KR102175181B1 - MCT processing equipment including clamp jig - Google Patents

Abstract

The present invention relates to an MCT processing device having a clamping jig, which comprises: a processing chamber unit for processing an input workpiece using one tool between a rotating tool and a tool moved in vertical and horizontal directions; and a processing jig unit for aligning and fixating the workpiece which is processed by the tool on a bed.

Description

MCT processing equipment including clamp jig

The present invention relates to an MCT processing apparatus including a clamping jig, and more particularly, a workpiece is processed using any one of a tool that moves vertically and horizontally or a tool that rotates the input workpiece, It relates to an MCT processing apparatus including a clamping jig for aligning and fixing a workpiece processed by a tool on a bed.

In general, machining centers are machine tools that perform a wide range of machining that can be done in lathes, milling, drilling, and boring machines.

Such machining centers are usually divided into vertical machining centers with a main shaft mounted vertically and horizontal machining centers with a main shaft mounted horizontally.

The vertical machining center is largely composed of a bed, a table installed above the bed on which a workpiece is placed, a column vertically mounted at the rear of the bed, and a spindle mounted on the column.

The vertical machining center is configured to process a workpiece mounted on a table while moving in a horizontal direction and a vertical direction while a cutting tool is installed on the spindle.

The spindle may be composed of only one, but is generally provided in plural so as to simultaneously process a plurality of workpieces.

However, the above-described conventional machining center has a problem in that processing remnants such as chips are scattered during processing of a workpiece.

In particular, due to the above-described problem due to the scattering of the processing debris, not only causes a detrimental effect on the health of the operator, but also a problem that the processing precision is deteriorated by the processing debris being blown by the workpiece or the cutting tool.

Accordingly, various studies have been conducted to prevent the scattering of the machining scraps, but a configuration that satisfies the necessary condition that the structure for preventing scattering of the machining scraps must not be interfered with during the work for replacing the cutting tool from the spindle. Is not provided.

Korean Patent Registration No. 10-2095451

The present invention is a configuration for processing a workpiece by using either a tool that moves vertically and horizontally or a tool that rotates, and aligns and fixes the workpiece processed by the tool on a bed. Provides.

In addition, it provides a configuration that collects dust generated during processing and classifies and discharges foreign substances and air.

In addition, a configuration is provided to seal the interior of the chamber so that dust generated during processing does not scatter to the outside.

In addition, it provides a configuration in which scrap generated during processing is compressed to block and discharge.

The present invention includes a processing chamber part for processing a workpiece using any one of a tool or a rotating tool that moves the input workpiece in a vertical and horizontal direction; And a processing jig portion for aligning and fixing the workpiece to be processed by the tool on the bed.

In one embodiment, the processing chamber unit is formed in a square, is seated and fixed on the ground, the chamber is formed so as to perform a processing operation inside; A workpiece input port formed to be opened toward one side of the chamber housing for inputting the workpiece into the chamber housing; Fixing tool means formed on the inside of the chamber housing so that the converted tool is fixed to the vertical slide member to process the workpiece; Rotating tool means formed on the inside of the chamber housing so that the tool to be rotated is fixed to the rotating member to process the workpiece; A processing bed formed at the bottom of the chamber enclosure to process the workpiece by preventing the workpiece from moving on the chamber box by a tool that is moved during processing of the workpiece, or by moving the workpiece back and forth, left and right when processing with a fixed tool. ; It includes a slide opening and closing door formed toward the workpiece inlet of the chamber housing so that dust or scrap generated during processing of the workpiece is not scattered to the outside of the chamber housing, and the fixing tool means is a horizontal moving member so that the vertical slide member slides in a vertical direction. A vertical fixing member formed on the top; A vertical slide member coupled to the vertical slide member so that the fixing tool tool slides in a vertical direction along the vertical fixing member; A horizontal movable member formed in front of the chamber housing so that the vertical slide member is movable in a horizontal direction; It includes a fixed tool tool formed under the vertical slide member to process the workpiece, and the rotary tool means is formed to be rotatable by forming a plurality of rotary tool tools in front of the chamber enclosure to convert the rotary tool tool. Rotating member; And a plurality of rotary tool tools formed around the rotating member to process the workpiece, wherein the processing jig unit comprises: a fixing vise means for fixing the workpiece; And a fixing jig means for processing a plurality of workpieces in the same manner, wherein the fixing vise means includes: a pressing member formed to correspond to the upper portion of the processing bed to fix the workpiece or fix the fixing jig means; It includes a locking rotating member formed on one side of the pressing member to move the pressing member formed to correspond to each other in the same direction, and the fixing jig means is fixed to one side or both sides of the fixing jig means so as to be fixed as a reference when processing a plurality of workpieces. A reference hole formed; It includes an attachment surface formed as an upper surface of the fixing jig means so that the workpiece is attached.

