KR101532918B1 - Mounting press for manufacture of specimen - Google Patents

Abstract

The present invention relates to a specimen mounting press having a cooling function using a thermoelectric element which is easy to manufacture, maintain, and repair, and improves device operability for specimen mounting work. The specimen mounting press having a cooling function using a thermoelectric element comprises: a pressure cooling unit having an inner mold provided with a molding space unit formed therein, and mounted and fixed inside a main body to expose an upper portion of the molding space unit to an upper surface of the main body, a plurality of cartridge-type electric heaters to melt a powder resin filled in the molding space unit with a specimen, and an outer mold to form a cooling passage between the inner mold and a surface thereof to circulate a cooling liquid to cool the melted resin to integrate the resin with the specimen; and a pressing unit having a lower ram and an upper ram to fill the molding space unit with the specimen and the powder resin, to press the powder when the specimen is mounted, and to extract the mounted specimen from the molding space unit when specimen mounting is completed.

Description

TECHNICAL FIELD [0001] The present invention relates to a specimen mounting press having a cooling function using a thermoelectric element,

The present invention relates to a specimen mounting press, and more particularly, to a specimen mounting press having a cooling function using a thermoelectric element that mounts a specimen with a resin.

In order to observe the properties of the material on the surface to be inspected, it is common to polish the specimen by mounting it with a resin. As the method of mounting the specimen, hot mounting (hot press mounting) and cold mounting (cold mounting) Room temperature injection mounting).

A representative example of a conventional hot-mounting apparatus among conventional specimen mounting presses is the Korean Registered Utility Model No. 0211392 filed by the present applicant with a utility model application.

As shown in FIG. 1, the specimen mounting press 10 according to the Korean Registered Utility Model No. 0211392 described above is constructed such that the specimen S and the powdery resin R are filled in the specimen S, A heating unit 30 disposed on the outer surface of the mold 20 for melting the powdery resin R when the specimen is mounted and a cooling unit 30 for cooling the molten resin R, (40). The conventional specimen mounting press 10 further includes a lower ram 50 and an upper ram 60 for pressing the specimen S and the resin R filled in the mold 20 during specimen mounting.

The upper ram 60 is disposed so as to be able to accommodate the specimen S and the powdery resin R inside the mold 20 so as to close the opened upper portion of the mold 20 during mounting of the specimen, The ram 50 closes the inner lower portion of the mold 20 so that the mold 20 is filled with the specimen S and the powdery resin R and the upper ram 30 closes the upper portion of the mold 20 during specimen mounting. 60 so as to be able to press the resin R.

However, the above-described conventional specimen mounting press 10 has the following problems.

First, since the conventional specimen mounting press 10 is mounted on the outer surface of the mold 20 in a state where the heating unit 30 and the cooling unit 40 are integrated by separate connecting members, There is a problem in that it is not easy to manufacture and there is another problem that the manufacturing cost of the specimen mounting press 10 is increased.

Second, when the abnormality occurs in any one of the heating unit 30 or the cooling unit 40 integrated by the connecting member, the conventional specimen mounting press 10 must be replaced entirely.

The conventional specimen mounting press 10 is used to fill the specimen S and the powdered resin R into the mold 20 or to separate the upper ram 60 from the mold 20 when the mounted specimen is taken out Since the test piece mounting press 10 must be placed on the bottom of the table on which the test piece mounting press 10 is placed, the test piece mounting work is troublesome and the upper ram 60 is lost.

Fourth, the conventional specimen mounting press 10 has a cap (not shown) on which the upper ram 60 is mounted to fix the upper ram 60 to the upper portion of the mold 20 during the specimen mounting, The neck is broken by the lower ram 50 which rises to pressurize the molten resin R during the specimen mounting, and a large force is required to open the cap. There was another problem.

A related prior art is a registered utility model No. 0211392 (registered date: November 12, 2000, entitled "Mounting press for manufacturing metal structure observation specimen").

