KR101777407B1 - Device to fabricate glass plate having many functions - Google Patents

Abstract

The present invention relates to a device for processing a multi-functional glass plate, which comprises: a glass plate transferring and supporting unit for transferring the glass plate and supporting the glass plate not to move in a processing position; an index unit capable of selecting various processing tool by rotation; an index operation unit rotating the index unit or making the index unit movable left and right; a processing tool operation unit for rotating or elevating the operation tool provided in the index unit to perform glass plate processing; and a cutting unit for cutting the glass plate through a saw blade by being provided in one device, and thus it is possible not only to perform the perforation, cutting, grinding cutting, chamfering process of the glass plate in one device, but also to enable perforation to have various diameters, thereby obtaining effects of improving the convenience, workability and productivity of the glass plate processing.

Description

TECHNICAL FIELD [0001] The present invention relates to a multifunctional glass plate processing apparatus,

The present invention relates to a multifunctional glass plate processing apparatus, and more particularly, to a multifunctional glass plate processing apparatus capable of performing perforation, cutting, grinding, cutting and chamfering of a glass plate, , A workability, and a productivity.

Generally, when processing a glass, a glass plate made of a plate material is cut according to a desired shape and chamfered so that the rim of the cut glass is not sharpened, and a desired product is manufactured using the processed glass.

When such a glass plate is applied to a door, a corresponding portion of the hinge of the door must be taken in a rectangular shape, and the corresponding portion of the handle must be perforated. In order to obtain a square shape of the corresponding portion of the door hinge, Two holes are drilled and two holes are cut from the adjoining outer surface to a horizontal hole by a glass cutting device. Each hole is inserted into one of the two holes, The glass is picked up in the form of a square, and the sharp edges of the remaining edges are gently chamfered and finished.

Of course, in the operation of perforating the corresponding part of the handle, the perforating operation is performed by inserting a perforation drill having a larger diameter than the perforating drill applied to the perforating operation of the corresponding portion of the hinge in the glass perforating device.

On the other hand, in the case of a general glass processing apparatus, a glass drilling apparatus and a glass cutting apparatus, which are required to take one side of a glass plate in a quadrilateral shape, are individually formed, and various drilling drills of various diameters for drilling holes of various sizes, A bit for machining, a machining wheel for chamfering and the like, and the tool must be used in accordance with the type of work, so that the glass processing is very troublesome and complicated, and it takes a lot of time.

Korean Patent Laid-Open No. 10-2008-0106680 "Glass Processing Apparatus and Glass Processing Method ", in which a glass material processing object is seated and fixed, A tool rotating unit that includes a tool holder on which the tool is mounted and a spindle motor that rotates the tool holder to process the glass workpiece by relative movement with the table unit; An air knife portion moving upward and downward of the tool rotating portion and spraying high pressure air to a tool mounting portion of the tool holder and a lower end portion of a tool mounted on the tool holder; And an automatic tool changer installed at a lower side of the tool rotating part with a plurality of grinding tools and moved to inside and outside the moving path of the tool holder and automatically exchanging a grinding tool mounted on the tool holder, .

Korean Patent Laid-Open Publication No. 10-2008-0106680 (published on December 09, 2008)

However, even in the case of a glass processing apparatus according to Korean Patent Laid-Open Publication No. 10-2008-0106680, it takes much time to drill holes of various sizes with a single device, or to change tools when grinding, chamfering or chamfering In order to eliminate the occurrence of burrs, it is necessary to drill about half of the holes in the lower part of the tool and drill the remainder in the upper part. There is no apparatus for moving the processing tool to another place of the glass plate, and there is an inconvenience that the glass plate itself must be moved for processing, and a glass cutting apparatus So that it is inevitable to use another apparatus for the glass cutting operation.

Therefore, a multifunctional glass plate processing apparatus capable of perforating work of various sizes and performing grinding cutting, chamfering, and cutting operations in addition to perforation can be realized by only one device.

It is an object of the present invention to solve the above-mentioned problems, and it is an object of the present invention to provide an apparatus and a method for cutting a glass sheet by cutting, cutting, The present invention is intended to provide a multi-function glass plate processing apparatus capable of processing a glass, capable of performing a perfect punching operation without burrs, and also capable of perforating various diameters, thereby improving convenience, workability and productivity of the glass plate.