In another embodiment, the MCT factory value further comprises a dust collection exhaust unit for inhaling dust generated during processing of the workpiece inside the processing chamber unit to classify and discharge dust and air, and the dust collection exhaust unit, the chamber enclosure An exhaust port formed through one side of the chamber enclosure to discharge dust generated therein; A collecting net formed toward the exhaust port inside the chamber enclosure to collect coarse dust among the dust moving toward the exhaust port; A dust collector formed toward an exhaust port outside the chamber enclosure to collect dust moving through the collection network using electricity and water; A dust filter formed on one side of the dust collector to filter dust particles having a size of 0.3 μm to 1 μm in the air that is filtered and moved through the dust collector; A fine filter formed on one side of the dust filter to filter fine dust in the air that is filtered and moved through the dust filter; An air discharge motor connected by an air discharge pipe to one side of the fine powder filter to move dust inside the chamber enclosure to the outside; An air discharge pipe formed to be connected between the air discharge motor and the fine filter, and formed at one side of the air discharge motor to discharge the purified air that is moved through the air discharge motor to the outside; A foreign substance discharge pipe formed under the dust collector to discharge foreign substances discharged through the dust collector to the outside; A filter pipe formed toward the center of the foreign substance discharge pipe to filter out scraps among foreign substances moved along the foreign substance discharge pipe; A discharge pipe formed at one side of the foreign substance discharge pipe to discharge the discharge water from which foreign substances are filtered; It includes a pollution sensor formed on one side of the air discharge pipe to measure the degree of pollution of the air where dust is filtered, and the MCT factory value seals the inside of the chamber enclosure so that dust does not scatter to the outside when the workpiece is processed inside the processing chamber. Further comprising: a chamber sealing portion for, the chamber sealing portion, a slide door formed to slide from one side of the workpiece inlet to seal the chamber enclosure; One side is fixed to the chamber case and the other side is connected to the lower side of the slide door so that the slide door is moved in one direction so that the chamber case is sealed, or the slide door is moved in the other direction to insert the workpiece into the chamber case. Door cylinder; An airtight sealing material formed at one side of the slide door to a position in contact with the chamber housing so that dust scattered from the inside of the chamber housing does not flow out when the slide door contacts the chamber housing; A magnetic member formed at one side of the slide door so that the electromagnet is operated when the slide door contacts the locking member so that it is not easily opened from the chamber case when the slide door contacts the chamber case; Includes a locking member formed at a position corresponding to the magnetic member on one side of the chamber housing so that the magnetic member is inserted and received, and the MCT factory value is a scrap compression unit for compressing and discharging scrap generated during processing of the workpiece. It further includes, wherein the scrap compression unit is provided with scrap generated from the processing chamber unit side and one side is connected to one side of the processing chamber unit, and the other side is connected to one side of the compression chamber unit so as to be introduced into the compression chamber unit. ; And a compression chamber means for compressing the scrap input through the scrap input pipe. And a locking means for coupling the compression chamber means to compress the input scrap, wherein the compression chamber means has a compression case formed in a circular column shape and has an upper portion open; A case cover formed to be detachable from the top of the opened compression case; A flange member formed around a circumference for coupling between the compression case and the case cover; A flange groove formed in the center of the flange member so that the locking member is formed; A pressing panel formed under the case cover to press the input scrap from the top; A compression cylinder having one side coupled to the lower portion of the case cover and the other side coupled to the upper portion of the pressing panel to move the pressing panel toward the compression case; A drain hole formed under the compression case so that residual oil or residual water generated from the scrap compressed by descending of the compression panel is discharged to the outside; A compression retraction network formed inside the compression case so that the input scrap is loaded; A network opening and closing member formed on both sides of the compression and retreat network so as to open and close to both sides in the compression and retreat network that is raised to discharge the compressed scrap block; A mesh opening and closing hinge formed between the mesh opening and closing member and the pressing and closing mesh so that the mesh opening and closing member is rotatably opened and closed in the pressing and closing mesh; A discharge cylinder having one side fixed to the inner bottom surface of the compression case and the other side connected to the bottom of the compression case to discharge the scrap block by moving the compression retreat network to the upper portion of the compression case; It includes a compression sensor formed on the upper surface of the compression retracting net to sense the pressure of the compressed scrap, and the locking means is a lock formed vertically on a flange member formed around the case cover to couple the case cover to the compression case. pin; A pin rotation motor connected to the locking pin to rotate the locking pin and formed above the flange member; It includes a locking member coupled to the flange groove formed on the flange member formed around the compression case so that the rotating locking pin is coupled.

As described above, the inputted workpiece is processed using either a tool that moves vertically and horizontally or a rotating tool, and the workpiece processed by the tool is aligned and fixed on the bed. It provides the effect of improving the processing efficiency by processing the workpiece.