The present invention is intended to provide a specimen mounting press capable of not only fabrication and maintenance, but also improving the operability of the apparatus according to the specimen mounting operation.

The technical objects to be achieved by the present invention are not limited to the above-mentioned technical problems.

According to an aspect of the present invention, there is provided a specimen mounting press comprising: an inner mold having a molding space therein; and an inner mold fixedly mounted inside the body such that an upper portion of the molding space is exposed to an upper surface side of the body, A plurality of cartridge-type electric heaters for melting the powdery resin filled in the inner mold, and an outer mold for cooling the molten resin to integrate with the specimen by forming a cooling flow path through which a cooling fluid circulates with the inner mold, ; And a pressurizing portion having a lower ram and an upper ram for allowing the specimen and the powdery resin to be filled in the molding space portion, pressurizing the powdery resin during the specimen mounting, and withdrawing the mounted specimen from the molding space portion when the specimen mounting is completed can do.

Specifically, the inner mold has a vertical cylindrical shape in which the inside is hollow and the top and bottom are open, and can form a molding space portion in the hollow interior.

Specifically, the cartridge-type electric heater may be inserted into a heater mounting hole vertically extending from the lower surface of the inner mold to the upper surface side of the inner mold while being disposed at equal intervals on the outer peripheral side of the molding space portion.

Specifically, the outer mold is welded and fixed to the outer circumferential surface of the inner mold while the inner circumferential surface is sandwiched so as to be spaced apart from the outer circumferential surface of the inner mold, thereby forming a cooling flow path between the inner mold and the inner mold. And an outlet for discharging a cooling fluid flowing through the cooling channel may be formed on the other side of the outer mold opposite to the injection port.

Specifically, the cooling fluid is stored in a cooling fluid storage tank disposed inside the main body or outside of the main body, and the cooling fluid stored in the cooling fluid storage tank is guided to the injection port along the first flow path during cooling of the molten resin, The cooling fluid having undergone the heat exchange can be guided to the discharge port and stored in the cooling fluid storage tank along the second flow path.

More specifically, a cooling part of the thermoelectric elements for cooling the heat-exchanged cooling fluid is mounted in close contact with the outer surface of the cooling oil emulsion storage tank, and the first flow path is equipped with a supply pump for guiding the cooling fluid stored in the cooling fluid storage tank to the injection port side .

Specifically, the lower ram is elevatably disposed along the vertical lengthwise direction of the molding space portion by an elevating cylinder fixedly mounted inside the body so as to face an open lower portion of the molding space portion, and the lower ram is extended Or can be mounted on the lifting cylinder rod to be compressed and guided along the vertical lengthwise direction of the molding space portion.

Specifically, the upper ram is fixed in a state in which the upper portion of the molding space portion is closed by the operation of a press screw shaft vertically penetrated from the upper side of the cap to the lower side of the cap, or the mold is released by the operation of the press screw shaft, The upper part of the part can be opened.

More specifically, the upper ram may be integrally mounted on the lower portion of the pressing screw shaft penetrated through the cap.

More specifically, the upper ram may be provided separately from the lower portion of the pressing screw shaft penetrated through the cap.

Specifically, the cap is slidably disposed along a guide rail formed on an upper surface of the main body, and a guide groove slidably fitted on the guide rail may be formed on a lower surface of the cap.

As described above, since the specimen mounting press according to the present invention is provided separately from the heating and cooling section, it is easy to manufacture the specimen mounting press, and the maintenance and repair of the heat and cool section is easy.

Further, the specimen mounting press according to the present invention is characterized in that the outer mold forms a cooling flow path with the inner mold, and the cooling fluid circulating through the cooling flow path comes into direct contact with the inner mold, There is an advantage.

In addition, since the specimen mounting press according to the present invention is provided so that the cooling fluid is stored in the cooling fluid storage tank, not only the movement of the specimen mounting press is free, but also the heat exchanged cooling fluid is cooled using the thermoelectric element, There is an advantage that it can be cooled.

