KR100921805B1 - Bent processing apparatus for modeling - Google Patents

Abstract

The present invention is to configure the drill unit and the air washing unit on the NC head kit, to process the vent hole through the drill unit on the molding, and to remove the residual sand on each processed vent hole through the air washing unit to the residual sand It provides a molding vent processing apparatus for preventing the hole hole clogging phenomenon and residual sand fall into the cavity to prevent appearance defects of the mold.

Molding, Vent Holes, Drill Units, Air Washing Units

Description

BENT PROCESSING APPARATUS FOR MODELING

The present invention relates to a molding vent processing apparatus, and more particularly, to configure an air washing unit together with a drill unit to process a vent hole using a drill unit on a molding, and to air-wash the remaining sand on each processed vent hole. It relates to a molding vent processing apparatus to be removed through the unit.

In general, casting is a work performed to make a casting, and the casting process is performed in the order of designing the casting, preparing a casting scheme, creating a model, dissolving and injecting, and finishing the product.

First of all, the casting method for the product to be made is a matter of how to design and assemble a mold. In principle, the whole is divided into two parts without using a core as much as possible. It is desirable to devise the product, and the product cannot be returned to every corner due to bubbles, inclusions, cracks due to volume reduction during solidification, and lack of fluidity. It should be designed so that no serious defects occur.

In order to manufacture such a mold, the molding process is made by using a molding sand containing silica sand and clay as the main raw materials in the molding process.

That is, in the molding process according to the prior art, as shown in Fig. 1, first, the pattern mold 105 disposed on the fixing plate 103 is lifted and inserted into the flask 101 in the empty space.

Then, a molding sand is supplied from the hopper 107 to fill the inside of the flask 101 with the molding sand 109, and the press 111 at the top of the flask 101 is maintained to maintain the strength in this state. Pressing the molding sand 109 filled in the flask 101 is compacted.

When the compression of the molding sand is completed, the pattern mold 105 is lowered to manufacture the molding 113 is completed, the molding 113 is a plurality of vent holes 115 to discharge the gas generated during the injection of molten metal to the atmosphere ) Is moved to the vent processing process.

In order to process the vent hole 115 on the molding 113, a vent processing apparatus 130 is used. In the conventional vent processing apparatus 130, the drill unit 140 is mounted on the NC head kit 131. NC machine.

Here, the drill unit 140 is equipped with an operating cylinder 141 inside the NC head kit 131, and the drill motor 143 is mounted on the tip of the operating rod of the operating cylinder 141 through a mounting block 142. The drill head 145 is mounted on the rotating shaft of the drill motor 143, and the drill blade 147 is mounted on the center of the drill head 145.

That is, the vent processing device 130 is moved to a predetermined position by the NC program, in which the drill unit 140 is a working cylinder 141 and the drill motor 145 at a predetermined position on the molding 113. Simultaneously operates to process a plurality of vent holes 115 on the molding 113 through the drill blade 149.

However, the conventional vent processing device 130 as described above simply processes the vent hole 115 on the molding 113 by using a drill blade 147, as shown in FIG. Residual sand 117 is generated on the 115, the residual sand 117 on each vent hole 115 to block each vent hole 115 during the molten metal injection operation to the molding 113 There is a problem that a gas failure occurs.

In addition, the phenomenon that the remaining sand 117 of each vent hole 115 falls into the cavity occurs, causing a poor appearance appearance of the finished mold.

Therefore, the present invention has been invented to solve the above problems, the object of the present invention is to configure the air washing unit with the drill unit on the NC head kit, to process the vent hole through the drill unit on the molding And removing the remaining sand on each of the processed vent holes through the air washing unit, thereby providing a venting apparatus for a molding that prevents the clogging of vent holes caused by the residual sand and the remaining sand falling into the cavity to prevent appearance defects of the mold. will be.