According to an aspect of the present invention, there is provided a multi-

A glass plate conveying and supporting unit for conveying the glass plate and supporting the glass plate so as not to move at the processing position;

The index rotating frame is rotatably fixed to the index fixing frame. The index rotating frame is fixed to the index rotating frame so that a plurality of chucks can be rotated and elevated at equal angles. A plurality of index units, each of which is equipped with a machining tool of a different type or size, so as to be able to select the machining tool according to the rotation of the index rotating die;

A rotating frame rotating unit provided on the index fixing frame to rotate the index rotating frame to select a desired processing tool, and an index conveying unit provided on the frame for moving the index rotating frame to the working position An index operation unit; And

A processing tool rotation unit provided in the index fixing frame and rotating the chuck to rotate the processing tool mounted on the chuck; and a processing tool provided in the index fixing frame and being rotated through the processing tool rotating unit by moving the index rotating frame And a processing tool transport unit for transporting the substrate to a glass plate position.

The index unit is composed of four pairs of two at the top and at the bottom of the frame;

The machining tool comprising at least two drilling drills, a bit for grinding cutting, a machining wheel for chamfering;

A pair of saw blades spaced apart in parallel to one another and rotatably fixed to the saw blade support frame so as to be able to move up and down on any one of the index units; And a cutting unit for cutting the glass plate in parallel through the pair of saw blades including a saw blade elevating portion for moving up and down the saw blade.

The glass plate feed /

A plurality of conveying conveyors for conveying the glass plate;

And a plurality of glass plate supporting cylinders disposed on the transporting conveyor and having a support roller at the tip of the piston rod for pressing and supporting the transported glass plate at a processing position.

Wherein the rotary frame rotation unit is connected to rotate the index rotary frame to rotate the index rotary frame to rotate the index rotary frame and to select a desired processing tool,

Wherein the index conveying unit is configured such that four first guide screws fixed to the frame in the lateral direction are screwed to first sliders fixed to index fixing frames of the four index units, Each of the index units is provided with an index transfer motor so as to transfer the four index units to the processing position.

A chuck rotation gear is respectively formed at an end of the plurality of chucks provided at the index rotary mold on an opposite side to the position of the processing tool;

The machining tool rotating portion includes:

A chuck drive gear corresponding to a chuck rotating gear of a chuck for performing a glass plate machining among the plurality of chucks is rotatably mounted on a distal end portion of the machining tool rotating support plate so as to be able to move back and forth in the index fixing frame, , A chuck drive gear rotating motor is provided at the center of the machining tool rotation support plate so as to transmit power to the chuck drive gear, and a chuck drive gear operating cylinder is provided at a rear end of the machining tool rotation support plate, And is capable of gearing to a chuck rotation gear of a chuck which performs glass plate processing among the plurality of chucks;

Wherein the index fixing frame is divided into a rotary frame fixing portion and a rotary frame lift portion;

The processing tool transferring portion

A second guide screw is formed in a vertically moving part of the rotary frame of the index fixing frame and an index elevating motor is provided at one side of the index frame to elevate the second guide screw, And a second slider provided at a rotating frame fixing portion of the fixed frame is screwed to the second guide screw so that the processing tool can be moved up and down to the glass working position in accordance with the rotation of the index elevating motor.

Wherein the saw blade rotating unit includes a saw blade rotating motor provided on the saw blade supporting frame and connected to the rotating shaft of the saw blade so as to transmit power;

The saw blade lifting unit is configured such that a saw lifting cylinder fixed to one side of the index fixing frame is connected to one side of the saw blade supporting frame, and the saw blade is lifted and lowered according to the elongation and contraction of the saw lifting cylinder.

Wherein a water supply hole is formed in an axial direction of the rotary shaft of the index rotary mold so that a water supply pipe is connected to the water supply pipe and a water flow pipe is connected from the middle portion of the chuck to a rotary shaft of the index rotary mold, A water supply hole communicating with the water supply hole in a direction perpendicular to the water supply hole so as to pass only through the water flow channel direction of the chuck for performing water treatment;

A safety guard is formed on the upper portion of the saw blade support frame, a water supply nozzle is provided on the inside of the safety guard, and a water supply pipe is connected to the water supply nozzle to supply water during cutting through the saw blade. do.

