KR101267749B1 - Mounting of metal structure test piece for manufacturing apparatus and method thereof - Google Patents

Abstract

The present invention relates to a tissue specimen mounting manufacturing apparatus and a method for manufacturing the same, and more particularly, to a tissue specimen mounting manufacturing apparatus and a method for manufacturing the solidified after applying the powder-type resin to the specimen.
Sealed automatic manufacturing apparatus for manufacturing tissue specimen mounting according to the present invention,
A housing containing a mounting tank for accommodating the specimen; A resin supply unit connected to the housing to supply powder resin to the mounting bath; And a resin solid portion provided inside the housing to solidify the powder-type resin supplied to the mounting tank while wrapping the specimen.

Description

Tissue specimen mounting manufacturing apparatus and its manufacturing method {MOUNTING OF METAL STRUCTURE TEST PIECE FOR MANUFACTURING APPARATUS AND METHOD THEREOF}

The present invention relates to a tissue specimen mounting manufacturing apparatus and a method for manufacturing the same, and more particularly, to a tissue specimen mounting manufacturing apparatus and a method for manufacturing the solidified after applying the powder-type resin to the specimen.

Parts used in machinery or equipment are made of specimens to observe metallographic structure when tissue observation is necessary to measure durability and change.

At this time, the specimen to observe the metal structure is observed using a microscope, etc., so the size should be very small and the surface should be smooth.

Therefore, the surface roughness is improved by polishing or polishing the cut surface of the specimen.

An object of the present invention is to provide a closed type automatic manufacturing apparatus for manufacturing a tissue specimen mounting and its manufacturing method which can prevent the dust of the powdered resin used in the process of mounting the specimen to be leaked to the outside.

Sealed automatic manufacturing apparatus for manufacturing tissue specimen mounting according to the present invention,

A housing containing a mounting tank for accommodating the specimen; A resin supply unit connected to the housing to supply powder resin to the mounting bath; And a resin solid portion provided inside the housing to solidify the powder-type resin supplied to the mounting tank while wrapping the specimen.

The resin supply unit may include a resin built-in tank configured to partially or entirely store the powdered resin in a part or the whole of the housing; An opening and closing hole formed in the resin interior and opening or closing the powdered resin from the outside of the resin interior tank to the inside or through the opening or closing operation; And a supply pipe formed in a tubular shape and supplying the powder-type resin entered into the resin built-in tank to the mounting tank.

In addition, the resinous part, the heating rod entering or exiting the inside of the mounting tank to melt the powdered resin supplied to the mounting tank, the heat dissipation through the heating wire to solidify the molten powdered resin ; And a residue remover for removing the residue of the powdered resin, which is generated inside the mounting tank.

In addition, the residue remover, the suction pipe is connected to the mounting tank to suck the residue of the powdered resin through the driving of the suction motor; And a storage body connected to the suction pipe to store the residue of the powdered resin sucked by the suction pipe.

On the other hand, the housing, the specimen entrance for entering or exiting the specimen into the housing; A gate that opens or closes the specimen entrance; And a moving plate for moving the specimen into or out of the housing through the specimen entrance.

And, the specimen entering step to enter the mounting tank embedded in the housing; Resin providing step of providing a powdered resin in the mounting tank; A mounting step of allowing the specimen and the powdered resin to be combined by allowing the powdered resin provided to the mounting tank to be melted through a heating rod and then solidified; A residue removing step of removing the powdered resin residue generated in the mounting tank; And a carrying out step of carrying out the specimen coupled to the powdered resin solidified in the mounting tank to the outside of the housing.

In addition, the specimen entering step further includes a shielding step of blocking the outside and the inside of the housing through a gate when the specimen enters the mounting bath.

The effect of the present invention has the technical effect of allowing the operator to proceed in a comfortable environment because the mounting of the tissue specimens to facilitate the observation of the specimens while preventing contamination of the room due to the dust of the powder.

