KR200255652Y1 - Tower internals grid packing - Google Patents

Abstract

The present invention relates to a grid packing of a distillation column for separating substances on the basis of distillation in petroleum refining, petrochemical and fine chemistry, etc. The embossing process is performed so as to form, and the blocking grooves 3 are formed vertically at the upper end and the lower end of the bent portion of the main body 1. The structure is simple and easy to manufacture. By spreading the material evenly throughout the grid packing, it can maximize the effect of distillation, and also embossing at regular intervals throughout the grid packing to form long grooves for maximum mechanical strength. It is a useful design.

Description

Tower packing of tower internals for distillation units

The present invention relates to grid packing of a distillation column that separates materials on the basis of distillation, absorption and cooling in petroleum refining, petrochemical and fine chemicals, and forms vertical grooves at regular intervals throughout the grid packing. The purpose is to allow the liquid to spread evenly on the surface of the grid packing through this groove, and also to maximize the mechanical strength by embossing the upper part and the connecting part of the main body.

Generally, in the fields of petroleum refining, petrochemical, fine chemistry, etc., and in the scrubber and absorber fields for the removal of harmful gases or organics, In this case, grid packing and structural packing are stacked in multiple stages inside the tunnel, which is a tower, and liquid liquid is poured down from the top, and vapor is injected into the bottom to separate the liquid liquid by distillation, cooling, and absorption. have.

However, grid packing, which has been used in the past, has installed grid packing inside the tower in tunnel to distill the liquid liquid (absorption of steam and cooling of steam). After cutting and bending to form a grid packing by bending each part up or down, the conventional grid packing is a method that is simply configured to be inclined downward so that the liquid liquid is separated and flows down when the liquid liquid flows down There is a disadvantage in that it continues to flow only once flow, and this has a difficult problem, such as waste of unnecessary energy is reduced distillation efficiency, steam absorption and cooling efficiency.

That is, the conventional grid packing is a configuration in which the metal plate is simply vertically cut and then the bent portion is bent downward to the left and right, and thus the mechanical strength is weak, so when stacking several other grid packings on top of the grid packing, the bent portion is squeezed and the inclination angle There is a disadvantage that this is wrong, in this case the liquid liquid is agglomerated falling without flowing through the grid packing, there was a problem that the distillation, absorption, cooling efficiency is lowered.

The present invention is designed to solve the above problems, by forming grooves at regular intervals in the grid packing bent downward to the left, right to prevent the material from overflowing to one side to uniformly surface the material riding on the grid As a flow, the material is spread by the grid installed at the lower end to facilitate distillation, absorption, and cooling, and the embossing treatment is performed at regular intervals throughout the grid to maximize mechanical strength. Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

1 is a perspective view of the present invention

Figure 2 is an enlarged plan view of the main part showing the present invention blocking groove

Figure 3 is a plan view of the excerpt grid packing of the present invention

Figure 4 is an enlarged cross-sectional view of the main portion showing a blocking groove of the present invention

5 is a side cross-sectional view of the grid packing

Figure 6 is an enlarged cross-sectional view of the main part of the embossed portion of the present invention

7 is a perspective view showing the entire assembly state of the present invention connected to the grid packing

** Description of symbols for the main parts of the drawing **

1. Grid packing body 2. Long groove 3. Blocking groove

In the grid packing by cutting the metal plate vertically, and then bending the cut portions downward to the left and right and connecting several metal plates, the long grooves 2 are formed in the upper part and the connecting part of each grid packing body 1. The embossing process is carried out as much as possible, and the blocking groove 3 is formed perpendicularly to the upper end and the lower end of the bent portion of the main body 1.

In the embodiment of the present invention, even if the protrusion forming the blocking projection formed in the upper end and the lower end of the main body 1 can obtain the same effect as the present invention.

Referring to the structure of the present invention made as described above are as follows.

Embossing is performed on the metal plate to form a long reinforcing long groove, and then a blocking groove is formed again.

In the above state, the metal plate is vertically cut, and then each cut portion is bent upward and horizontally.

The grid packing is manufactured by connecting several plates as described above, and then welding them to fix them.Then, several grid packings are stacked in a spiral at an angle of 45 ° to a predetermined thickness and then installed inside the tower interior. will be.

That is, when the liquid phase liquid is injected from the upper part of the tower internal in the lamination of the grid packing as described above, and steam is introduced from the lower part, the liquid liquid flows from the upper part of the grid packing to the lower part.

As described above, when the liquid liquid falls to the upper portion of the grid packing body 1, the liquid liquid is caused to flow to the lower side without the material flowing to one side by the blocking groove 3 formed in the bent portion of the grid packing.

That is, the liquid liquid dropped between the blocking groove 3 and the blocking groove formed at the upper end of the grid packing body 1 does not flow to one side by the blocking groove 3 and flows vertically as it is, thereby preventing material from flowing together. In this way, the material can be spread evenly on the surface of the grid packing to maximize the effect of distillation.

In more detail, when the liquid liquid falls on the upper portion of the grid body 1, the liquid liquid does not overflow by the blocking groove 3 formed in the grid body 1 when the liquid flows through the grid packing to the lower portion. It flows only within the gap formed in the blocking groove, and thus liquid liquid flows in a state where it is spread out in the entire state without being aggregated in the grid main body 1, thereby maximizing distillation, absorption, and cooling.

On the other hand, by maximizing the mechanical strength of the grid packing by the long grooves 2 formed by the embossing process on the grid packing body 1, when several grid packing bodies 1 are continuously stacked at 45 ° spirally, By preventing the angle of the bent portion by the load, the liquid liquid flows to the bottom of the grid accurately to maximize the effect of distillation.

As described above, the present invention is made by forming a blocking groove and a strength reinforcing long groove at regular intervals in the grid packing bent downward to the left and right, and the structure is simple and easy to manufacture. By spreading the material evenly throughout the grid packing, the material can be maximized by distillation, absorption, and cooling, and the embossing process is formed at regular intervals throughout the grid to form long grooves for maximum mechanical strength. It's a useful design that allows you to

Although the present invention has been described with reference to a preferred embodiment, those skilled in the art will be variously modified and changed within the scope of the present invention without departing from the configuration of the present invention described in the utility model registration claims below You can.

Claims (2)

In the grid packing by cutting the metal plate vertically, and then bending the cut portions downward to the left and right and connecting several metal plates, the long grooves 2 are formed in the upper part and the connecting part of each grid packing body 1. Grid packing of the tower internal for the distillation apparatus, characterized in that the embossing process as possible, and forming a blocking groove (3) perpendicular to the upper and lower ends of the bent portion of the main body (1). The grid packing of a tower internal for a distillation apparatus according to claim 1, wherein the blocking protrusions formed at the upper end and the lower end of the bent portion of the main body (1) protrude.