In addition, the inside of the chamber is sealed so that dust generated during processing does not scatter to the outside, and by collecting dust generated during processing, classifying and discharging foreign substances and air, it provides the effect of preventing workers from inhaling the scattered dust.

In addition, it provides convenience to facilitate the disposal of scrap by compressing and discharging scrap generated during processing.

The effects of the present invention are not limited to the above-mentioned effects, and various effects may be included within a range that is apparent to a technician from the contents to be described below.

1 is a perspective view of an MCT processing apparatus including a clamping jig of the present invention.
Figure 2 is a view showing in detail the fixing tool means for the processing chamber portion of the MCT processing apparatus including the present invention clamping jig.
3 is a view showing in detail the rotary tool means for the processing chamber portion of the MCT processing apparatus including the present invention clamping jig.
Figure 4 is a perspective view showing a processing jig portion for the MCT processing apparatus including the present invention clamping jig.
5 is a view to which a dust collecting and exhaust part which is another embodiment of an MCT processing apparatus including a clamping jig according to the present invention is applied.
6 is a view to which a chamber sealing part, which is another embodiment, of an MCT processing apparatus including a clamping jig of the present invention is applied.
7 is a perspective view to which a scrap compression unit, which is another embodiment, of an MCT processing apparatus including a clamping jig according to the present invention is applied.
8 is a cross-sectional view of FIG. 7.

DETAILED DESCRIPTION OF THE INVENTION The detailed description of the present invention to be described below refers to the accompanying drawings, which illustrate specific embodiments in which the present invention may be practiced. These embodiments are described in detail sufficient to enable a person skilled in the art to practice the present invention. It is to be understood that the various embodiments of the present invention are different from each other, but need not be mutually exclusive. For example, certain shapes, structures, and characteristics described herein may be implemented in other embodiments without departing from the spirit and scope of the present invention in relation to one embodiment. In addition, it is to be understood that the location or arrangement of individual components within each disclosed embodiment may be changed without departing from the spirit and scope of the present invention. Accordingly, the detailed description to be described below is not intended to be taken in a limiting sense, and the scope of the present invention, if properly described, is limited only by the appended claims, along with all scopes equivalent to those claimed by the claims. Like reference numerals in the drawings refer to the same or similar functions over several aspects.

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

1 is a perspective view of an MCT processing apparatus 10 including a clamping jig according to the present invention, and FIG. 2 is a fixing tool means for the processing chamber 100 of an MCT processing apparatus 10 including a clamping jig of the present invention ( 120) is a view showing in detail, and FIG. 3 is a view showing in detail the rotary tool means 130 for the processing chamber part 100 of the MCT processing apparatus 10 including the clamping jig of the present invention, and FIG. It is a perspective view showing the processing jig portion 200 for the MCT processing apparatus 10 including the present invention clamping jig.

Referring to FIGS. 1 to 4, the processing chamber unit 100 is for processing a workpiece using either a tool that moves vertically and horizontally or a tool that is rotated. It is characterized.

The processing chamber unit 100 includes a chamber enclosure 110, a workpiece inlet 111, a fixing tool unit 120, a rotary tool unit 130, a processing bed 140, and a slide opening and closing.

The chamber housing 110 is formed in a square shape, and is seated and fixed on the ground so that shaking does not occur even with an external impact.

The chamber housing 110 is formed to perform a processing operation of the workpiece inside, and is characterized in that dust scattered during the processing operation of the workpiece does not leak out.

The workpiece inlet 111 is formed on one side of the chamber housing 110 and is characterized in that it is formed to have an opening so that the workpiece can be introduced into the chamber housing 110.

The fixing tool means 120 is characterized in that the converted tool is fixed to the vertical slide member 122 to be formed on the inner front surface of the chamber housing 110 to process the workpiece.

The fixing tool means 120 includes a vertical fixing member 121, a vertical slide member 122, a horizontal moving member 123, and a fixing tool tool 124.

The vertical fixing member 121 is formed to serve as a guide support so that the vertical slide member 122 can slide in the vertical direction, and the vertical fixing member 121 is formed on the inner front surface of the chamber housing 110 It is characterized in that it is formed on one side of the horizontal moving member 123.

The vertical fixing member 121 is moved in a vertical direction, and is formed to move the tool to the side of the workpiece by elevating and lowering the tool.

The vertical slide member 122 is formed to slide the fixing tool tool 124 in the vertical direction along the vertical fixing member 121, and the vertical slide member 122 is inside the vertical fixing member 121 It is combined and characterized in that it slides in a vertical direction.

The horizontal movable member 123 is formed so that the vertical slide member 122 on which the fixing tool tool 124 is formed is movable in the horizontal direction, and the horizontal movable member 123 is disposed in the front of the chamber housing 110. It is characterized in that it is formed, and in more detail, both sides of the horizontal movable member 123 are connected to both sides of the chamber housing 110, and the horizontal movable member 123 is moved based on both sides.

