KR20070081674A - Styrofoam cutting machine - Google Patents

Abstract

A Styrofoam cutting machine is provided to achieve improved cutting efficiency and to prevent generation of Styrofoam chips during cutting. A Styrofoam cutting machine has a plurality of cutting lines(30) arranged in a horizontal direction such that the cutting machine moves in left and right directions and cuts a Styrofoam passing through the cutting machine. The cutting line is formed by twisting a twist line(34) around a reference line(32) such that the cutting line contacts and rubs on the Styrofoam. The number of the twist lines twisted around the single reference line is one or more.

Description

Styrofoam cutting machine

1 is a styrofoam cutter structure diagram applying a cutting line to a conventional single reference line.

Figure 2 is a styrofoam cutting machine structure applying a cutting line coupled to a plurality of twisted lines in a single reference line according to the present invention.

Figure 3a and Figure 3b is a cutting line structure diagram applied to the styrofoam cutter of the present invention.

Explanation of symbols on the main parts of the drawings

10: cutting support 12: transfer means

20: drive motor 22: horizontal support

24: vertical support 26: drive shaft

30: cutting line (chrome line) 32: reference line

34: twisted line 40: styrofoam

The present invention relates to a styrofoam cutting machine having excellent cutting efficiency, and more particularly, to a styrofoam cutting machine that can significantly reduce the cutting efficiency of the flame retardant styrofoam cut through the cutting heating wire and can suppress the generation of powder during the cutting process. will be.

As is well known, Styrofoam is a material that is widely used as a heat insulating material for construction because of its lightness, excellent heat insulation, excellent workability, and low price.

However, Styrofoam has the disadvantage of being vulnerable to fire. Not only is it easily ignited, but also acts as a combustion source in the event of a fire. For this reason, the development of flame retardant styrofoam has been made in recent years.

The type of flame retardant styrofoam is a method of coating polystyrene beads or using a binder as a relatively heat-resistant synthetic resin such as melamine. This method is not yet commercialized due to lack of productivity and high production cost.

Secondly, the polystyrene beads are coated with a ceramic material, and then the coated beads are placed in a molding mold in a conventional manner and foamed. This method has the advantage of low production cost and excellent flame retardancy, but mass production has not yet been made due to the problem that the coated ceramic material is melted by steam during molding. However, experimentally, the technology that solved this problem has been completed, and it is expected that a product that solves this problem will be released in large quantities soon.

On the other hand, the problem of the production of flame-retardant styrofoam is a problem of cutting the styrofoam prepared to a desired size in addition to the above-described problems in the production of styrofoam.

That is, in the conventional styrofoam cutting method, as shown in FIG. 1, the styrofoam 140 is formed through the transfer means 120 on the cutting base 110 by raising the temperature by energizing a cutting line 130 which is a thin nichrome wire. ) Was passed through. In the case of general heat-resistant styrofoam, this cutting method was able to cut very effectively.

However, in the case of flame retardant styrofoam, it is difficult to apply the above method. Because the styrofoam itself is flame retardant, cutting by heat of the cutting line, which is a chrome wire, is practically difficult.

As a technique to solve this problem, there is a technique for moving the cutting line to the left and right. This is a technique using a physical force by the left and right movement of the cutting line in addition to the row of the cutting line.

However, this technique can be applied to products of the third degree of flame retardancy, but not to products with more flame retardancy. Even if it is forcibly applied, not only the cutting line, which is a chrome wire, can be easily cut, but also the cutting surface is rough and irregular and loses its value as a product.

For this reason, the cutting method of flame-retardant styrofoam is the only method existing by rotating saw blades. However, this cutting method is not only expensive but the cutting efficiency is very low compared to the cutting method by cutting line (chrome line), and the cutting friction with the cutting line inevitably generates powder of styrofoam. Has the problem of making it poor.

Therefore, the present invention is to solve the problems as described above, not only can dramatically increase the cutting efficiency for the structurally flame-retardant styrofoam, but also to suppress the generation of styrofoam powder during the cutting process, furthermore, It is an object of the present invention to provide a styrofoam cutter that can be used as it is to reduce the additional generation of the system to increase the cutting efficiency of the flame retardant styrofoam.

In the styrofoam cutter of the present invention in order to achieve the above object in the styrofoam cutter to cut the styrofoam passed through the transfer means while a plurality of cutting lines are horizontally disposed at a predetermined interval through the vertical support of both sides and moved left and right, The cutting lines each have a configuration in which twist lines are twisted in a spiral shape with respect to a straight reference line so as to be rubbed with styrofoam in a spiral uneven structure.