In addition, the specimen mounting press according to the present invention is advantageous in that the upper ram is fixed within the molding space by the operation of the pressing screw shaft or is released from the fixing, so that the operability due to the upper opening and closing of the molding space can be improved.

Further, the specimen mounting press according to the present invention is advantageous in that the specimen mounting operation can be conveniently performed because the upper ram and the press screw shaft are guided along the cap.

1 is a schematic view of a conventional specimen mounting press,
2 is a schematic view of a specimen mounting press according to the present invention,
FIGS. 3A and 3B are enlarged views of the inner mold, the heating unit, and the cooling unit shown in FIG. 2,
FIG. 4 is an enlarged view of the lower ram shown in FIG. 2,
5 is an enlarged view of the upper ram shown in Fig. 2, and Fig.
FIG. 6 is a view showing another embodiment of the upper ram shown in FIG. 2. FIG.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the drawings, the same components are denoted by the same reference symbols whenever possible. In the following description, well-known functions or constructions are not described in detail since they would obscure the invention in unnecessary detail.

2 to 5 show a specimen mounting press according to the present invention in which a specimen mounting press 100 according to the present invention includes a molding space portion M in which a specimen S is mounted by resin R, (S) and resin (R) to be filled in the molding space portion (M), pressurizing the resin (R) during specimen mounting, and setting the specimen And a heating and cooling unit 130 for melting and cooling the resin R pressed by the pressing unit in mounting the specimen.

The specimen mounting press 100 according to the present invention further includes a body 110 in the shape of a body in which the inner mold 120, the pressing portion, and the heating and cooling portion 130 are fixed and supported.

First, the inner mold 120 has a substantially vertical cylindrical shape in which the inside is hollow and the top and bottom are opened, and provides a molding space portion M therein. The inner mold 120 thus formed is fixedly mounted in the interior of the main body 110 such that the open upper portion of the molding space portion M is exposed on the upper surface of the main body 110 as shown in the figure. At this time, the specimen S and the resin R to be mounted are filled into the molding space portion M through the upper portion of the molding space portion M exposed on the upper surface of the main body 110. The specimen mounted in the molding space M is drawn out through the upper part of the molding space M exposed on the upper surface of the main body 110.

On the other hand, the open lower portion of the molding space portion M is closed by the lower ram 152 of the pressing portion, which will be described later, so that the specimen S to be mounted and the resin R can be filled in the molding space portion M.

The pressurizing portion opens the upper portion of the molding space M during the filling of the specimen S and the resin R to be mounted in the molding space M and the upper portion of the molding space M when the mounted specimen is taken out, The upper part of the upper part of the molding space M is closed so that the specimen S to be mounted and the resin R are filled in the molding space part M, (R) to the upper ram (158) side and a lower ram (152) for pulling the mounting specimen when the specimen mounting is completed.

The lower ram 152 is provided in a substantially horizontal disc shape as shown. The lower ram 152 presses the resin R toward the upper ram 158 during the mounting of the specimen while finishing the open lower portion of the molding space M as described above and inserts the mounted specimen into the molding space portion M The lower ram 152 is moved up and down by the lifting cylinder 154 fixed to the inside of the main body 110 so as to face the opened lower portion of the molding space M, Is arranged to be able to move up and down along the vertical length direction of the portion (M).

That is, the lower ram 152 is mounted on the lifting cylinder rod 156 which is extended or compressed by the operation of the lifting cylinder 154 and guided along the vertical length direction of the molding space M, The resin (R) is pressed together with the resin (158), or the mounted specimen is taken out.

Preferably, a compreser 157 is disposed on one side of the main body 110 on which the lifting cylinder 154 is mounted, to provide operating pressure to the lifting cylinder 154.