The fixed tool tool 124 is formed to process a workpiece, is formed to attach and detach a tool suitable for processing from the outside, and is formed to rotate the tool.

The fixing tool tool 124 is characterized in that it is formed under the vertical slide member 122.

The rotary tool means 130 is characterized in that it is formed on the inner front surface of the chamber housing 110 so that the tool to be rotated is fixed to the rotary member 131 to process the workpiece.

The rotary tool means 130 includes a rotary member 131 and a rotary tool tool 132.

The rotating member 131 is formed to rotate the rotary tool tool 132 in one direction, and the rotary tool tool 132 selected in the lower direction is positioned.

The rotating member 131 is formed on the front surface of the chamber housing 110, and in more detail, it is formed on the front surface of the vertical slide member 122.

The rotating member 131 is characterized in that it is formed so that a plurality of rotating tool tools 132 are formed around the circumference so that the rotating tool tool 132 suitable for processing is rotated and positioned toward the processing position.

The rotary tool tool 132 is formed in plural around the rotating member 131 in order to process the workpiece, and the rotary tool tool 132 is formed so that a tool suitable for processing the workpiece is detachably formed. do.

The processing bed 140 is formed so that the object to be processed is seated and fixed, and the processing bed 140 is fixed to the inner bottom surface of the chamber housing 110 so that the object does not move, or the object is formed to move. It is characterized by being.

That is, the processing bed 140 is characterized in that it is fixedly formed on the inner bottom surface of the chamber housing 110 when the tool is moved in the front, rear, left, right, up and down directions during processing of the workpiece.

In addition, the processing bed 140 is characterized in that it is formed to move from the inner floor of the chamber housing 110 so that the workpiece is moved in the front, rear, left, and right directions when the tool moves in the vertical direction during processing of the workpiece. do.

The slide opening/closing door 150 is formed so that dust or scrap generated during processing of the workpiece is not scattered to the outside of the chamber housing 110, and the slide opening/closing door 150 is a workpiece inlet 111 of the chamber housing 110. It is characterized in that it is formed in the side.

The processing jig portion 200 is characterized in that for aligning and fixing the workpiece processed by the tool on the bed.

The processing jig part 200 includes a fixing vise means 210 and a fixing jig means 220.

The fixed vise means 210 is characterized in that it is fixedly formed on the processing bed 140 to fix the workpiece.

The fixed vise means 210 includes a pressing member 211 and a locking rotation member 212 and 131.

The pressing member 211 is formed to fix the workpiece for processing, and the pressing member 211 is formed on one side and the other side of the fixing vise means 210.

The crimping member 211 is formed to fix the workpiece or to fix the fixing jig means 220, and the crimping member 211 slides in a direction corresponding to each other above the fixing vise means 210 to be avoided. It is characterized in that the workpiece or fixing jig means 220 is fixed.

The locking rotating members 212 and 131 slide the pressing members 211 to corresponding positions. When rotating the locking rotating members 212 and 131 in one direction, a workpiece or a fixing jig It is fixed by sliding to the side of the means 220, and when rotating in the other direction, it is characterized in that it falls on the fixed workpiece or the fixing jig means 220.

The fixing jig means 220 is characterized in that it is fixedly formed by the fixing vise means 210 in order to process a plurality of workpieces in the same manner.

The fixing jig means 220 includes a reference hole 221 and an attachment surface 222.

The reference hole 221 is for fixing to be a reference for processing when processing a plurality of workpieces, and the reference hole 221 passes through a hole formed in the workpiece and is fixed by a fixing means to fix the jig means. It is characterized in that it does not move on (220).

The attachment surface 222 is formed so that the surface of the object to be processed contacts when the object is fixed by an adhesive tape or a fixing means, and the attachment surface 222 is formed as an upper surface of the fixing jig means 220 do.

5 is a view to which the dust collecting and exhaust unit 300, which is another embodiment of the MCT processing apparatus 10 including the clamping jig according to the present invention, is applied.

Referring to the drawing, the dust collecting and exhaust unit 300 is characterized in that the inside of the processing chamber unit 100 sucks dust generated during processing of a workpiece and classifies it into dust and air.

The dust collecting and exhaust unit 300 is characterized in that the classified air is discharged to the outside, and the classified dust is collected and provided to the scrap compression unit or disposed of.

The dust collecting and exhaust part 300 includes an exhaust port 310, a collecting net 320, a dust collector 330, a dust filter 340, a fine filter 350, an air discharge motor 360, an air discharge pipe 361, and foreign matter. It includes a discharge pipe 370, a filter pipe 371, a discharge pipe 372, and a pollution sensor 380.

The exhaust port 310 is formed in one side of the chamber housing 110 and is formed to penetrate to the outside.