Venting apparatus for a molding according to an embodiment of the present invention for achieving this object is connected to the NC machine to process the vent hole for discharging the gas generated during the injection of the molten metal into the atmosphere NC is moved according to the NC program In the molding vent processing apparatus in which the drill unit is mounted inside the head kit,

An air washer unit disposed on the side of the drill unit in the NC head kit and operated forward and backward by a cylinder operation to remove residual sand in the vent hole processed by the drill unit with air supplied from an air compressor; The air washing unit includes an operation cylinder mounted at one side of the NC head kit; A lower end is mounted at the tip of the working rod of the working cylinder, and there is formed an air passage connecting the upper surface and one side thereof, and an air inlet connected to the air compressor through the pneumatic pipe is formed at one side connected to the air passage. A connection block having an air outlet formed on an upper surface thereof connected to the air passage; A main tip having a lower end mounted at an air outlet of the connection block and having an air connection passage formed therein in a cylindrical shape; A lower end is mounted on an upper end of the main tip, and a through-hole is formed in a longitudinal direction thereof so as to be connected to an air connection passage of the main tip, and a plurality of brushing jaws are formed on the outer circumferential surface thereof. Brushing tips; A lower end is mounted on the upper end of the brush tip, and is formed in a circular rod shape so that an air supply passage is formed in the longitudinal direction thereof so as to be connected to the through hole, and a first air injection hole is formed in the center of the tip, and on the outer circumferential surface thereof. Characterized in that the air washing tip is formed with a plurality of second air injection holes at a predetermined interval along the longitudinal direction.

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The main tip has a lower end screwed into the air outlet of the connection block, the upper end is characterized in that the screwed to the lower end of the brushing tip is connected.

Each brush jaw is formed in a ring shape around the outer circumference of the brush tip.

The air washing tip is characterized in that the lower end is screwed to the top of the brushing tip is connected.

The second air injection port is characterized in that it is formed at an angle of 90 ° along the outer circumference of the air washing tip.

The air washing tip is characterized in that the diffusion groove is formed along the periphery of the outer peripheral surface of each of the second air injection port is formed.

According to the vent processing apparatus for a vehicle according to the present invention as described above, after the vent hole processing through the drill unit on the molding, by removing the residual sand in each vent hole through the air washing unit, clogging the vent hole by the residual sand It is effective to prevent the phenomenon.

In addition, by preventing the phenomenon of residual sand falling into the cavity, there is an effect of preventing the appearance shape defect of the mold by sand.

Hereinafter, with reference to the accompanying drawings, preferred embodiments of the present invention will be described in detail as follows.

3 is a front view of a molding vent processing apparatus according to an embodiment of the present invention, Figure 4 is an enlarged cross-sectional view of the portion A of Figure 3, of the air washing unit applied to the molding vent processing apparatus according to an embodiment of the present invention 5 is a cross-sectional view taken along line BB of FIG. 4.

Molding vent processing apparatus 1 according to an embodiment of the present invention, as shown in Figure 3, to process the vent hole (5) to discharge the gas generated during the injection of molten metal on the mold (3) to the atmosphere It is configured to include an air washing unit 30 together with the drill unit 10 in the NC head kit (7) that is connected to the NC machine (not shown) and moved according to the NC program.

The drill unit 10 is mounted to the operating cylinder 11 of the drill unit 10 in the interior of the NC head kit (7), the mounting block (12) at the tip of the operating rod (12) of the operating cylinder (11) Through 13) the drill motor 15 is mounted.

The drill head 17 is mounted on the rotating shaft of the drill motor 15, and a drill blade 19 is mounted on the center of the drill head 17.

In addition, an air washing unit 30 is disposed at the side of the drill unit 10 in the NC head kit 7, and the drill unit 10 is supplied from the air compressor 9 by the air compressor 9. Remove the residual sand inside the vent hole (5) processed by the).

3 and 4, the air washing unit 30, first, the operating cylinder 31 of the air washing unit 30 is mounted on one side inside the NC head kit (7).