Meanwhile, the upper ram 158 is provided in a substantially horizontal disk shape as shown in the figure. The upper ram 158 opens the upper portion of the molding space M when the specimen S and the resin R to be mounted or the resin R are filled as described above or when the mounted specimen is withdrawn, The upper portion of the molding space M is closed so that the resin R can be pressed together with the upper portion of the cap 162 at the upper side of the cap 162 as shown in FIG. The upper portion of the molding space portion M is closed by the operation of the press screw shaft 160 vertically penetrated to the lower side or the fixing screw shaft 160 is released from the molding space portion M M). 2 to 5), or the upper ram 158 may be attached to the cap 162 (see FIG. 2 to FIG. 5), or the upper ram 158 may be integrally attached to the lower portion of the press screw shaft 160 And may be provided separately from the lower portion of the press-fitted screw shaft 160 (see Fig. 6).

That is, when the upper ram 158 is mounted on the lower portion of the pressing screw shaft 160, the upper ram 158 guides the upper portion of the molding space portion M inward by the operation of the pressing screw shaft 160 When the upper ram 158 is provided to be separated from the lower portion of the pressing screw shaft 160, the pressing screw shaft 160 is opened or closed by the operator The upper ram 158 which has been depressurized is depressurized or released from the upper ram 158 inserted into the upper side of the molding space portion M, 152 to the outside of the upper portion of the molding space portion M. [

The cap 162 is slidably disposed on the upper surface of the main body 110. To this end, a guide rail 164 is formed on the upper surface of the main body 110. On the lower surface of the cap 162, A guide groove 166 slidably fitted in the guide groove 166 is formed. A ram receiving groove 168 (see FIG. 5) for receiving the upper ram 158 mounted on the lower portion of the pressing screw shaft 160 is formed on the lower surface of the cap 162 so as not to interfere with the guide groove 166 And a lever 170 for rotating the pressing screw shaft 160 is mounted on the upper portion of the pressing screw shaft 160 exposed to the upper side of the cap 162.

The heating and cooling unit 130 includes a cartridge type electric heater 132 that is defined inside the main body 110 and an outer mold 136 that forms a cooling channel C with the inner mold 120 .

The cartridge-type electric heater 132 includes a cylindrical heating element 134 that receives electricity and generates heat, as shown in the figure. The cartridge type electric heater 132 having the heating element 134 is formed by a resin R filled in the molding space M, that is, a powdery resin R filled in the molding space M together with the specimen S to be mounted ) Adjacent to the molding space (M). For this, a plurality of heater mounting holes 122 are formed in the inner mold 120. The heater mounting holes 122 are arranged at equal intervals on the outer peripheral side of the molding space M so as not to interfere with the molding space M and are vertically arranged from the lower surface of the inner mold 120 to the upper surface side of the inner mold 120, .

The outer mold 136, like the inner mold 120, is provided with a substantially vertical cylindrical shape in which the inside is hollow and the top and bottom are opened. The outer mold 136 is mounted on the inner mold 120 such that the inner circumferential surface of the outer mold 136 is spaced from the outer circumferential surface of the inner mold 120. At this time, And the upper and lower portions of the outer mold 136 are welded and fixed to the adjacent inner mold 120 so as to close the upper and lower portions of the cooling channel C, respectively. The diameter of the inner diameter of the outer mold 136 may be smaller than the diameter of the outer diameter of the inner mold 120 so that the cooling channel C may be formed between the outer mold 136 and the inner mold 120, It has a long diameter.

An injection port 138 for injecting a normal cooling fluid into the cooling passage C is formed in a lower portion of the outer mold 136 in the outer mold 136. An upper portion of the outer mold 136, And a discharge port 140 through which the cooling fluid having heat-exchanged through the flow path C is discharged is formed.