The exhaust port 310 is characterized in that it is formed so that dust scattered during processing of the workpiece is moved toward the dust collector 330.

The dust moving through the exhaust port 310 is made of fine dust such as air, dust, and oil vapor, and scrap.

The collecting net 320 is characterized in that the dust or scrap of coarse particles among the dust moving toward the exhaust port 310 cannot be moved toward the dust collector 330.

Dust or scrap filtered through the collecting net 320 is characterized in that it is formed to fall on the inner floor of the chamber housing 110.

The dust collector 330 is characterized in that it is formed to collect dust flowing through the collection net 320 using electricity and water.

The dust collector 330 is characterized in that it is formed in the chamber housing 110 toward one side of the exhaust port 310.

The dust collector 330 is characterized in that it is formed in any one of dry dust collection using only electricity or wet dust collection using electricity and water.

The dust filter 340 is formed to filter out dust having a small particle size in the air moving through the dust collector 330, and the dust filter 340 is formed on one side of the dust collector 330. do.

The dust filter 340 is characterized in that it filters fine dust formed in a particle size of 0.3㎛ ~ 1㎛.

The fine filter 350 is formed to filter particles of less than 0.3 μm, which are fine dust in the air that is filtered and moved through the dust filter 340, and the fine filter 350 is formed on one side of the dust filter 340 It is characterized by being.

The air discharge motor 360 is formed to move dust inside the chamber housing 110 to the outside, and the air discharge motor 360 is fixedly formed on the ground, and an air discharge pipe formed toward the fine powder filter 350 It characterized in that it is formed in connection with (361).

The air discharge motor 360 allows the rotational force of the motor to increase as the pollution level increases with respect to the pollution information sensed by the pollution sensor 380, so that air discharge is made faster, and dust generated inside the chamber housing 110 is rapidly reduced. It is characterized in that it can be removed.

The air discharge pipe 361 is formed to be connected between the air discharge motor 360 and the fine filter 350, and the air discharge pipe 361 is air discharged to the outside to discharge the purified air that is moved through the air discharge motor 360. It characterized in that it is formed in one side of the discharge motor (360).

The air discharge pipe 361 is characterized in that it is formed of a flexible material or a tube shape in which movement does not occur according to an installation site situation.

The foreign substance discharge pipe 370 is formed to discharge foreign substances classified and discharged through the dust collector 330 to the outside, and the foreign substance discharge pipe 370 is formed below the dust collector 330.

The filter pipe 371 is formed to filter scraps among foreign substances that are moved through the foreign substance discharge pipe 370, and the filter pipe 371 is formed in the center of one side of the foreign substance discharge pipe 370.

The discharge pipe 372 is formed to discharge waste water from which foreign matter has been filtered, and the discharge pipe 372 is formed at a lower side of the foreign matter discharge pipe 370.

The pollution sensor 380 is formed to measure the degree of pollution of air that is moved toward the air discharge motor 360 by filtering dust, and the pollution sensor 380 is an air discharge pipe that moves air toward the air discharge motor 360 (361) It is characterized in that it is formed on one side.

The information sensed through the pollution sensor 380 is provided to the air discharge motor 360 or provided to the control unit.

6 is a view to which the chamber sealing unit 400, which is another embodiment of the MCT processing apparatus 10 including the clamping jig according to the present invention, is applied.

Referring to the drawing, the chamber sealing part 400 is for preventing dust from scattering to the outside during processing of the workpiece inside the processing chamber part 100, and the chamber sealing part 400 is a chamber enclosure 110 It is characterized in that it is formed on one side of the processing chamber 100 to seal the interior.

The chamber sealing part 400 includes a slide door 410, a door cylinder 420, a sealing sealing material 430, a magnetic member 440, and a locking member 450.

The slide door 410 is formed to seal the chamber housing 110, and the slide door 410 is formed to slide from one side of the workpiece inlet 111.

The door cylinder 420 moves the slide door 410 in one direction so that the chamber housing 110 is sealed, or moves the slide door 410 in the other direction to inject the workpiece into the chamber housing 110. One side is fixed to the chamber housing 110 so that the other side is connected to the lower side of the slide door 410.

The hermetic sealing material 430 is provided with the chamber housing 110 on one side of the slide door 410 so that dust scattered inside the chamber housing 110 does not leak out when the slide door 410 contacts the chamber housing 110. It is characterized in that it is formed in a contact position.

The hermetic sealing material 430 is formed of a material having flexibility, characterized in that any one of a rubber material, a urethane material, or a silicone material is used, and in the present invention, it is preferably used as a silicone material.

The magnetic member 440 is characterized in that it is formed using an electromagnet to prevent it from being easily opened when the slide door 410 is closed, and to increase sealing force.

The magnetic member 440 is characterized in that it is fixedly formed by an electromagnet when it contacts the locking member 450 so that the slide door 410 does not easily open from the chamber housing 110 when it contacts the chamber housing 110.