As described above, in the multifunctional glass plate processing apparatus according to the present invention, a chuck is provided radially on the index rotary frame of the index unit, and processing tools having different types such as drilling drill, bit, And the perforation drills having different diameters are also mounted. Therefore, the indexing tool can be rotated to select a desired machining tool. By moving the indexing unit to the machining position, the glass plate can be machined, And a cutting unit having a saw blade is provided on the back surface of any one of the index units. Accordingly, the operation of cutting the glass plate in parallel can also be sequentially performed.

Accordingly, when performing the operation of picking up one side of the glass plate in a rectangular shape, it is possible to perform two holes through a perforated drill, grind cutting with a bit, cutting with a saw blade, The workability and the productivity can be improved and the drilling operation can be performed through a single device by changing the size of the hole in the other position of the glass plate so that the processing of the glass plate can be performed through one device Effect is obtained.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a plan view of a multi-function glass plate processing apparatus according to a preferred embodiment of the present invention; FIG.
2 is a front view of a multifunctional glass plate processing apparatus according to a preferred embodiment of the present invention;
3 is a side view of a multifunctional glass plate processing apparatus according to a preferred embodiment of the present invention.
4 is a view showing the structure of the index unit of the multifunctional glass plate processing apparatus according to the preferred embodiment of the present invention.
5 is a detailed view of an index unit side of a multifunctional glass plate processing apparatus according to a preferred embodiment of the present invention.
6 is a detailed view of an index fixing tool of a multifunctional glass plate processing apparatus according to a preferred embodiment of the present invention.
7 is a detailed view of a machining tool rotating portion of a multifunctional glass plate processing apparatus according to a preferred embodiment of the present invention.
8 is a detailed plan view of a cutting unit of a multifunctional glass plate processing apparatus according to a preferred embodiment of the present invention.
9 is a detailed view of a cutting unit side of a multifunctional glass plate processing apparatus according to a preferred embodiment of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, a fixing bracket for a furniture sliding door according to a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

FIG. 1 is a plan view of a multifunctional glass plate processing apparatus according to a preferred embodiment of the present invention, FIG. 2 is a front view of a multifunctional glass plate processing apparatus according to a preferred embodiment of the present invention, and FIG. 4 is a view illustrating the structure of the index unit of the multifunctional glass plate processing apparatus according to the preferred embodiment of the present invention. FIG. 5 is a schematic view of a multifunctional glass plate processing apparatus according to a preferred embodiment of the present invention. 6 is a detailed view of an index fixing mechanism of a multifunctional glass plate processing apparatus according to a preferred embodiment of the present invention, and FIG. 7 is a view showing the index fixing mechanism of the multifunctional glass plate processing apparatus according to the preferred embodiment of the present invention, Fig. 8 is a detailed plan view of the cutting unit of the multifunctional glass plate processing apparatus according to the preferred embodiment of the present invention It said, Figure 9 is a side detailed view of a multi-functional glass plate cutting unit processing apparatus according to an embodiment of the present invention.

The multifunctional glass plate processing apparatus according to the preferred embodiment of the present invention is constructed so that all the machining operations of perforating, biting, chamfering, and cutting are possible in one apparatus. For this purpose, an index The device is applied.

The multifunctional glass plate processing apparatus according to the preferred embodiment of the present invention includes a glass sheet conveyance support unit 100, an index unit 200, an index operation unit 300, a processing tool operation unit 400, and a cutting unit 500 .

The glass sheet conveying and supporting unit 100 includes a plurality of conveying conveyors 101 for conveying a glass plate G and a conveying conveyor 101 for conveying the glass plate G, And a plurality of glass plate supporting cylinders 102 which are provided at the tip end of the piston rod and support rollers 104 for supporting the fed glass plate G at a processing position.

The index unit 200 is equipped with a machining tool 210 of a different type such as a drill hole 211, a bit 212 and a machining wheel 213 or a drill hole 211 of a different diameter, A plurality of index fixing frames 220 are provided on one side of the frame 1 so as to be movable left and right and the index rotating frames 230 are rotatably fixed to the index fixing frames 220 At least four or more chucks 231 are fixed to the index rotary mold 230 so as to be capable of rotating and elevating at an equal angle and each of the chucks 231 is equipped with a processing tool 210. In the figure, eight chucks 231 are provided.

