KR20080005378U - Molding cup for sectional inspection of plate type sample - Google Patents

Abstract

The present invention relates to a molding cup used for the cross-sectional inspection of the sample in the form of a plate, high productivity without the need for a separate support clip, and can securely fix the sample in the correct position, accuracy and ease of use It is an object of the present invention to provide a molding cup for inspecting the plate-shaped sample cross section that can improve the size, and can prevent unnecessary material waste in the production and use process through miniaturization.

According to the present invention for achieving the above object, formed in the form of a container having a bottom portion and the wall portion, the molding material and the plate-shaped sample is accommodated in the upper opening of the inner receiving space, the support groove in the vertical direction on the inner surface of the wall portion There is provided a molding cup for plate-shaped sample cross-sectional inspection, characterized in that the sample is inserted into the support groove and fixed.

Description

MOLDING CUP FOR SECTIONAL INSPECTION OF PLATE TYPE SAMPLE}

The present invention relates to a molding cup used for the cross-sectional inspection of the sample in the form of a plate, more specifically can be produced in a single molding process, high productivity, and firmly supports the sample to perform a more accurate cross-sectional inspection The present invention relates to a molding cup for a flat sample cross-sectional inspection which can reduce the material cost of its own material and the material cost of a molding material by removing and reducing unnecessary storage spaces due to the simple fixing of a sample.

One of the methods for inspecting the manufacturing state of the thin plate-shaped material (hereinafter referred to as 'sample'), there is a method for inspecting the cross-section by fixing the sample in the state embedded in the synthetic resin. This cross-sectional inspection method is applied to various kinds of samples, for example, to the inspection of the internal wiring connection state or the surface line connection state of a circuit board (PCB) on which electronic / electrical components including semiconductors are mounted. have.

The conventional mold structure used for the plate-shaped sample cross-sectional inspection is shown in Figure 1, as shown, the conventional mold is coupled to the lower end of the mold body (10) and the sample (1) in the form of an open top Made of a support clip 20 to allow the sample 1 to stand inside the mold body 10. Put the molding material in which the synthetic resin and the curing agent, etc. are mixed in the mold main body 10, and put the sample 1 in an upright state to cure it, and cut or grind the bottom portion so that the cross section of the sample 1 is exposed to the outside and inspect it. For preparing a molding block, the exposed cross-section of the sample 1 is observed by a microscope or the like to perform the inspection.

By the way, in the conventional cross-sectional inspection mold as described above, since the producer has to manufacture a support clip 20 for the entrance of the sample 1 in addition to the mold body 10, productivity is low and manufacturing cost is high, and the user's position In the manufacturing of the molding block, the support clip 20 is coupled to the sample (1) one by one to be installed so as to stand on the mold body 10, there is a problem in that it is inconvenient to use and takes a lot of working time.

And, in terms of the functional aspect of the product, since the support clip 20 itself is made of a light non-fixed material, it is difficult to place the sample 1 in the exact position required when installing the inside of the mold body 10, the molding material is Before hardening, it is easy for the sample 1 to deviate from the position, and thus, it is difficult to manufacture the molding block in which the sample 1 is embedded at the correct position, thereby making the cross-sectional inspection work inconvenient and reducing the inspection accuracy. .

In addition, since the accommodating space wider than the width of the sample 1 is required to accommodate the support clip 20, the size of the mold body 10 is inevitably increased, and thus, the material of the mold body 10 is increased. Cost, of course, there is a problem that the molding material is wasted more than necessary.

The present invention is to solve the problems as described above, the purpose of the present invention is that the productivity is not necessary because a separate support clip is not necessary, it is possible to firmly fix the sample in the correct position to improve the accuracy and ease of use of cross-sectional inspection It is possible to provide a molding cup for cross-sectional inspection of a plate-shaped sample that can be prevented and unnecessary waste of materials during production and use through miniaturization.

According to the present invention for achieving the above object, formed in the form of a container having a bottom portion and the wall portion, the molding material and the plate-shaped sample is accommodated in the upper opening of the inner receiving space, the support groove in the vertical direction on the inner surface of the wall portion Is formed may be provided with a molding cup for the plate-shaped sample cross-sectional inspection characterized in that the sample is inserted into the support groove and fixed.

In the above-described molding cup for cross-sectional inspection of the present invention, the support groove may be formed in a form having an inclined surface on at least one side to support the edge of the side end portion of the sample.

Further, optionally, the support groove may be formed in a rectangular groove shape to correspond to the side end shape of the sample.

According to the present invention as described above, by forming a support groove in the molding cup to be able to fix the sample firmly, easily and precisely without a separate fixing member, the mold used for cross-sectional inspection of the plate-shaped sample It can increase productivity and ease of use, improve the accuracy and work efficiency of cross-sectional inspection, and reduce the material cost of the mold itself and the molding material through miniaturization.

And, by forming the support groove in the form having an inclined surface on at least one side, it can be used in common with a sample having a variety of standards has the effect of improving the versatility.

In addition, by forming the support groove in the shape of a square groove, there is an effect that can further reduce the material cost of the mold and the molding material by reducing the unnecessary space inside the mold.

1 is a perspective view showing a molding cup for a conventional plate cross-sectional inspection.

Figure 2 is a perspective view showing a part of the first embodiment of the molding cup for cross-sectional inspection according to the present invention.

Figure 3 is a state of use of the present invention molding cup shown in FIG.

Figure 4 is a perspective view showing a part of the second embodiment of the molding cup for cross-sectional inspection according to the present invention.