The locking member 450 is formed so that the magnetic member 440 can be inserted and received, and the locking member 450 is formed on one side of the chamber housing 110 at a position corresponding to the magnetic member 440. It is characterized.

FIG. 7 is a perspective view showing another embodiment of the MCT processing apparatus 10 including a clamping jig according to the present invention, to which a scrap compression unit 500 is applied, and FIG. 8 is a cross-sectional view of FIG. 7.

Referring to the drawing, the scrap compression unit 500 is for compressing and discharging scrap generated during processing of a workpiece, and the scrap compression unit 500 is used to store scrap accumulated in the chamber housing 110. It is characterized in that a scrap block is formed by collecting or collecting scrap classified through the dust collector 330.

The scrap compression unit 500 includes a scrap input pipe 510, a compression chamber means 520, and a locking means 540.

The scrap input pipe 510 is connected to one side of the processing chamber 100 to receive scrap generated from the side of the processing chamber 100 and insert it into the compression chamber unit 520, and the other side is the compression chamber unit. (520) It characterized in that it is formed connected to one side.

The scrap input pipe 510 is characterized in that it is formed of a flexible material.

The compression chamber means 520 is characterized in that it is formed to form a scrap block by compressing the scrap input through the scrap input pipe 510.

The compression chamber means 520 includes a compression case 521, a case cover 522, a flange member 523, a flange groove 524, a compression panel 525, a compression cylinder 526, a drain hole 527, It includes a compression retraction net 528, a net opening and closing member 529, a net opening and closing hinge 530, a discharge cylinder 531, and a compression sensor 532.

The compression case 521 is formed in a circular column shape to be fixed to the ground, and the compression case 521 is formed such that the upper portion thereof is opened.

It is characterized in that the compression panel 525 is inserted into the upper open side of the compression case 521.

The case cover 522 is formed to finish the opening of the compression case 521, and the case cover 522 is formed to be detachably attached to the upper portion of the compression case 521.

The flange member 523 is formed for coupling between the crimping case 521 and the case cover 522, and the flange member 523 is a case cover 522 at a position corresponding to both sides of the circumference of the crimping case 521 It is characterized in that it is formed on both sides.

The flange groove 524 is formed in the center of the flange member 523 so that the locking member 543 is formed, and in more detail, it is formed in the flange member 523 on the side of the compression case 521.

It characterized in that the locking member 543 is inserted into the flange groove 524.

The pressing panel 525 is formed to press the input scrap from the top, and the pressing panel 525 is formed under the case cover 522.

The crimping cylinder 526 is formed to move the crimping panel 525 toward the crimping case 521, and the crimping cylinder 526 has one side coupled to the lower part of the case cover 522, and the other side is a crimping panel. (525) It characterized in that it is formed to be coupled to the upper portion.

The drain port 527 is formed to be discharged to the outside of residual oil or residual water generated from the scrap compressed as the pressing panel 525 descends, and the drain port 527 is formed at one side below the compression case 521. It features.

The compression retreat network 528 is formed to load the input scrap, and the compression retreat network 528 is formed in the compression case 521 so as to be raised and lowered by the discharge cylinder 531. do.

The net opening and closing member 529 is characterized in that it is formed to open and close to both sides in the compression retraction net 528 that is raised to discharge the compressed scrap block.

The net opening and closing member 529 is formed to be open to both sides on the compression and retraction network 528 so that the scrap block can be separated in one direction or the other direction, and the network opening and closing member 529 is lowered of the compression and retraction network 528 It is characterized in that it is formed in an initial shape by being in contact with the compression case 521.

The mesh opening and closing hinge 530 is formed so that the mesh opening and closing member 529 is rotatably opened and closed in the compression retracting network 528, and the mesh opening and closing hinge 530 includes a mesh opening and closing member 529 and a compression retracting network 528 ) Characterized in that it is formed between.

The discharge cylinder 531 is formed for discharging the scrap block by moving the compression and drainage net 528 to the upper part of the compression case 521, and the discharge cylinder 531 has one side of the inside bottom surface of the compression case 521 It is fixed to, and the other side is characterized in that it is formed connected to the bottom of the compression retraction net 528.

The discharge cylinder 531 is characterized in that it is operated by pressure information sensed by the compression sensor 532.

The compression sensor 532 is formed to sense the pressure of the scrap to be compressed, and the compression sensor 532 is formed on the upper surface of the compression retreat network 528.

The locking means 540 is characterized in that it is formed to couple the compression chamber means 520 to compress the input scrap.

The locking means 540 includes a locking pin 541, a pin rotating motor 542, and a locking member 543.

The locking pin 541 is formed to couple the case cover 522 to the pressing case 521, and the locking pin 541 is vertical on the flange member 523 formed around the case cover 522 It is characterized in that it is formed.

