KR102280481B1 - Processing Machine of Acryl - Google Patents

Abstract

The present invention relates to an acrylic processing machine capable of forming acrylic into various shapes by supplying electromagnetic waves, and specifically, to an acrylic processing machine including: a supply unit for supplying acrylic; a processing unit that is formed on one side of the supply unit and processes the acrylic by electromagnetic waves; and a molding unit that is formed on one side of the processing unit and molds the processed acrylic.

Description

Acrylic Processing Machine

The present invention relates to an acrylic processing machine capable of forming acryl into various shapes by supplying electromagnetic waves.

Patent Document 001 discloses a support, a movable table that slides left and right with an acrylic plate raised on the upper side of the support, a fixed table installed behind the support, and a tool rest installed parallel to the movable table below the fixed table. The present invention proposes a technique including a tool rest which is moved by means and a tool rest moving unit and installed so that a cutting saw or an end mill for mirror surface is selectively raised and retracted through an operation hole formed in a fixed table.

Patent Document 002 discloses an acrylic processing apparatus comprising a work bench for movement and work of an acrylic plate and a work head installed on one side of the work table, installed on one side of the work table, and acrylic pieces or dust generated from the work head It includes a hopper for sucking in and a suction pump that is connected through the bottom of the hopper and generates a suction force, is installed on the other side of the work head, and removes acrylic pieces or dust generated from the lower part of the hopper in which the hopper is installed. It is installed on one side of the air nozzle and the work head for blowing to one side, and proposes a technology including an auxiliary suction unit that sucks fine dust blown by the air nozzle so as not to be blown into the air.

Patent Document 003 discloses that a plurality of heating dies are inserted into the guide rods, and tongue pieces having gap maintaining rods and insertion holes are installed at both ends of each heating die in a zigzag or stepped shape so that the gap maintaining rod is inserted over the insertion hole of the upper tongue piece and caught. When the uppermost heating die is attached to the bottom surface of the pressure plate addressed to the hydraulic cylinder and the hydraulic cylinder is operated, the heating dies are ascended and lowered in turn, suggesting a technology of thermocompression molding at once.

Patent Document 004 discloses a workbench allowing the material acrylic plate to be placed at a certain height, a guide for allowing the material acrylic plate placed on the worktable to be supported at a predetermined position, and a predetermined portion of the material acrylic plate placed on the workbench and supported and fixed by the guide. The cutting part installed and formed on the workbench so that it can cut straight lines, and the bending part installed and formed on the workbench so that a predetermined part of the material acrylic plate that is placed on the workbench and supported and fixed by the guide as described above can be bent according to heating. As described above, the chamfering part installed and formed on the work bench so as to be able to chamfer the predetermined end of the material acrylic plate that is placed on the work bench and supported and fixed by the guide is rotated under the adsorption state, The present invention proposes a technology including a disk processing unit installed and formed on a workbench so that the rotating material acrylic plate can be cut to a predetermined outer diameter.

KR 10-2014-0005057 A (January 14, 2014) KR 20-2015-0004547 U (December 23, 2015) KR 10-1997-0020378 A (May 28, 1997) KR 10-1999-015329 A (March 05, 1999)

The present invention relates to an acrylic processing machine capable of forming acryl into various shapes by supplying electromagnetic waves.

In order to solve the problems of the prior inventions, the present invention provides a supply unit 100 for supplying the acrylic 10; a processing unit formed on one side of the supply unit 100 and processing the acrylic 10 by electromagnetic waves ( 200); It is formed on one side of the processing part 200, and a molding part 700 for molding the processed acryl 10; consists of a configuration including a.

The present invention is an invention for an acrylic processing machine, and is formed in the processing portion 200 in the invention consisting of the supply unit 100; the processing unit 200; and the molding unit 700 as presented above, and the acrylic (10) Heating chamber 300 to accommodate the; An electromagnetic wave generator 400 that is formed at an end of the heating chamber 300 and generates an electromagnetic wave; is added.

The present invention is an invention for an acrylic processing machine, and is formed at the other end of the electromagnetic wave generator 400 in the invention consisting of the supply unit 100; the processing unit 200; and the molding unit 700 as presented above. An electromagnetic destroyer 500 to annihilate; is added.

The present invention is an invention for an acrylic processing machine, and is formed inside the heating chamber 300 in the invention consisting of the supply unit 100; the processing unit 200; and the molding unit 700 as presented above. ) to fix the fixing box 600; is added.