<Description of the symbols for the main parts of the drawings>

  1: Sample 30: Molding material

100: molding cup 100 ': molding block

101: accommodation space 110: wall portion

120: bottom 130: support groove

131: stone

The objects, features and advantages of the present invention described above will become more apparent from the following detailed description. Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

Figure 2 is a perspective view showing a first embodiment of the molding cup for cross-sectional inspection according to the present invention.

As shown in FIG. 2, the molding cup 100 according to the present invention has a container shape having a wall portion 110 and a bottom portion 120 having a predetermined thickness, and includes a receiving space 101 upwardly opened therein. And, the wall portion 110 has a structure in which the support groove 130 is formed on the inner wall surface.

The accommodation space 101 of the molding cup 100 is a place where the molding material and the sample 1 are accommodated, and may be formed in various sizes and shapes according to the size and shape of the sample 1. The molding cup 100 is preferably made of a translucent synthetic resin material so that the embedded state of the sample 1 can be seen. More preferably, the molding cup 100 is made of a molding material and a synthetic resin of the same series. It is desirable to make it high. For example, when the molding material is a mixture of an acrylic powder and a liquid hardener, the molding cup 100 is preferably made of an acrylic resin material.

The support groove 130 is a side end portion of the sample 1 is inserted so that the sample 1 can be fixed in the receiving space 101, in the illustrated embodiment, both side edge portions of the side end of the sample 1 Although it is illustrated that it is formed as a V-shaped groove to support it, it may be formed as a groove provided with an inclined surface only on one side to support one edge of the sample (1).

In addition, the support groove 130 may be formed in a shape recessed with respect to the inner wall surface of the wall portion 110 of the molding cup 100, as shown in the projections 131 formed along the inner wall surface of the wall portion 110 ) May be formed.

As a state of use of the present invention molding cup 100 configured as described above, a process of manufacturing a molding block for cross-sectional inspection is shown in FIG. 3.

First, the molding cup 100 is disposed to have an inlet upward as shown in FIG. 3 (a), and the molding material 30 is introduced into the molding cup 100 as shown in FIG. 3 (b). Insert the sample (1) so that the side end portion is supported in both support grooves 130 as in c). At this time, the cross section of the sample 1 to be inspected is directed toward the bottom of the molding cup 100. When the molding material 30 is cured after a predetermined time has elapsed, any one of the bottom portion 120 and the inside of the molding cup 100 may be cut, ground or polished as shown in FIG. When removed by a combination method, as shown in Fig. 3 (e), it is possible to make a molding block 100 'for cross-sectional inspection in which the cross-section of the sample 1 is exposed to the outside, and a microscope or other conventional inspection. Cross section inspection is performed using the equipment.

As described above, since the molding cup 100 for cross-sectional inspection of the present invention is firmly fixed by inserting the side end of the sample 1 into the support groove 130 formed therein, the sample 1 is easily positioned at a desired position. And it can arrange | position correctly and there is no positional deviation of the sample 1 even before the molding material 30 hardens. Therefore, the molding block 100 'for cross-sectional inspection of the sample 1 can be manufactured more conveniently and accurately, which is very useful for increasing inspection convenience and accuracy.

In addition, since a separate member for fixing a sample is not required as in the conventional support clip 20, mass production is easily performed at a lower cost through a single molding process such as injection molding, and the sample 1 is molded in a molding cup ( Since it is simply fixed by inserting it into 100), it is possible to conveniently perform cross-sectional inspection of the sample in a short time.

In addition, since unnecessary space for accommodating the support clip 20 is not required as in the related art, the size of the molding cup 100 may be reduced, and thus, the material cost of the molding cup 100 itself and the molding material 30 may be reduced. Material cost can be reduced.

In addition, by forming the support groove 130 in a V-shape, or in the form of an inclined surface formed on at least one side as in the above-described embodiment, it is possible to fix the sample 1 of various standards having different widths and thicknesses. Thereby, the versatility of the molding cup 100 can be further improved.

 Meanwhile, although the molding cup 100 is formed in a cylindrical shape in the above-described embodiment, the present invention is not limited thereto, and the shape of the molding cup 100 may accommodate the sample 1 and the molding material 30 therein. It can be made in any shape that can be done.

In addition, the shape of the support groove 130 may be in any shape that can be fixed by inserting the side end portion of the sample 1, as well as the above-described V-shaped groove, the position and quantity thereof as necessary It can be variously selected so that different quantities of sample 1 can be fixed at various positions. For example, as in the embodiment shown in Figure 4, the support groove 130 may be formed of a plurality of U-shaped or rectangular grooves, in this case when the U-shaped or rectangular grooves, the sample (1) Since it can be inserted deeper into the support groove 130, it is possible to further reduce the size of the molding cup 100, thereby further reducing the material cost of the molding cup 100 and the molding material (30).

The present invention described above is not limited to the above-described embodiments and the accompanying drawings, and various substitutions, modifications, and changes are possible within the scope without departing from the technical spirit of the present invention. It will be evident to those who have knowledge of.

Claims (3)

The molding member 30 and the plate-shaped sample 1 are accommodated in an inner receiving space 101 which is formed in a container having a bottom part 120 and a wall part 110, and is upwardly opened. Molding cup for plate cross-section inspection, characterized in that the support groove 130 is formed on the inner side in the vertical direction to insert the sample (1) into the support groove 130 to be fixed. The method of claim 1, The support groove 130 is a molding cup for the plate-shaped sample cross-sectional inspection, characterized in that formed in the form having a slope on at least one side to support the edge of the side end portion of the sample (1). The method of claim 1, The support groove 130 is a molding cup for the plate-shaped sample cross-sectional inspection, characterized in that formed in the shape of a square groove so as to correspond to the side end shape of the sample (1).