The locking pin 541 is characterized in that it is formed to be rotatable on the flange member 523.

The pin rotation motor 542 is formed to rotate the locking pin 541, the pin rotation motor 542 is formed above the flange member 523, and the shaft of the rotation motor and the locking pin 541 It is formed in connection and characterized in that the locking pin 541 is formed to be rotatably coupled toward the locking member 543 as the locking pin 541 is rotated.

The locking member 543 is formed so that the rotating locking pin 541 is coupled, and the locking member 543 is a flange groove 524 formed on the flange member 523 formed around the compression case 521 ) Is characterized in that the bond is formed.

The above-described embodiments are for illustrative purposes only, and those of ordinary skill in the art to which the above-described embodiments belong can easily transform into other specific forms without changing the technical idea or essential features of the above-described embodiments. You can understand. Therefore, it should be understood that the above-described embodiments are illustrative and non-limiting in all respects. For example, each component described as a single type may be implemented in a distributed manner, and similarly, components described as being distributed may also be implemented in a combined form.

The scope to be protected through the present specification is indicated by the claims to be described later rather than the detailed description, and should be interpreted as including all changes or modified forms derived from the meaning and scope of the claims and the concept of equivalents thereof. .

10: processing device M: workpiece
100: processing chamber part 110: chamber enclosure
111: workpiece input port 120: fixed tool means
121: vertical fixing member 122: vertical slide member
123: horizontal moving member 124: fixed tool tool
130: rotary tool means 131: rotary member
132: rotary tool tool 140: processing bed
150: slide opening and closing door
200: processing jig part 210: fixed vise means
211: pressing member 212: locking rotating member
220: fixing jig means 221: reference hole
222: attachment surface
300: dust collection exhaust part 310: exhaust port
320: collection net 330: dust collector
340: dust filter 350: fine powder filter
360: air discharge motor 361: air discharge pipe
370: foreign matter discharge pipe 371: Golreum pipe
372: discharge pipe 380: pollution level sensor
400: chamber sealing part 410: slide door
420: door cylinder 430: airtight sealing material
440: magnetic member 450: locking member
500: scrap compression unit 510: scrap input pipe
520: compression chamber means 521: compression case
522: case cover 523: flange member
524: flange groove 525: pressing panel
526: compression cylinder 527: outlet
528: compression retreat network 529: net opening and closing member
530: net opening and closing hinge 531: discharge cylinder
532: compression sensor 540: locking means
541: locking pin 542: pin rotating motor
543: locking member

Claims (2)