The present invention is an invention for an acrylic processing machine, and is formed in the molding part 700 in the invention consisting of the supply part 100; the processing part 200; and the molding part 700 as presented above, and the heated acrylic ( 10) a molding device 710 for molding; A cooling device formed on one side of the molding device 710 and cooling the molded acrylic 10 is added.

According to the present invention, electromagnetic waves can be transmitted through the acrylic so that molding can proceed smoothly.

The present invention can smoothly change the acrylic by heating the acrylic.

The present invention can induce electromagnetic waves to penetrate only the molded portion of the acrylic by moving the fixing box.

The present invention can mold the acrylic by inducing the supply and discharge of electromagnetic waves.

According to the present invention, as the diffusion device rotates inside the heating chamber, electromagnetic waves can be diffused and transmitted through the acrylic.

According to the present invention, electromagnetic waves are induced to be discharged by an electromagnetic wave extinguisher through which water flows, and the induced electromagnetic waves can be extinguished.

1 is a cross-sectional view of the acrylic processing machine of the present invention.
Figure 2 is a cross-sectional view showing the electromagnetic wave generator of the present invention.
Figure 3 is a perspective view of the diffusion device of the present invention.
Figure 4 is a cross-sectional view of the electromagnetic destroyer of the present invention.
5 is a cross-sectional view of the heating chamber of the present invention.
Figure 6 is a perspective view of the fixing box of the present invention.
7 to 8 are perspective views of the shielding plate of the present invention.
9 to 11 are perspective views showing the molding apparatus of the present invention.
12 to 13 are perspective views of the receiving case of the present invention;

Hereinafter, the most preferred embodiment of the present invention will be described in detail in order to explain in detail enough that a person skilled in the art to which the present invention pertains can easily carry out the present invention.

The numbers cited in the examples below are not limited only to the objects of reference, and may be applied to all examples. Objects exhibiting the same purpose and effect as the configuration presented in the examples correspond to equivalent replacement objects. The higher-level concept presented in the examples includes sub-concept objects that are not described.

(Example 1-1) In the present invention, in an acrylic processing machine, a supply unit 100 for supplying an acrylic 10; is formed on one side of the supply unit 100, and processes the acrylic 10 by electromagnetic waves part 200; It is formed on one side of the processing unit 200, and includes a molding unit 700 for molding the processed acrylic (10).

(Example 1-2) In Example 1-1, the acrylic processing machine of the present invention includes the acrylic 10 being formed in a rectangular plane.

(Example 1-3) In Example 1-1, the acrylic processing machine of the present invention is one selected from a conveyor belt and a roll-to-roll in order to supply the acrylic 10 to the processing unit 200 in the supply unit 100. What is formed; includes.

(Example 1-4) The acrylic processing machine of the present invention according to Example 1-1, is formed in the supply unit 100, and a supply device for sequentially supplying the acrylic 10; includes.

(Example 1-5) The acrylic processing machine of the present invention includes, in Example 1-1, that the processing unit 200 transmits electromagnetic waves only at the position where the acrylic 10 is to be molded.

The present invention relates to an acrylic processing machine. Specifically, it is processed by cutting and bending the acryl 10 formed of synthetic resin. This acrylic processing machine heats the part to be processed by electromagnetic waves and then molds the acrylic 10 into various shapes. In general, when heat is applied to the entire acryl 10 to form the acryl 10 or heat is applied to the acryl 10, the structure of the acryl 10 is damaged. Accordingly, there is a disadvantage that the shape is deformed or expanded due to heat applied in addition to the part to be molded, resulting in defects. On the other hand, the acrylic processing machine of the present invention can prevent deformation of the non-molded area by heating only the area to be formed by transmitting electromagnetic waves. The acryl 10 is formed in a flat rectangular shape and is supplied to the supply unit 100 formed by a conveyor belt, a roll-to-roll, or the like. In addition, the supply unit 100 is supplied with acryl 10 at regular intervals as a supply device is formed and the acryl 10 is sequentially supplied to the supply unit 100 . In addition, in the acryl 10 supplied from the supply unit 100 , electromagnetic waves are transmitted by the processing unit 200 , and only a specific portion of the acryl 10 is heated. At this time, as the electromagnetic wave is transmitted from the processing unit 200, the acrylic 10 is formed with fine pores therein, and is cut in the molding unit 700 to form a pattern by the fine pores to form a new acrylic 10. can And the acrylic 10 heated by transmitting electromagnetic waves in the processing unit 200 is molded by cutting, stamping, bending, etc. in the molding unit 700 .