Another effect of the present invention is that in mounting the tissue specimen, since the specimen can be mounted using an automated machine, there is an effect on its use that makes it possible to mount the specimen while reducing the labor force of the operator.

1 is a view showing a tissue specimen mounting apparatus according to the present invention.
Figure 2 is a view showing the main portion of the tissue specimen mounting apparatus according to the present invention.
Figure 3 is a view showing another main part of the tissue specimen mounting manufacturing apparatus according to the present invention.
Figure 4 is a flow chart schematically showing the process sequence for the method for manufacturing a tissue specimen mounting according to the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art can easily implement the present invention.

1 is a view showing a tissue specimen mounting apparatus according to the present invention.

Referring to Figure 1, in order to measure the durability and change of the components used in the machine or apparatus, the specimen 10 for tissue observation is used. Since the specimen 10 for observing the structure of the metal is very small in size, the mounting operation for covering the resin on the specimen 10 is performed for smooth observation. This mounting operation is performed in the mounting tank 110 having a space that the specimen 10 can be accommodated therein.

The mounting tank 110 is formed to be embedded in the housing 100 having a space therein. Then, the resin supply unit 200 for supplying the powdered resin 30 (resin) to the mounting tank 110 is provided.

Therefore, when the specimen 10 enters the lower portion of the mounting tank 110, the resin supply unit 200 supplies the powdered resin 30 to the mounting tank 110 so that the powdered resin 30 may be the specimen. (10) will be covered.

Subsequently, a space in which the powdered resin 30 may be embedded is formed in the resin supply unit 200. The resin supply unit 200 has a resin built-in tank 210, a part of which is provided inside the housing 100 and the other part of which is exposed to the outside of the housing 100.

In addition, an opening / closing opening 220 is formed at an upper portion of the resin inner tub 210 to open the powdered resin 30 into the resin inner tub 210.

Subsequently, the resin supply unit 200 may be supplied into the mounting tank 110 without the powdered resin 30 stored in the resin inner tank 210 being exposed to the outside in the housing 100. The supply pipe 230 is formed to enable.

Here, the supply pipe 230 is preferably formed in the form of a tube, but this is only one example, if the powder-type resin 30 stored in the resin built-in tank 210 can be supplied to the mounting tank 110 It can be formed in various forms.

As a result, since the powdered resin 30 stored in the resin inner tank 210 is moved from the housing 100 to the mounting tank 110, the dust of the powdered resin 30 is transferred to the housing ( 100) It is basically blocked from being exposed to the outside.

On the other hand, the powder-type resin 30 supplied from the resin built-in tank 210 to the mounting tank 110, the powder-type resin 30 is a specimen through the resin mold 300 in the mounting tank 110 After melting, it is solidified.

In addition, the resin supply unit 200 and the resin mold unit 300 may be operated by receiving power, and may be controlled by a control module (not shown) outside the housing 100.

In particular, the amount of the powdered resin 30 supplied from the resin supply unit 200 to the mounting tank 110 may be controlled through the control module according to the user's needs.

Detailed description of the resin mold 300 will be described below.

Figure 2 is a view showing the main portion of the tissue specimen mounting apparatus according to the present invention.

Referring to Figure 2, the resin solid portion 300, the heating rod is heated to enter or exit the mounting tank 110 is heated to melt and then solidify the powder-type resin 30 disposed in the mounting tank 110 Has 310.

The heating rod 310 is to use a moving device (not shown) to be able to enter or exit the mounting tank 110. The moving device is formed such that the heating rod 310 can be moved in the vertical or horizontal direction according to the opening direction of the mounting tank 110.

In particular, the heating rod 310, after the powder-type resin (30) supplied in the mounting tank 110 is melted so that the resin is solidified so that the mounting tank ( 110) Go inside.

Subsequently, when the heating rod 310 provides heat to the powdered resin 30 and the resin is fused, the heating rod 310 stops supplying heat to the resin and exits from the mounting tank 110.

In this case, the heating rod 310 is heated by receiving power, but if the powder-type resin 30 provides heat that can be melted, it is obvious that a variety of methods can be used.