A processing chamber part for processing the processed object using any one of a tool or a rotating tool that moves the input workpiece in a vertical and horizontal direction; And In the MCT processing apparatus comprising a clamping jig including a processing jig portion for aligning and fixing the workpiece processed by the tool on the bed,
The processing chamber part,
A chamber housing formed in a square shape to be seated and fixed on the ground, and formed to perform a processing operation therein;
A workpiece input port formed to be opened toward one side of the chamber housing for inputting the workpiece into the chamber housing;
Fixing tool means formed on the inside of the chamber housing so that the converted tool is fixed to the vertical slide member to process the workpiece;
Rotating tool means formed on the inside of the chamber housing so that the tool to be rotated is fixed to the rotating member to process the workpiece;
A processing bed formed at the bottom of the chamber enclosure to process the workpiece by preventing the workpiece from moving on the chamber box by a tool that is moved during processing of the workpiece, or by moving the workpiece back and forth, left and right when processing with a fixed tool. ;
It includes a slide opening and closing door formed toward the workpiece input port of the chamber housing so that dust or scrap generated during processing of the workpiece is not scattered to the outside of the chamber housing,
The fixing tool means,
A vertical fixing member formed on the horizontal moving member so that the vertical slide member slides in a vertical direction;
A vertical slide member coupled to the vertical slide member so that the fixing tool tool slides in a vertical direction along the vertical fixing member;
A horizontal movable member formed in front of the chamber housing so that the vertical slide member is movable in a horizontal direction;
It includes a fixing tool tool formed under the vertical slide member to process the workpiece,
The rotary tool means,
A rotating member formed so as to be rotatable by forming a plurality of rotating tool tools in front of the chamber enclosure to convert the rotating tool tool;
It includes a plurality of rotary tool tools formed around the rotating member to process the workpiece,
The processing jig part,
Fixing vise means for fixing the workpiece; And
It includes a fixing jig means for processing a plurality of workpieces equally,
The fixed vise means,
A pressing member formed to correspond to an upper portion of the processing bed to fix the workpiece or to fix the fixing jig means;
It includes a locking rotation member formed on one side of the pressing member to move the pressing member formed to correspond to each other in the same direction,
The fixing jig means,
A reference hole formed at one or both sides of the fixing jig means so that a reference is fixed during processing of a plurality of workpieces;
It includes an attachment surface formed as an upper surface of the fixing jig means so that the workpiece is attached,
The MCT factory value,
Further comprising a dust collection exhaust unit for separating and discharging dust and air by inhaling dust generated during processing of the workpiece inside the processing chamber unit,
The dust collecting and exhaust unit,
An exhaust port formed through one side of the chamber enclosure to discharge dust generated inside the chamber enclosure;
A collecting net formed toward the exhaust port inside the chamber enclosure to collect coarse dust among the dust moving toward the exhaust port;
A dust collector formed toward an exhaust port outside the chamber enclosure to collect dust moving through the collection network using electricity and water;
A dust filter formed on one side of the dust collector to filter dust particles having a size of 0.3 μm to 1 μm in the air that is filtered and moved through the dust collector;
A fine filter formed on one side of the dust filter to filter fine dust in the air that is filtered and moved through the dust filter;
An air discharge motor connected by an air discharge pipe to one side of the fine powder filter to move dust inside the chamber enclosure to the outside;
An air discharge pipe formed to be connected between the air discharge motor and the fine filter, and formed at one side of the air discharge motor to discharge the purified air that is moved through the air discharge motor to the outside;
A foreign substance discharge pipe formed under the dust collector to discharge foreign substances discharged through the dust collector to the outside;
A filter pipe formed toward the center of the foreign substance discharge pipe to filter out scraps among foreign substances moved along the foreign substance discharge pipe;
A discharge pipe formed at one side of the foreign substance discharge pipe to discharge the discharge water from which foreign substances are filtered;
It includes a pollution sensor formed on one side of the air discharge pipe to measure the degree of pollution of the air that has been filtered off dust,
The MCT factory value,
It further includes a chamber sealing part for sealing the inside of the chamber enclosure so that dust does not scatter to the outside when the workpiece is processed inside the processing chamber part,
The chamber sealing part,
A slide door formed to slide at one side of the workpiece inlet to seal the chamber enclosure;
One side is fixed to the chamber case and the other side is connected to the lower side of the slide door so that the slide door is moved in one direction so that the chamber case is sealed, or the slide door is moved in the other direction to insert the workpiece into the chamber case. Door cylinder;
An airtight sealing material formed at one side of the slide door to a position in contact with the chamber housing so that dust scattered from the inside of the chamber housing does not flow out when the slide door contacts the chamber housing;
A magnetic member formed at one side of the slide door so that the electromagnet is operated when the slide door contacts the locking member so that it is not easily opened from the chamber case when the slide door contacts the chamber case;
And a locking member formed at a position corresponding to the magnetic member on one side of the chamber housing so that the magnetic member is inserted and received,
The MCT factory value,
It further includes a scrap compression unit for compressing and discharging scrap generated during processing of the workpiece,
The scrap compression unit,
A scrap input pipe having one side connected to one side of the processing chamber unit and the other side connected to one side of the pressing chamber unit in order to receive scrap generated from the processing chamber unit side and insert it into the pressing chamber unit; And
A compression chamber means for compressing the scrap input through the scrap input pipe; And
It includes a locking means for coupling the compression chamber means to press the input scrap,
The compression chamber means,
A compression case formed in a circular column shape and formed to have an upper portion open;
A case cover formed to be detachable from the top of the opened compression case;
A flange member formed around a circumference for coupling between the compression case and the case cover;
A flange groove formed in the center of the flange member so that the locking member is formed;
A pressing panel formed under the case cover to press the input scrap from the top;
A compression cylinder having one side coupled to the lower portion of the case cover and the other side coupled to the upper portion of the pressing panel to move the pressing panel toward the compression case;
A drain hole formed under the compression case so that residual oil or residual water generated from the scrap compressed by descending of the compression panel is discharged to the outside;
A compression retraction network formed inside the compression case so that the input scrap is loaded;
A network opening and closing member formed on both sides of the compression and retreat network so as to open and close to both sides in the compression and retreat network that is raised to discharge the compressed scrap block;
A mesh opening and closing hinge formed between the mesh opening and closing member and the pressing and closing mesh so that the mesh opening and closing member is rotatably opened and closed in the pressing and closing mesh;
A discharge cylinder having one side fixed to the inner bottom surface of the compression case and the other side connected to the bottom of the compression case to discharge the scrap block by moving the compression retreat network to the upper portion of the compression case;
It includes a compression sensor formed on the upper surface of the compression retreat network to sense the pressure of the compressed scrap,
The locking means,
A locking pin vertically formed on a flange member formed around the case cover to couple the case cover to the compression case;
A pin rotation motor connected to the locking pin to rotate the locking pin and formed above the flange member;
MCT processing apparatus comprising a clamping jig including a locking member coupled to the flange groove formed on the flange member formed around the compression case so that the rotating locking pin is coupled.
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