Therefore, the acrylic processing machine of the present invention has a feature of molding the acryl 10 by transmitting electromagnetic waves.

(Embodiment 2-1) The present invention relates to an acrylic processing machine. In Embodiment 1-1, the heating chamber 300 is formed in the processing unit 200 and accommodates the acrylic 10; and an electromagnetic wave generator 400 that is formed at an end of the heating chamber 300 and generates an electromagnetic wave.

(Example 2-2) The acrylic processing machine of the present invention in Example 2-1, is formed on one side of the heating chamber 300, the inlet 301 to which the electromagnetic wave generator 400 is coupled; It is formed on the other side, the outlet 302 for discharging electromagnetic waves; includes.

(Embodiment 2-3) The acrylic processing machine of the present invention according to Embodiment 2-2, is formed in the heating chamber 300, the moving device 310 for moving the acrylic (10); and an opening and closing door 320 formed at both ends of the moving device 310, through which the acrylic 10 flows in and out.

(Embodiment 2-4) In Embodiment 2-3, the acrylic processing machine of the present invention is formed on the moving device 310, and includes: a seating rail 311 on which the acrylic 10 is seated; and a rotating roll 312 for rotating the seating rail 311 .

(Example 2-5) In Example 2-4, the acrylic processing machine of the present invention includes a plurality of penetration holes through which the electromagnetic wave is transmitted.

(Example 2-6) In the acrylic processing machine of the present invention, in Example 2-3, the opening/closing door 320 is formed in a double shape, and is formed on the outer surface and the inner surface of the heating chamber 300, respectively. includes ;

The present invention relates to the processing unit 200 , and specifically, the processing unit 200 generates electromagnetic waves to heat the acrylic 10 supplied from the supply unit 100 . The processing unit 200 is formed with a heating chamber 300 that the acrylic 10 accommodates, and the heating chamber 300 is formed of a metal material such as stainless steel so that the electromagnetic wave generated by the electromagnetic wave generator 400 is not transmitted. At this time, since the inner surface of the heating chamber 300 is coated with a metal material, electromagnetic waves are emitted to the outside so that the operator is not harmed. The heating chamber 300 has an opening/closing door 320 formed in the direction of the supply unit 100 and the forming unit 700, and as the moving device 310 is formed between the plurality of opening/closing doors 320, the acrylic 10 is can be moved and stopped. The opening and closing door 320 is formed as a double so that electromagnetic waves do not escape to the outside, and the spacing of the opening and closing door 320 formed as a double so that the acrylic 10 is accommodated in the center is variously adjusted. And the heating chamber 300 has an inlet 301 to which the electromagnetic wave generator 400 is coupled is formed on the upper side, the electromagnetic wave is supplied through the inlet 301, and the electromagnetic wave generator 400 and the outlet 302 are formed at the other end. do. This is to allow electromagnetic waves input from the upper portion to pass through the acrylic 10 and be discharged to the lower outlet 302 . The electromagnetic wave moving between the inlet 301 and the outlet 302 passes through the acryl 10 stopped by the moving device 310, and the moving device 310 moves downward after the electromagnetic wave passes through the acryl 10. A seating rail 311 in which a through hole is formed so as to be discharged is formed. The penetration hole is formed in various sizes, and is formed of a material through which electromagnetic waves are transmitted. At this time, the seating rail 311 is not damaged by electromagnetic waves, and is rotated by the plurality of rotating rolls 312 . And the heating chamber 300 is formed with a temperature measuring device for measuring the internal temperature, the temperature inside the heating chamber 300 is controlled by the temperature measuring device. In addition, a surface measuring sensor for measuring the temperature of the acryl 10 transmitted from the supply unit 100 is formed in the heating chamber 300 , and the surface measuring sensor measures the temperature of the acryl 10 with infrared rays or the acryl 10 . The temperature is measured by direct contact with Accordingly, the temperature of the acryl 10 is measured by electromagnetic waves, and electromagnetic waves can be blocked before reaching the limit temperature of the acryl 10 .

Accordingly, the processing unit 200 of the present invention has a characteristic of heating the acryl 10 by generating electromagnetic waves.

(Example 2-7) The acrylic processing machine of the present invention according to Example 2-1, is formed in the electromagnetic wave generator 400, the generator 410 for generating electromagnetic waves; It is connected to the generator 410, the diffusion device 420 for diffusing the electromagnetic wave; includes.