In addition, the residue remaining as the dust generated in the powdered resin 30 in the process of allowing the powdered resin 30 to be solidified after the melting of the heating rod 310 inside the mounting tank 110 is removed. It is sucked through 320 to be removed.

To this end, the residue remover 320, the suction pipe 322 is connected to the outside from the mounting tank 110, and the powder-type resin 30 inside the mounting tank 110 is connected to the suction pipe 322 It has a storage body 324 for sucking and storing the residue.

In addition, the residue remover 320 further includes a suction motor 326 for forcibly flowing the residue of the powdered resin 30 toward the storage body 324 through the suction pipe 322.

When the suction motor 326 is operated by receiving power, the resin residue in the mounting tank 110 is transferred to the storage body 324 through the suction pipe 322.

As a result, after the test piece 10 enters the lower part of the mounting tank 110, the powder-type resin 30 is supplied from the resin supply part 200 to the mounting tank 110 so that the resin is in powder form. 10) are covered.

Subsequently, when the heating rod 310 enters the mounting bath 110 to supply heat to the powdered resin 30, the powdered resin 30 is fused.

As such, when the powdered resin 30 is fused by the heating rod 310, the heating rod 310 stops supplying heat to the resin, and in this process, the resin residue generated inside the mounting tank 110 is It is removed through the residue remover 320.

In particular, after the resin residue generated in the mounting tank 110 is removed through the residue remover 320, the heating rod 310 may be discharged from the inside of the mounting tank 110 to the outside.

In addition, when the resin is solidified in the mounting tank 110 and combined with the specimen 10, the mounted specimen 10 is discharged to the outside of the housing 100.

Here, after the specimen 10 is entered into the mounting tank 110 of the housing 100, it is coupled to the resin and discharged to the outside of the housing 100 will be described in detail below.

Figure 3 is a view showing another main part of the tissue specimen mounting manufacturing apparatus according to the present invention.

Referring to FIG. 3, the housing 100 includes a specimen entrance 120 having an opening formed so that the specimen enters or exits the housing 100, and a gate 130 for shielding the specimen entrance 120. .

In addition, the housing 100 is moved to the inside and the outside of the housing 100 through the specimen entrance 120, the moving plate is formed so that the specimen 10 is moved into and out of the housing 100 ( 140).

In order to enter the specimen into the housing 100 to enter the mounting tank 110, the specimen 10 is mounted on the upper surface of the moving plate 140 which is exposed from the inside of the housing 100 to the outside.

When the specimen 10 is mounted on the upper surface of the movable plate 140, the movable plate 140 is transferred to the inside of the housing 100 through the specimen entrance 120, and the specimen 10 is moved to the housing ( 100) Allow entry into the interior.

In particular, when the movable plate 140 enters into the housing 100 while passing through the specimen 10, the gate 130 blocks the specimen entrance 120 of the housing 100 to prevent the housing from entering the housing 100. (10) Seal the inside and outside.

Subsequently, the moving plate 140 entered into the housing 100 allows the specimen 10 to enter into the mounting tank 110. In this case, the movable plate 140 may enter the specimen 10 into the mounting tank 110 in various forms.

For example, the movable plate 140 provided with the fixing jaw 112 on the mounting tank 110 and the specimen 10 is penetrated through the fixing jaw 112 and only the specimen 10 has the fixing jaw ( It can be caught by 112 to fall into the mounting tank 110.

As another example, the movable plate 140 on which the specimen 10 is mounted proceeds into the housing 100 and is inclined from the opened upper portion of the mounting tank 110 to form an inclination angle so that the specimen 10 is mounted on the mounting plate. It may be possible to fall into the tank 110.

In addition, the specimen 10 coupled with the resin in the mounting tank 110 is elevated through a lifting device (not shown) formed at the lower portion of the mounting tank 110, and then transferred to the moving plate 140. It is possible to discharge to the outside of the housing 100.

At this time, when the specimen 10 is elevated to the mounting tank 110, the gate 130 is opened.