The lower end of the connecting block 33 is mounted at the tip of the operating rod 32 of the working cylinder 31 of the air washing unit 30.

The connection block 33 is formed with an air passage 35 connecting the upper surface and one side therein.

One side of the connection block 33 connected to the air passage 35 is formed with an air inlet 37 connected to the air compressor 9 through a pneumatic pipe 8, the air passage 35 The air outlet 39 is formed on the upper surface connected with.

The lower end of the main tip 41 is mounted to the air outlet 39 of the connection block 35.

The main tip 41 is formed in a cylindrical shape, the air connecting passage 43 is formed therein.

The lower end of the brushing tip 45 is mounted on the upper end of the main tip 41.

Here, the main tip 41 is screwed into the lower end of the air outlet 39 of the connection block 33, the upper end is screwed to the lower end of the brushing tip 45 is connected.

The brushing tip 45 is formed in a circular rod shape so that the through hole 47 is formed in the longitudinal direction thereof so as to be connected to the air connection passage 43 of the main tip 41.

A plurality of brushing jaws 49 are formed on the outer circumferential surface of the brush tip 45.

Here, each of the brushing jaws 49 is formed in a ring shape along the circumference of the outer circumferential surface of the brushing tip 45.

The lower end of the air washing tip 51 is mounted on the upper end of the brushing tip 45.

The air washing tip 51 is formed in a circular rod shape so that the air supply passage 53 is formed in the longitudinal direction thereof so as to be connected to the through hole 47.

The air washing tip 51 is connected to the lower end of the brush tip 45 is screwed.

In addition, a first air injection hole 55 is formed at the center of the front end of the air washing tip 51, and a plurality of second air injection holes 57 are formed on the outer circumferential surface at regular intervals along its longitudinal direction.

Here, the second air injection hole 57 is formed at an angle of 90 ° along the circumference of the outer circumferential surface of the air washing tip 51.

In addition, the air washing tip 51 has a diffusion groove 59 formed around the outer circumferential surface of each of the second air injection holes 57.

Therefore, the operation of the molding vent processing apparatus according to an embodiment of the present invention having the configuration as described above.

6 is a step-by-step operational state diagram of the molding vent processing apparatus according to an embodiment of the present invention, Figure 7 is a cross-sectional view along the line CC of Figure 6, the air washing unit applied to the molding vent processing apparatus according to an embodiment of the present invention Is the operating state diagram.

First, the bent processing apparatus 1 is moved to a position determined by an NC program as shown in FIG. 6 (S1), and at this time, the drill unit 10 is located at the predetermined position on the mold 3. The working cylinder 11 and the drill motor 15 of the drill unit 10 simultaneously operate the plurality of vent holes 5 on the mold 3 through the drill blades 19.

When the process of the bent hole 5 is completed on the molding 3 through the drill unit 10, the working cylinder 11 of the drill unit 10 reversely operates to move the drill unit 10 to an initial position. Return to.

Thereafter, the air washing unit 30 is moved to the position of each vent hole 5 processed through the drill unit 10 on the molding 3 by the NC program as shown in FIG. 6 (S2). The operating cylinder 31 of the air washing unit 30 is moved forward to insert the brushing tip 45 and the air washing tip 51 into the vent holes 5.

At this time, the air supplied from the air compressor (9) is introduced into the air inlet 37 of the connection block 33 through the pneumatic pipe (8), the supplied air is passed through the air passage (35) It is supplied to the air connecting passage 43 of the main tip 41 through the air outlet 39.

The air supplied to the air connection passage 43 passes through the through hole 47 of the brushing tip 45 to the air supply passage 53 of the air washing tip 51, as shown in FIG. 7. Supplied to the outside of the air washing tip 51 through the first air inlet 55 and each second air inlet 57 to remove residual sand 6 in the vent hole 5. do.

Here, the diffusion groove 59 of the air washing tip 51 serves to diffuse and spray the air injected from each of the second air injection holes 57 in the vent hole 5.