(Example 2-8) In Example 2-7, the acrylic processing machine of the present invention is formed in the generator 410, and includes an electromagnetic wave generator 411 for generating electromagnetic waves; and an induction chamber 412 accommodating the electromagnetic wave generator 411 and guiding the electromagnetic wave to the heating chamber 300 .

(Example 2-9) The acrylic processing machine of the present invention includes the one in Example 2-8, wherein the electromagnetic wave generator 411 is formed of a magnetron.

The present invention relates to an electromagnetic wave generator 400. Specifically, the electromagnetic wave generator 400 includes a generator 410 that generates electromagnetic waves, and a diffusion device 420 that diffuses electromagnetic waves throughout the acrylic 10 is formed. . The generator 410 has an induction chamber 412 formed on the upper portion of the heating chamber 300 is formed, and the induction chamber 412 is coupled to the inlet 301 of the heating chamber 300 . In addition, the induction chamber 412 has an accommodation space in which the electromagnetic wave generator 411 is accommodated, and an extension space extending from the accommodation space to the inlet 301 is formed. The extension space is formed to have a narrower width than the accommodation space so that electromagnetic waves can move effectively. In addition, the generator 410 is formed of a stainless material having a high electromagnetic wave reflection effect on the inside or coated with gold, silver, copper, nickel or chromium. In this case, the induction chamber 412 may be provided with a blower to induce the movement of electromagnetic waves and discharge foreign substances to the outside. The electromagnetic wave generator 411 generates high microwaves using electric energy. And the electromagnetic wave generator 411 uses a continuous wave magnetron, generates a high-power microwave, and supplies the electromagnetic wave to the heating chamber 300 .

Accordingly, the electromagnetic wave generator 400 is formed on the upper portion of the heating chamber 300 , and has a characteristic of generating electromagnetic waves and supplying them to the acryl 10 .

(Embodiment 2-10) In Embodiment 2-7, the acrylic processing machine of the present invention comprises: a driving motor 421 formed in the diffusion device 420 and formed outside the heating chamber 300; a drive shaft 422 formed in the drive motor 421 and penetrating the heating chamber 300; It is formed at the end of the drive shaft 422, and the blade 423 rotates in the heating chamber 300; includes.

(Example 2-11) In Example 2-10, the acrylic processing machine of the present invention includes a first blade 424 formed on one side of the drive shaft 422; a first blade 424 formed on the other side of the drive shaft 422 2 blades 425; includes

(Embodiment 2-12) In the acrylic processing machine of the present invention in Embodiment 2-11, the first blade 424 and the second blade 425 are inclined around the drive shaft 422, and the inclination angle includes those formed in the range of 10 degrees to 45 degrees.

(Example 2-13) In Example 2-11, the acrylic processing machine of the present invention is coupled to the reducer, and the rotation of the driving motor 421 includes being formed at 50 RPM to 100 RPM.

The present invention relates to a diffusion device 420. Specifically, the diffusion device 420 is formed in the inlet 301 to which the electromagnetic wave generator 400 is coupled, and spreads the electromagnetic waves supplied from the electromagnetic wave generator 400 in a heating chamber. (300) is supplied internally. These electromagnetic waves must be uniformly diffused in the heating chamber 300 . The electromagnetic wave is spread by the rotating blade 423 which collides with the electromagnetic wave. The electromagnetic wave colliding with the rotating blade 423 is uniformly spread in the receiving part by the inclination angle and rotational motion of the blade 423 . And the blade 423 is rotated by a driving motor 421 outside the heating chamber 300 , and the blade 423 and the driving motor 421 are coupled by a driving shaft 422 . The driving shaft 422 penetrates inside and outside the electromagnetic wave receiving unit. Accordingly, the electromagnetic wave may be transmitted to the outside of the receiving unit by the driving shaft 422 . In order to block electromagnetic wave transmission, the driving shaft 422 should be formed of an electromagnetic wave-insoluble material. It uses Teflon, polyethylene, and ceramics. Alternatively, a material equivalent to the above material may be used. The plurality of blades 423 is for increasing the electromagnetic wave diffusion effect, and the plurality of blades 423 are divided into a first blade 424 and a second blade 425 . The first blade 424 and the second blade 425 are inclined with respect to the driving shaft 422 to disperse the straightness of the electromagnetic wave. Each blade 423 is formed at a different angle, which is to increase the scalability of the electromagnetic wave. The inclination angles of the first blade 424 and the second blade 425 are in the range of 10 degrees to 45 degrees to increase the dispersion effect of electromagnetic waves. The speed condition of the first blade 424 and the second blade 425 rotation speed range of 50 to 100 RPM and the torsion condition of the blade 423 inclination angle of 10 degrees to 45 degrees can increase the dispersion effect of electromagnetic waves. At a rotation speed of 100 RPM or more of the blade 423, the difference in the dispersion effect of electromagnetic waves does not occur, and since the dispersion effect of electromagnetic waves does not appear at an inclination angle of 45 degrees or more of the blade 423, the numerical range has a critical meaning.