In addition, the cutting line is applied to the twisted line twisted with respect to a single reference line is selectively applied to a single or a plurality of cut lines, in particular the cutting line is cut to the flame-retardant styrofoam as a combination of the mechanical movement to the left and right and the heating operation In operation, the friction cutting and the heating cutting can be configured together.

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

FIG. 2 illustrates a styrofoam cutter structure in which a cutting line 30 having a plurality of twisted lines 34 coupled to a single reference line 32 is applied according to the present invention, and FIGS. 3A and 3B illustrate styrofoam of the present invention. The structure of the cutting line 30 applied to the cutter is shown in detail.

In the styrofoam cutter of the present invention, as in the conventional styrofoam cutters, the plurality of cutting lines 30, which are basically chromium wires through which electricity is supplied via the vertical supports 24 on both sides, are horizontally disposed at a predetermined interval and moved left and right. It is configured to cut the styrofoam 40 conveyed through the means 12.

Of course, the conveying means 12 mounted with the styrofoam 40 may be applied to various conveying means such as a conveying roller as well as a conveyor. The conveying means 12 may mediate the cutting base 10, which is a cutter body with respect to the ground. It is configured to be positioned at a certain height.

In addition, the cutting line 30 is installed in the vertical support 24 on both sides in a horizontal arrangement at a predetermined interval so as to move left and right at a constant speed. It is composed of a chrome wire so as to be parallel to each other, the plurality of cutting lines 30 are connected to the drive motor 20 installed on the horizontal support 22 on both sides of the vertical support 24, the operation of the drive shaft 26 It may be frictionally cut while moving left and right with respect to the styrofoam 40 passed while interlocking with.

In particular, the cutting line 30, which is a main part of the present invention, is a spiral concave-convex structure, so that the twisted line 34 is twisted in a spiral shape with respect to the linear reference line 32 so as to be rubbed against the styrofoam 40, respectively. The twisted lines 34, which are combined and twisted to each other with respect to a single reference line 32, may be applied as a single piece, but are preferably combined with two to four pieces so as to have a spiral saw blade structure.

In addition, the method of twisting the cutting line 30, which is a chrome line, is coupled to both vertical supports 24 so as to be movable left and right while pulling one linear reference line 32 as a reference, and the other plurality of twist lines 34. Spirally wound around the baseline 32, and then pull the wires to both sides to fix the wires.

In addition, the twist line 34 may be applied to each reference line 32 by applying the twist line 34 or more, but since the precise cutting efficiency of the soft styrofoam may be reduced, the twist line 34 may be more than necessary. There is no need to increase it.

That is, the cutting line 30 applied to the styrofoam cutter of the present invention has a twist line 34 twisted with respect to the straight reference line 32 to have the unevenness as a saw blade as a whole, so that the uneven cutting line ( 30) When the electricity is moved to the left and right to operate the cutting operation by the heat transfer of the cutting line 30, which is a chromium wire and the convex and convex portion of the twisted wire 34 is a saw blade and the same action in parallel with the transfer means The flame retardant styrofoam 40 passed through 12 can be easily cut.

The cutting line 30 can be operated in parallel with the mechanical operation to move left and right and the heating operation is energized, so that the accurate and stable cutting operation for the styrofoam that is difficult to expect in the styrofoam cutter made of a conventional straight cutting line can be made. have.

As described above, the styrofoam cutter of the present invention can significantly increase the cutting efficiency for the flame retardant styrofoam because the cutting line is formed in the saw blade shape. In addition, it is possible to suppress the generation of styrofoam powder during the cutting process, and furthermore, it is possible to use the conventional styrofoam cutting machine as it is, it can also be provided that the effect of reducing the additional generation of the system to increase the cutting efficiency of the flame-retardant styrofoam as possible. .

Claims (3)

In the styrofoam cutting machine for cutting the styrofoam passed through the conveying means while a plurality of cutting lines are horizontally arranged at a predetermined interval through the vertical support of both sides and moved left and right, Styrofoam cutting machine, characterized in that the cutting line 30 is twisted combined with the twisted line 34 in a spiral shape with respect to the reference line 32 of the linear shape so as to be in contact with the styrofoam 40 in a spiral uneven structure . The method of claim 1, Styrofoam cutter, characterized in that the cutting line 30 is applied to the twisted line 34 twisted about a single reference line 32, respectively, or a plurality of. The method of claim 1, Styrofoam cutter, characterized in that the cutting line 30 is a parallel operation of the mechanical operation to move left and right and the heating operation.

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