Here, the specimen 10 coupled with the resin in the mounting tank 110 may be taken out by the user by entering the hand through the specimen entrance 120 of the housing 100.

Figure 4 is a flow chart schematically showing the process sequence for the method for manufacturing a tissue specimen mounting according to the present invention.

Referring to FIG. 1 in parallel, referring to FIG. 4, the specimen 10 has a specimen entry step (S100) entering the mounting tank 110 embedded in the housing 100.

In the specimen entering step (S100), after the specimen 10 enters into the housing 100 from the outside of the housing 100, a process of entering into the mounting tank 110 is performed.

In order for the specimen 10 to enter from the outside of the housing 100, the moving plate 140 moving inside and outside the housing 100 through the specimen entrance 120 having an opening at one end of the housing 100. This is used.

First, in a state in which the movable plate 140 is exposed to the outside of the housing 100, the specimen 10 is mounted on the upper surface of the movable plate 140.

In this state, the moving plate 140 is moved into the housing 100 through the specimen entrance 120, so that the specimen 10 is also moved into the housing 100.

And, the specimen entering step (S100), when the specimen 10 enters the mounting tank 110 to block the specimen entrance 120 through the gate 130 to block the outside and inside of the housing 100 The shielding step (S110) is further included.

In the shielding step (S110), when the movable plate 140 and the specimen 10 move into the housing 100 even before the specimen 10 enters the mounting tank 110, the gate ( It is preferable that 130 may block the specimen entrance 120.

The reason why the gate 130 seals the housing 100 in the shielding step S110 is that dust of the powdered resin 30 supplied inside the mounting tank 110 is external to the housing 100. This is to prevent exposure.

Subsequently, the specimen 10 moved into the housing 100 may enter the mounting tank 110 by the movement of the moving plate 140.

Here, the falling of the specimen 10 mounted on the movable plate 140 to the mounting tank 110 by the movement of the movable plate 140 will be omitted since it was mentioned in FIG. 3.

When the specimen 10 enters the lower portion of the mounting tank 110, a resin providing step (S200) of providing a powdered resin 30 into the mounting tank 110 from the resin supply unit 200 is performed.

Here, the resin supply unit 200, the resin built-in tank 210 accommodated in the housing 100 with a portion exposed to the outside, and the powder-type resin 30 in the resin built-in tank 210 An opening / closing opening 220 is formed to allow entry.

Subsequently, the resin supply unit 200 may be supplied into the mounting tank 110 without the powdered resin 30 stored in the resin inner tank 210 being exposed to the outside in the housing 100. It has a supply pipe 230 to enable.

In the resin providing step (S200), a process in which the powdered resin 30 stored in the resin intrinsic tank 210 is transferred to the mounting tank 110 through the supply pipe 230 is performed.

In this way, the powder-type resin 30 supplied from the resin built-in tank 210 to the mounting tank 110 is supplied by setting the required amount according to the needs of the user.

In addition, the mounting resin powder 30 provided in the mounting tank 110 is to be solidified after being melted by the heat provided from the heating rod 310 so that the specimen 10 and the powdered resin 30 is combined. It will have (S300).

In addition, in the mounting step (S300), the powdered resin 30 is positioned in the mounting tank 110 while wrapping the upper portion of the specimen 10, the heating rod 310 to the mounting tank 110 As it enters, it comes into contact with the powdered resin 30.

Thus, when the heating rod 310 is in contact with the powdered resin 30 located in the mounting tank 110, when the heat is generated, the powdered resin 30 is melted by the heat to have a liquid do.

Subsequently, when the resin is melted by the heating rod 310, the heating rod 310 stops the heat supply and is discharged from the inside of the mounting tank 110 to the outside.

The molten resin is solidified while the heating rod 310 is discharged from the mounting tank 110 while the specimen 10 is coupled.

In particular, a resin residue is generated in the mounting tank 110 in the process of melting and solidifying the powdered resin 30 in the mounting tank 110.