(Example 2-14) In Example 2-11, the acrylic processing machine of the present invention is formed so that the length of the first blade 424 is longer than the length of the second blade 425, preferably the first blade The length of the 424 is formed to be 2 to 3 times longer than the length of the second blade 425 .

(Example 2-15) In the acrylic processing machine of the present invention, in Example 2-11, the thickness of the first blade 424 and the thickness of the second blade 425 are different, and the thickness of the second blade is the second. Including one formed thicker than the thickness of the blade (424).

(Example 2-16) In Example 2-11, the acrylic processing machine of the present invention has the same thickness as the thickness of the first blade 424 and the thickness of the second blade 425, and the end of the second blade 425 Including that a balance weight 426 for adjusting the moment is formed.

(Example 2-17) In Example 2-11, the acrylic processing machine of the present invention includes a material of the drive shaft 422 made of Teflon, polyethylene, and ceramics.

The present invention relates to a blade 423, and specifically, each blade 423 is formed to have a different length in order to increase the dispersibility of electromagnetic waves. If the length of each blade 423 is different, the moment acting on the blade 423 is different, which causes damage to the driving motor 421 . In addition, a sawtooth-shaped reflective plate is formed on the blade 423 to more effectively diffuse the electromagnetic wave according to the rotation of the driving shaft 422 .

Therefore, the balance weight 426 is used for moment balance, or the thickness of the blade 423 is formed differently.

(Example 3-1) The present invention relates to an acrylic processing machine, and in Example 2-1, it is formed at the other end of the electromagnetic wave generator 400, and includes an electromagnetic wave extinguisher 500 that extinguishes electromagnetic waves. do.

(Example 3-2) In Example 3-1, the acrylic processing machine of the present invention comprises: an extinction chamber 510 formed in the electromagnetic wave extinguisher 500 and from which electromagnetic waves of the heating chamber 300 are discharged; and an absorption tube 520 formed inside the dissipation chamber 510 and absorbing electromagnetic waves.

(Embodiment 3-3) The acrylic processing machine of the present invention according to Embodiment 3-2, the absorption tube 520 circulates water absorbing electromagnetic waves.

(Embodiment 3-4) The acrylic processing machine of the present invention according to Embodiment 3-3, wherein the absorption tube 520 is formed inside the extinction chamber 510, and an absorption portion 521 formed in a spiral shape; and a circulation unit 522 extending from both ends of the absorption unit 521 and circulating water.

(Example 3-5) The acrylic processing machine of the present invention according to Example 3-4, is formed in the circulation part 522, the circulation pump 523 for circulating the water inside the absorption pipe 520; include

The present invention relates to an electromagnetic destroyer 500 , and specifically, the electromagnetic destroyer 500 is formed at the lower end of the heating chamber 300 and the electromagnetic wave passing through the acryl 10 is discharged and extinguished. The electromagnetic wave extinguisher 500 is coupled to the outlet 302 formed at the lower end of the heating chamber 300, and the extinction chamber 510 through which the electromagnetic wave is discharged is formed. The extinction chamber 510 is formed in various widths so that electromagnetic waves are induced and discharged, and an absorption tube 520 is formed inside the extinction chamber 510 . The absorption tube 520 is formed of a synthetic resin made of a plastic material that absorbs electromagnetic waves, and the spiral absorption portion 521 is accommodated in the extinction chamber 510 . As the absorption part 521 is formed in a spiral shape, the absorption area increases, which improves the emission effect of electromagnetic waves. Both ends of the absorption part 521 are formed with a circulation part 522 formed outside the dissipation chamber 510 , and the circulation part 522 has a circulation pump 523 for circulating water inside the absorption pipe 520 . is formed As water circulates inside the absorption tube 520 , electromagnetic waves may be extinguished. The electromagnetic wave is absorbed by the absorption tube 520 formed of synthetic resin, and the absorbed electromagnetic wave is destroyed by contact with water. In general, electromagnetic waves can dissipate or move when they come into contact with water. At this time, a storage device is formed in the circulation unit 522 so that the electromagnetic waves that do not disappear are stored and discharged.