The heating and cooling part 130 formed in this way generates heat of the heating element 134 of the cartridge type electric heater 132 when the specimen is mounted and is filled in the molding space part M and is then heated by the lower ram 152 and the upper ram 158 And the powdery resin (R) to be pressed is melted. The heating and cooling unit 130 cools the molten resin R so that the specimen S is mounted while injecting and discharging the cooling fluid into the cooling channel C formed by the outer mold 136.

On the other hand, the cooling fluid is stored in the cooling fluid storage tank 180 disposed inside the body 110 or outside the body 110, and the cooling fluid stored in the cooling oil storage tank 180 is stored in the molten resin R The cooling fluid that has undergone the heat exchange in the cooling channel C is guided to the discharge port 140 and flows along the second flow path 184 again to the cooling fluid C At this time, thermoelectric elements 186 for cooling the heat-exchanged cooling fluid are mounted on the outer surface of the cooling oil emitter storage tank 180.

The cooling fluid stored in the cooling fluid storage tank 180 is supplied to the inlet 138 side of the first flow path 182. The cooling fluid stored in the cooling fluid storage tank 180 is supplied to the cooling fluid reservoir 180, A guiding feed pump 188 is mounted.

Hereinafter, the operating state of the specimen mounting press 100 according to the present invention formed as described above will be briefly described.

In order to mount the specimen S using the specimen mounting press 100 according to the present invention, the lower ram 152 is first placed on the upper surface of the main body 110 with the open top of the molding space M exposed. And conveys the open lower side of the molding space M. At this time, the lower ram 152 is transferred to the lower open side of the molding space M by the operation of the lifting cylinder 154 which compresses the lifting cylinder rod 156. [

When the open upper portion of the molding space M is exposed to the upper side of the main body 110 and transferred to the lower side of the molding space M of the lower ram 152, the specimen S to be mounted is placed in the molding space M The molding space M is filled with the powdery resin (R). And the upper ram 158 is inserted into the open top side of the molding space M so as to close the open top of the molding space M. [

When the upper ram 158 is inserted into the open upper portion of the molding space M, the lower ram 152 is raised and pressed together with the upper ram 158 to pressurize the resin R, And the molten resin R is cooled by circulating cooling water or cooling oil in the cooling channel C after the resin R pressed by the upper ram 158 and the lower ram 152 is melted. When the molten resin R is cooled by the cooling water flowing through the cooling passage C or the cooling oil, the resin R becomes solidified and integrated with the specimen S.

When the specimen S is mounted by the cooled resin R as described above, the upper ram 158 is separated from the molding space M, and then the lower ram 152 is moved up and down to separate the mounted specimen And is drawn out through the open top of the molding space M.

Since the specimen mounting press 100 according to the present invention thus formed is provided with the heating and cooling unit 130 separately, it is easy to manufacture the specimen mounting press 100 and the maintenance of the heat and cooling unit 130 It is easy.

The specimen mounting press 100 according to the present invention is characterized in that the outer mold 136 forms a cooling flow path C with the inner mold 120 and a cooling fluid circulating the cooling flow path C passes through the inner mold 120 So that the molten resin R can be cooled quickly.

In addition, since the specimen mounting press 100 according to the present invention is free from the movement of the specimen mounting press 100 as well as providing the heat exchanged cooling fluid to the thermoelectric element 186 because the cooling fluid is stored and provided in the cooling fluid storage tank 180, To cool the heat exchanged cooling fluid quickly.

The test piece mounting press 100 according to the present invention has an advantage that the cooling fluid that has undergone the heat exchange can be quickly cooled by cooling the heat exchanged cooling fluid through the cooling flow path C using the thermoelectric element.

The specimen mounting press 100 according to the present invention is also applicable to the molding space portion M because the upper ram 158 is fixed in the molding space portion M by the operation of the press screw shaft 160, It is possible to improve the operability due to the opening and closing of the upper portion.

The specimen mounting press 100 according to the present invention also facilitates the specimen mounting operation because the upper ram 158 and the press screw shaft 160 are guided along the cap 162.