The process of removing the residue by the residue remover 320 is a residue removal step (S400).

As mentioned above, the residue remover 320 is connected to the suction pipe 322 and the suction pipe 322 from the inside of the mounting tank 110, the powder type inside the mounting tank 110 The resin 30 has a storage body 324 for sucking and storing the residue.

In addition, the residue remover 320 further includes a suction motor 326 for forcibly flowing the residue of the powdered resin 30 toward the storage body 324 through the suction pipe 322.

In the residue removal step (S400), the residue generated in the mounting tank 110 is sucked and transported from the mounting tank 110 to the storage body 324 through the operation of the suction motor 326. Let's go.

Finally, when the residue of the mounting tank 110 is transferred to the storage body 324, the test piece 10 coupled to the solidified powder-type resin 30 in the mounting tank 110 is the housing ( 100) to have an export step (S500) to be exported to the outside.

In the carrying out step (S500), the gate 130 that is blocking the specimen entrance 120 is opened, and the specimen 10 coupled with the resin in the mounting tank 110 can be carried out to the outside of the housing 100. Done.

Here, the specimen 10 combined with the resin in the mounting tank 110, so that the lower portion of the mounting tank 110 is elevated separately, so that the specimen 10 is raised to the upper portion of the mounting tank 110 It is possible to carry out to the outside of the housing 100.

This configuration allows the operator to proceed in a comfortable environment because the mounting of the tissue specimen 10 to facilitate the observation of the specimen 10, while preventing contamination of the room due to the dust of the powder.

In addition, in one embodiment of the present invention, in the mounting operation of the specimen 10, since the specimen 10 can be mounted using an automated machine, it is possible to mount the specimen 10 while reducing the labor force of the operator. .

Although the embodiments of the present invention have been described above with reference to the accompanying drawings, the present invention is not limited to the above embodiments and can be manufactured in various forms, and a person of ordinary skill in the art to which the present invention pertains. It will be appreciated that the present invention may be embodied in other specific forms without changing the technical spirit or essential features of the present invention. It is therefore to be understood that the above-described embodiments are illustrative in all aspects and not restrictive.

10: specimen 30: powdered resin
100 housing 110 mounting tank
112: fixed jaw
120: specimen entrance 130: gate
140: moving plate
200: resin supply section 210; Internal resin
220: opening and closing 230: supply pipe
300: high resin part 310: heating rod
320: residue remover 322: suction pipe
324: storage body 326: suction motor
S100: specimen entry step S110; Shielding stage
S200: Resin providing step S300: Mounting step
S400: Residual removal step S500: Export step

Claims (8)

A housing containing a mounting tank for accommodating the specimen;
A resin supply unit connected to the housing to supply powder resin to the mounting bath; And
And a resin solid portion provided inside the housing to solidify the powder-type resin supplied to the mounting tank while wrapping the specimen.
The resin mold portion, the heating rod to enter or exit the inside of the mounting tank, the heating rod for providing heat to melt the powder-type resin; And
And a remnant remover for sucking and removing the remnants generated in the solidification process after the powdered resin is melted in the mounting tank.
The method of claim 1,
The resin supply unit,
A resin built-in tank, part or all of which is provided inside the housing to store the powdered resin;
An opening / closing opening formed in the resin inner bath and entering or blocking the powdered resin from the outside of the inner resin tank through an opening or closing operation; And
It is formed in a tubular form, the supply pipe for supplying the powder-type resin entered into the resin built-in tank to the mounting tank; tissue specimen mounting manufacturing apparatus comprising a.
delete The method of claim 1,
The residue remover,
A suction pipe connected to the mounting tank to suck the residue of the powdered resin through the driving of a suction motor; And
And a storage body connected to the suction pipe to store the residue of the powdered resin sucked by the suction pipe.
The method of claim 1,
The housing includes:
A specimen entrance opening or exiting the specimen into the housing;
A gate that opens or closes the specimen entrance; And
And a moving plate for moving the specimen into or out of the housing through the specimen entrance.
delete delete delete

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