste {Modular Die}

.

[Technical field to which the design belongs and prior art in that field]

The present invention relates to an explosion attenuation fitting for a device that manufactures fuel rods using a mixed material of combustible waste and food waste. Here, the mixed material refers to a mixture of food waste and combustible waste in a ratio of 5:5.

When manufacturing fuel rods using a mixed material of combustible waste and food waste, the mixed material passes through a high-temperature extrusion mold and is formed into a fuel rod. At this time, the moisture contained in the mixed material instantly expands and flows through the fuel rod discharge pipe. As it is released, binge drinking occurs.

Therefore, the above-mentioned binge drinking causes continuous noise in the workplace, thereby causing noise pollution in the workplace.

Meanwhile, looking at Utility Model Registration No. 20-0465814 registered by the inventor of the present design, it can be seen that the pipe for attenuating the explosion as described above, as in the present design, is assembled with screws at the bottom of the fuel rod discharge pipe. The tube body has spline-shaped grooves formed on the inside.

However, according to the present inventor's experiments, the spline-shaped groove inside the above-mentioned pipe body can slightly attenuate heavy drinking, but the effect is low, so improvement measures are required.

Utility Model Registration No. 20-0465814

[Technical challenges that the design aims to achieve]

Accordingly, the task of the present invention is to provide a prefabricated mold that can solve the problem of low binge reduction effect resulting from the above-mentioned prior art.

[Construction and operation of the design]

The present invention to solve the above-mentioned technical problem is structured as follows.

In the present invention, as shown in the attached drawings including Figure 6, a screw hole 16 is formed inside the circular tube body 11 to be assembled with a screw formed at the bottom of the fuel rod discharge pipe assembled in the extrusion mold, and the screw hole 16 is formed. Excluding the entire inner surface, slots 12 for attenuating binge drinking are formed to maintain a certain distance, that is, a gap of about 3 mm to 5 mm, and each binge attenuating slot 12 is located in the longitudinal direction of the circular tube 11 as shown in Figure 5. Small-diameter holes 13 are formed, and inclined holes 14 facing the outside of the circular tube body 11 are formed in the small-diameter holes 13, and large-diameter holes 15 are formed in the inclined holes 14. It is formed on the opposite side of the screw hole 16 and at the end of the outer surface of the circular tube body 11, planar machining edges 17 are formed that can be clamped by inserting a tool such as a spanner.

Therefore, the explosion exploding into the atmosphere through the fuel rod discharge pipe is attenuated primarily through the explosion attenuation slit 12 of the present invention, and the explosion attenuated primarily in this way is attenuated secondarily through the small diameter hole 13 described above. The explosive sound that has been attenuated in this way spreads through the inclined hole (14) and is attenuated in a third way. Then, it is attenuated in a fourth way through the large diameter hole (15) and then spreads into the atmosphere, causing noise pollution in the workplace. Experimental results were obtained that the problem causing the was solved.

Here, Figure 5 is only an example of the present invention, and the length of the circular tube body 11 can be further extended, and the number of small diameter holes 13, inclined holes 14, and large diameter holes 15 will naturally increase accordingly. It is revealed that it is possible.

Meanwhile, looking at an example of use of the present invention for reference, in the fuel rod manufacturing device illustrated in Figures 1 and 2, the mixed material moved through the first conveyor falls and passes through the hopper (4d) into the hole (4c) of the auxiliary cylinder (4b). When entering the auxiliary cylinder (4b) through ), the piston rod (4a) located in the auxiliary cylinder (4b) assembled with the hydraulic cylinder (4) for supplying materials advances to the right and moves the injected mixed fuel into the compression cylinder (3). At this time, the piston rod (2a) of the hydraulic cylinder (2) for material compression moves down to move the mixed material downward so that it remains in a compressed state at the top of the extrusion mold.

This operation is carried out continuously, so that when the height of the mixed material compressed and stacked in the compression cylinder (3) reaches the appropriate level, the hydraulic cylinder for supplying the material (4) stops operating and the hydraulic cylinder for compressing the material (2) immediately operates. Therefore, the piston rod (2a) applies pressure to the mixed material laminated inside the compression cylinder (3) to be molded into a rod body through an extrusion mold, and the fuel rod formed in this way is connected to the fuel rod discharge pipe and the binge attenuation metal fitting (10) of the present invention. ) and is fed into the cutting device through the second conveyor. Here, a heater is assembled in the extrusion mold as shown in the drawing to generate high heat of around 200 degrees Celsius in the extrusion mold.

The present invention as described above can greatly reduce the phenomenon of generating explosive noise when the mixed material passes through a high-temperature extrusion mold and is molded into a fuel rod, the moisture contained in the mixed material instantly expands and is discharged through the fuel rod discharge pipe. It has a useful effect in solving noise pollution problems in the workplace.

Figure 1 is a reference diagram showing the state of use of the present invention.
Figure 2 is a partial cross-sectional view from the front based on Figure 1.
Figure 3 is a partial enlarged view based on Figure 2.
Figures 4 and 5 are partial enlarged views based on Figure 3.
Figure 6 is a perspective view of the present invention.

.

11: Circular tube 12: Slit for reducing binge drinking 13: Small diameter hole
14: inclined hole 15: large diameter hole

Claims (1)

Inside the circular tube body 11, a screw hole 16 is formed that is assembled with a screw formed at the bottom of the fuel rod discharge pipe assembled in the extrusion mold, and the entire inner surface except the screw hole 16 has slots for explosion attenuation at regular intervals. (12) is formed, and in each explosion attenuation slot (12), small-diameter holes (13) are formed in the longitudinal direction of the circular tube body (11), and the small-diameter holes (13) are directed to the outside of the circular tube body (11). Inclined holes 14 are formed, and large-diameter holes 15 are formed in the inclined holes 14, and on the opposite side of the screw hole 16, a flat machining edge is provided at the end of the outer surface of the circular tube body 11 by inserting a tool. (17) A metal fitting for detonation attenuation of a device for manufacturing fuel rods using a mixed material of combustible waste and food waste, characterized in that it is formed by forming.