The above-described specimen mounting press 100 is not limited to the construction and operation of the embodiments described above. The embodiments may be configured so that all or some of the embodiments may be selectively combined so that various modifications may be made.

100: Specimen mounting press 110: Body
120: Inner mold 122: Heater mounting hole
130: heating and cooling unit 132: cartridge type electric heater
134: heating element 136: outer mold
138: inlet 140: drain
152: lower ram 154: lift cylinder
156: lifting cylinder rod 158: upper ram
160: pressing screw shaft 162: cap
164: guide rail 166: guide groove
168: Ram receiving groove 170: Lever

Claims (11)

An inner mold fixedly mounted in the main body so that an upper portion of the molding space is exposed to the upper surface side of the main body,
A plurality of cartridge type electric heaters for melting the powdery resin filled in the molding space together with the specimen and a cooling flow path through which the cooling fluid circulates with the inner mold is formed to cool the melted resin and integrate with the specimen A heating and cooling unit having an outer mold;
And a lower ram and an upper ram for drawing the specimen mounted in the molding space portion when the specimen is mounted and pressing the specimen and the powdered resin into the molding space portion, And a pressing portion,
The upper ram may be fixed in a state in which the upper portion of the molding space portion is closed by the operation of a press screw shaft vertically penetrated from the upper side of the cap to the lower side of the cap or the fixation is released by the operation of the press screw shaft Wherein the cap is formed slidably along a guide rail formed on an upper surface of the main body, and a guide groove slidably fitted on the guide rail is formed on a lower surface of the cap Wherein the thermoelectric element has a cooling function.
The method according to claim 1,
Wherein the inner mold has a vertical cylindrical shape with an inner hollow and an upper and a lower open, and forms the molding space portion in a hollow interior.
The method according to claim 1,
Wherein the cartridge type electric heater is inserted into and mounted on a heater mounting hole extending vertically from the lower surface of the inner mold to the upper surface side of the inner mold while being disposed at an equal interval on the outer peripheral side of the molding space portion. A specimen mounting press with cooling function.
The method according to claim 1,
Wherein the outer mold is fitted with the inner circumferential surface so as to be spaced apart from the outer circumferential surface of the inner mold, and the upper and lower portions are welded and fixed to the outer circumferential surface of the inner mold to form the cooling passage between the inner mold and the inner mold,
And an outlet port through which the cooling fluid flowing through the cooling channel is discharged is formed on the other side of the outer mold opposite to the injection port. Specimen mounting press with cooling function using thermoelectric element.
The method of claim 4,
The cooling fluid is stored in a cooling fluid storage tank disposed inside the main body or outside the main body,
Wherein the cooling fluid stored in the cooling fluid storage tank is guided to the injection port along a first flow path when the molten resin is cooled, and the cooling fluid, which has undergone heat exchange in the cooling flow path, is guided to the discharge port, Wherein the thermostatic element is stored in a fluid storage tank.
The method of claim 5,
A cooling portion of the thermoelectric elements for cooling the heat exchanged cooling fluid is mounted on the outer surface of the cooling fluid storage tank in close contact with each other,
Wherein the first flow path is equipped with a supply pump for guiding the cooling fluid stored in the cooling fluid storage tank to the injection port side.
The method according to claim 1,
Wherein the lower ram is movable up and down along a vertical length direction of the molding space by an elevating cylinder fixedly mounted inside the body so as to face an open bottom of the molding space,
Wherein the lower ram is mounted on a lifting cylinder rod that is extended or compressed by the operation of the lifting cylinder and is guided along a vertical length direction of the molding space portion.
delete The method according to claim 1,
Wherein the upper ram is integrally mounted on a lower portion of the pressing screw shaft that is inserted through the cap.
The method according to claim 1,
Wherein the upper ram is provided separately from a lower portion of the pressing screw shaft penetrated through the cap.

delete

Images