Therefore, the electromagnetic wave extinguisher 500 of the present invention is formed at the lower end of the heating chamber 300 to discharge the electromagnetic wave passing through the acryl 10 to the outside, and the electromagnetic wave is reflected inside the heating chamber 300 to the acryl (10) It has the characteristic of disappearing so that more than a certain amount does not penetrate.

(Example 4-1) The present invention relates to an acrylic processing machine, and in Example 3-1, it is formed in the heating chamber 300 and includes a fixing box 600 for fixing the acryl 10. do.

(Example 4-2) The acrylic processing machine of the present invention according to Example 4-1, wherein the fixing box 600 is formed of a metal material through which electromagnetic waves are not transmitted; includes.

(Example 4-3) The acrylic processing machine of the present invention according to Example 4-2, wherein the fixing housing 600 is formed inside the heating chamber 300, and accommodating both ends of the acryl 10; includes

(Example 4-4) In Example 4-3, the acrylic processing machine of the present invention comprises: a shielding box 610 moving horizontally in the opening/closing door 320; It is formed at the end of the shielding box 610, the shielding plate 620 surrounding the acrylic (10); includes.

(Example 4-5) In Example 4-4, the acrylic processing machine of the present invention comprises: a vertical shielding plate 621 formed on the shielding plate 620 and moving to the upper and lower ends of the acrylic 10, respectively; It is formed on one surface of the vertical shielding plate 621, the horizontal shielding plate 622 respectively moving to both sides of the acrylic (10); includes.

(Embodiment 4-6) The acrylic processing machine of the present invention according to Embodiment 4-5, is formed on one surface of the shielding box 610, the variable device 623 for changing the position of the shielding plate 620; includes

The present invention relates to a fixing box (600), specifically, the fixing box (600) is installed in the opening/closing door (320) of the heating chamber (300), respectively, the acrylic (10) is accommodated. The fixed housing 600 moves horizontally in the opening and closing door 320 , and a position through which electromagnetic waves are transmitted through the acrylic 10 may be adjusted according to the movement of the fixed housing 600 . The fixing box 600 accommodates both ends of the acryl 10 so that the outer surface is formed of a metal material that reflects electromagnetic waves, so that the electromagnetic waves are not transmitted to the acryl 10 accommodated therein. The fixed housing 600 is formed with a shielding housing 610 that moves horizontally, and a shielding plate 620 surrounding the acrylic 10 is formed at an end of the shielding housing 610 . The shielding plate 620 is made of or coated with a metal material so that electromagnetic waves are not transmitted, and the acryl 10 accommodated in the shielding box 610 by the vertical shielding plate 621 ascending and descending to the top and bottom of the acryl 10. to prevent electromagnetic waves from being transmitted. And on one surface of the vertical shielding plate 621, horizontal shielding plates 622 moving to both sides of the acrylic 10 are formed, so that the acrylic 10 accommodated in the shielding box 610 regardless of the size of the acrylic 10. It blocks electromagnetic waves from being transmitted. The shielding plate 620 is formed with a variable device 623 to move horizontally or elevate in the shielding enclosure 610, and the variable device 623 is variously formed such as a cylinder, a rail, a gear, and the like.

Accordingly, the fixing box 600 of the present invention moves in the heating chamber 300 to adjust the position where the electromagnetic waves are transmitted to the acrylic 10 and blocks electromagnetic waves.

(Example 4-7) In Example 4-4, the acrylic processing machine of the present invention includes: a first shielding plate 624 formed on the shielding plate 620 and surrounding the upper end and one surface of the acrylic 10; and a second shielding plate 625 formed at a position corresponding to the first shielding plate 624 and surrounding the lower end and the other surface of the acrylic 10 .

(Embodiment 4-8) In the acrylic processing machine of the present invention, in Embodiment 4-7, the first shielding plate 624 and the second shielding plate 625 are moved obliquely by the variable device 623. include;

The present invention relates to a shielding plate 620, and specifically, the shielding plate 620 is formed to surround the upper end and one surface or the lower end and the other surface of the acrylic 10 so as to be formed in a 'L' shape. The shielding plate 620 is formed such that a first shielding plate 624 having an upper end and one surface integrally formed and a second shielding plate 625 having a lower end and the other surface integrally formed overlap each other. And as the first shielding plate 624 and the second shielding plate 625 move obliquely by the variable device 623, the acryl 10 wrapped around the whole of the acryl 10 and accommodated in the shielding box 610. to block the penetration of electromagnetic waves.