And each brushing jaw 49 of the brushing tip 41 sweeps the remaining sand which cannot be removed by air when entering the inside of the vent hole 5 and is compacted, and an operating cylinder of the air washing unit 30 ( 31, the air washing tip 51 is returned as the reverse operation, and the supplied air is injected once more to completely remove the remaining sand on the vent hole 5.

Therefore, according to the molding vent processing apparatus of the present invention as described above, after the vent hole (5) processing through the drill unit 10 on the molding (3), each vent through the air washing unit (30) By removing the residual sand 6 inside the hole 5, the clogging of the vent holes 5 by the residual sand 6 is prevented, and the residual sand 6 is prevented from falling into the cavity. The appearance defect of the mold by sand is prevented.

1 is a schematic flowchart illustrating a general molding process.

FIG. 2 is a cross-sectional view taken along the line X-X of FIG. 1.

3 is a front view of a molding vent processing apparatus according to an embodiment of the present invention.

FIG. 4 is an enlarged cross-sectional view of part A of FIG. 3 and is a cross-sectional view of the air washing unit applied to the molding vent processing apparatus according to the embodiment of the present invention.

5 is a cross-sectional view taken along line B-B of FIG. 5.

6 is a step-by-step operating state diagram of the molding vent processing apparatus according to an embodiment of the present invention.

FIG. 7 is a cross-sectional view taken along the line C-C of FIG. 6 and is an operating state diagram of the air washing unit applied to the molding vent processing apparatus according to the embodiment of the present invention.

Claims (7)

In the molding vent processing apparatus in which a drill unit is mounted inside the NC head kit which is connected in accordance with the NC program to be connected to the NC machine to process the vent hole to discharge the gas generated during the injection of the molten metal to the atmosphere, An air washer unit disposed on the side of the drill unit in the NC head kit and operated forward and backward by a cylinder operation to remove residual sand in the vent hole processed by the drill unit with air supplied from an air compressor; , The air washing unit An operation cylinder mounted at one side of the NC head kit; A lower end is mounted at the tip of the working rod of the working cylinder, and there is formed an air passage connecting the upper surface and one side thereof, and an air inlet connected to the air compressor through the pneumatic pipe is formed at one side connected to the air passage. A connection block having an air outlet formed on an upper surface thereof connected to the air passage; A main tip having a lower end mounted at an air outlet of the connection block and having an air connection passage formed therein in a cylindrical shape; A lower end is mounted on an upper end of the main tip, and a through-hole is formed in a longitudinal direction thereof so as to be connected to an air connection passage of the main tip, and a plurality of brushing jaws are formed on the outer circumferential surface thereof. Brushing tips; And A lower end is mounted on the upper end of the brush tip, and is formed in a circular rod shape so that an air supply passage is formed in the longitudinal direction thereof so as to be connected to the through hole, and a first air injection hole is formed in the center of the tip, and on the outer peripheral surface thereof. Molding vent processing apparatus, characterized in that consisting of an air washing tip formed with a plurality of second air injection holes at a predetermined interval along the longitudinal direction. delete The method of claim 1, The main tip is The lower end is screwed into the air outlet of the connecting block, the upper end of the molding vent processing apparatus, characterized in that the screwed to the lower end of the brushing tip. The method of claim 1, Each brushing jaw is Molding vent processing apparatus, characterized in that formed in a ring shape around the outer peripheral surface of the brushing tip. The method of claim 1, The air wash tip Molding vent processing apparatus, characterized in that the lower end is connected to the upper end of the brushing tip screwed. The method of claim 1, The second air injection hole Molding vent processing apparatus, characterized in that formed at a 90 ° angle around the outer circumferential surface of the air washing tip. The method of claim 1, The air wash tip Molding vent processing apparatus, characterized in that the diffusion groove is formed along the periphery of each outer circumferential surface of each of the second air injection holes.

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