(Example 5-1) The present invention relates to an acrylic processing machine, and in Example 2-1, a molding apparatus 710 formed in the molding part 700 and molding the heated acrylic 10; and a cooling device formed on one side of the molding device 710 to cool the molded acrylic 10 .

(Example 5-2) In Example 5-1, the acrylic processing machine of the present invention cuts, stamps, and bends the acrylic 10 heated by the processing unit 200 in the molding device 710. Including; molding into one.

(Example 5-3) The acrylic processing machine of the present invention according to Example 5-2, is formed in the molding apparatus 710, and includes a placement plate 711 on which the heated acryl 10 is disposed; and a pressure plate 712 that is formed on the arrangement plate 711 and applies pressure to the acrylic 10 .

(Example 5-4) In Example 5-3, the acrylic processing machine of the present invention is formed on the arrangement plate 711, and the pressure plate 712 is inserted thereto to form a molding groove 713 for molding the acryl 10. ); includes.

(Example 5-5) In Example 5-1, the acrylic processing machine of the present invention includes a spraying device that is formed in the cooling device and sprays wind and water to the heated acrylic (10).

(Example 5-6) In Example 5-5, the acrylic processing machine of the present invention is formed at the lower end of the spraying device, and a discharge device for discharging water and foreign substances generated when the acryl 10 is cooled; include

The present invention relates to a molded part (700). Specifically, the molding part 700 is to mold the acryl 10 heated by electromagnetic waves inside the heating chamber 300 . The molding part 700 is to variously mold the position of the acrylic 10 through which the electromagnetic wave is transmitted, such as cutting, stamping, and bending, and the molding device 710 is a placement plate 711 on which the heated acrylic 10 is disposed. this is formed Forming grooves 713 are formed in the arrangement plate 711 , and the forming grooves 713 are formed in various shapes to form the acrylic 10 as the pressure plate 712 at the top moves up and down. At this time, when a plurality of molding grooves 713 are formed and pressure is applied by the pressure plate 712 , the acrylic 10 is perforated or the acrylic 10 is molded into a curved surface or the like. In addition, when the arrangement plate 711 and the pressure plate 712 are formed close to each other and the pressure plate 712 descends, the acrylic 10 may be bent or cut. In addition, when a plurality of pores are formed inside the acryl 10 by electromagnetic waves, a new acryl 10 can be created by cutting and cutting the outer surface of the acryl 10 in order to maintain the pattern in which the pores are formed. The acrylic 10, which has been molded in this way, is cooled by a cooling device, and the cooling device is formed with a spray device for spraying wind and water. At this time, a discharge device for discharging foreign substances by wind and water sprayed by the injection device is formed.

Therefore, the molding part 700 of the present invention is to be molded by variously deforming the shape of the acryl 10 heated in the processing part 200, and the strength of the acryl 10 is increased by cooling the molded acryl 10. It has the characteristics of maintaining its shape while raising it.

(Example 6-1) The present invention relates to an acrylic processing machine, and in Example 1-1, the processing part 200 and the molding part 700 are accommodated, and the receiving case 800 through which the inside is transmitted includes ;

(Example 6-2) In Example 6-1, the acrylic processing machine of the present invention is formed in the receiving case 800, and a transmission window 810 through which the inside is transmitted; and a door 820 through which a worker enters and exits.

(Example 6-3) The acrylic processing machine of the present invention according to Example 6-1, is formed in the receiving case 800, the sensing device for detecting the entry and exit of the operator; It is formed in the receiving case 800, a warning device for warning the operator; includes.

(Example 6-4) In the acrylic processing machine of the present invention, in Example 6-1, a preheating unit formed inside the receiving case 800 and preheating the acrylic 10 transferred to the processing unit 200 . (830);

(Example 6-5) In Example 6-4, the acrylic processing machine of the present invention includes a preheating device 831 that is formed in the preheating unit 830 and supplies heat.

(Example 6-6) In Example 6-4, the acrylic processing machine of the present invention includes the preheating unit 830, the processing unit 200, and the molding unit 700 in the receiving case 800, respectively. It includes; that is formed as a module that is accommodated and coupled to each other.

The present invention relates to the housing case 800, and specifically to accommodate the processing part 200 and the molding part 700 for molding by applying heat to the acrylic 10. This accommodation case 800 is for molding the acrylic 10 supplied from the supply unit 100, and can accommodate the processing unit 200 and the molding unit 700 at the same time or each. At this time, a preheating unit 830 for preheating the acrylic 10 is formed between the supply unit 100 and the processing unit 200 in the receiving case 800 . The preheating unit 830 is for raising the temperature of the acryl 10 transmitted from the processing unit 200, and since it takes a long time to heat the acryl 10 with electromagnetic waves generated from the processing unit 200, the preheating unit ( 830) to preheat the acrylic (10). At this time, the preheating unit 830 is formed with a preheating device 831 that applies heat in various ways such as electricity, gas, oil, far infrared rays, etc., and increases the internal temperature or applies heat directly to the acryl 10 . The accommodating case 800 for accommodating the preheating part 830, the processing part 200, and the molding part 700 is formed as a module for accommodating each, and a plurality of each module is combined according to the size and shape of the acrylic 10. make it In addition, the receiving case 800 has a transmission window 810 formed therein to confirm the processing process of the acrylic 10 inside, and an electromagnetic wave blocking film is attached to the transmission window 810 so that electromagnetic waves are not emitted to the outside. In addition, a camera is installed inside the receiving case 800 separately from the transmission window 810 to check the processing process. In addition, the accommodation case 800 is formed with a door 820 through which the operator enters and exits, and blocks electromagnetic waves when the operator enters the accommodation case 800 inside. At this time, a detection device is formed in the accommodation case 800 to detect the entry and exit of the operator, and when an electromagnetic wave is activated, a warning device is formed to warn the operator in advance so that the operator goes outside. And the receiving case 800 is formed with a blocking device for manually blocking electromagnetic waves from the inside after the operator receives a warning.

Accordingly, the receiving case 800 of the present invention can confirm the processing process of the acrylic 10 , and is formed as a module and has a feature of installing a plurality of processing parts 200 and molding parts 700 .

10: acrylic 100: supply part
200: processing unit 300: heating chamber
301: inlet 302: outlet
310: moving device 311: seating rail
312: rotating roll 320: opening and closing door
400: electromagnetic wave generator 410: generator
411: electromagnetic wave generator 412: induction chamber
420: diffusion device 421: drive motor
422: drive shaft 423: blade
424: first blade 425: second blade
426: balance weight 500: electromagnetic destroyer
510: extinction chamber 520: absorption tube
521: absorption unit 522: circulation unit
523: circulation pump 600: fixed enclosure
610: shielding enclosure 620: shielding plate
621: vertical shielding plate 622: horizontal shielding plate
623: variable device 624: first shielding plate
625: second shielding plate 700: forming part
710: molding device 711: placement plate
712: pressure plate 713: forming groove
800: accommodation case 810: transparent window
820: door 830: preheating unit
831: preheating device

Claims (5)

a supply unit 100 for supplying the acrylic 10;
a processing unit 200 formed on one side of the supply unit 100 and processing the acrylic 10 by electromagnetic waves;
a molding unit 700 formed on one side of the processing unit 200 and molding the processed acrylic 10;
a heating chamber 300 formed in the processing part 200 and accommodating the acrylic 10;
It is formed at the end of the heating chamber 300, the electromagnetic wave generator 400 for generating an electromagnetic wave; including,
The electromagnetic wave generator 400 includes a generator 410 for generating the electromagnetic wave;
It is connected to the generator 410, the diffusion device 420 for diffusing electromagnetic waves;
The diffusion device includes a driving motor 421 formed outside the heating chamber 300;
a drive shaft 422 formed in the drive motor and penetrating the heating chamber 300;
It is formed at the end of the drive shaft 422, and includes a blade 423 that rotates inside the heating chamber 300.
The blade 423 includes a first blade 424 formed on one side of the drive shaft 422;
a second blade 425 formed on the other side of the drive shaft 422; and
The second blade (425) has a balance weight (426) for adjusting the moment; Acrylic processing machine is formed.
delete The method according to claim 1,
Acrylic processing machine comprising a; is formed at the other end of the electromagnetic wave generator 400, the electromagnetic wave annihilator 500 to extinguish the electromagnetic wave.
4. The method according to claim 3,
Acrylic processing machine comprising a; is formed in the heating chamber 300, and fixing the acrylic (10) fixed housing (600).
4. The method according to claim 3,
a molding device 710 formed in the molding unit 700 and molding the heated acrylic 10;
Acrylic processing machine comprising a; is formed on one side of the molding device (710), cooling the molded acrylic (10).

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