The machining tool 210 includes two or more drilling holes 211 for drilling, a bit 212 for grinding and cutting machining, and a machining wheel 213 for chamfering machining. The drilling drill 211 has a diameter Drilling drill is applied.

At this time, since the perforating operation of the glass plate G is performed by cutting about 1/2 of the thickness of the glass plate G in the lower portion and the remainder is punctured by the upper portion, the index unit 200 is moved to the upper portion of the frame 1 And two in the lower part.

The index operation unit 300 allows the user to select a desired processing tool 210 by rotating the index rotary frame 230 and transfers the index rotary frame 230 to the processing position by moving the index rotary frame 230 left and right. A rotating frame rotating part 310 provided on the fixed frame 220 to rotate the index rotating frame 230 and an index conveying part 320 provided on the frame 1 to move the index rotating frame 310 to the left and right.

The rotating frame rotating unit 310 is configured such that the rotating frame rotating motor 311 provided on the index fixing frame 220 is connected to the rotating shaft 232 fixed to the center of the index rotating frame 230 so as to transmit power, 230 so that the desired machining tool 210 can be selected.

The index conveying unit 320 includes four first guide screws 321 fastened to the frame 1 in the left and right direction on the first slider 322 fixed to the index fixing frame 220 of the four index units 200 And an index conveying motor 323 is provided at an outer end of the first guide screw 321 so that the four index units 200 can be moved to the machining position. It is obvious that the first guide screw 321 and the first slider 322 can be constituted by a ball screw.

The processing tool operating unit 400 rotates the chuck 231 to rotate the processing tool 210 mounted on the chuck 231 for lifting and lowering the index unit 200, A processing tool rotating portion 410 for rotating the chuck 231 and a processing tool transferring portion 420 for moving the indexing unit 200 up and down.

The chuck rotation gear 233 is formed at an end of the plurality of chucks 231 provided on the index rotary mold 230 opposite to the processing tool position, And a chuck 231 of a chuck 231 that performs processing of a glass plate G among a plurality of chucks 231 is provided at the tip of the processing tool rotation support plate 411 in correspondence with the chuck rotation gear 233 A chuck drive gear 412 is rotatably mounted at the center of the processing tool rotation support plate 411 and a chuck drive gear rotation motor 413 is provided at the center of the processing tool rotation support plate 411 to transmit power to the chuck drive gear 412, A chuck drive gear operating cylinder 414 is provided at the rear end of the support plate 411 to move the chuck drive gear 412 forward and rearward to rotate the chuck rotation gears of the chuck 231 233, respectively.

The index fixing frame 220 is divided into a rotary frame fixing portion 221 and a rotary frame lift portion 222. The processing tool transfer portion 420 is formed by a rotary frame lifting portion 222 of the index fixing frame 220, And an index elevating motor 423 for providing a rotational force to the second guide screw 421 is provided at one side of the rotary frame lifting portion 222 of the index fixing frame 220 And the second slider 422 provided on the rotary frame fixing portion 221 of the index fixing frame 220 is screwed to the second guide screw 421 to rotate the index elevating motor 423 in accordance with the rotation of the index elevating motor 423, 210 to the processing position of the glass plate (G). At this time, it is obvious that the second guide screw 421 and the second slider 422 can be formed of a ball screw.

The cutting unit 500 is formed on the back surface of any one of the index units 200 and includes an index unit 200 positioned on the upper side of the frame 1 for collecting glass dust, (200).

The cutting unit 500 includes a saw blade supporting frame 501 fixed to the index fixing frame 220 so as to be able to move up and down and a pair of saw blades 502 spaced side by side in the saw blade supporting frame 501 are rotatably fixed And a saw blade rotating part 510 for rotating the saw blade 502 and a saw blade lifting part 520 for moving the saw blade 502 up and down.

The saw blade rotating unit 510 includes a saw blade rotating motor 511 provided on the saw blade supporting frame 501 and connected to the rotating shaft of the saw blade 502 so as to transmit power. A saw blade lifting cylinder 521 fixed to one side of the saw blade supporting frame 501 is connected to one side of the saw blade supporting frame 501 so that the saw blade 502 is moved up and down according to the expansion and contraction of the saw blade lifting cylinder 521,

At this time, a plurality of spacing rings 503 may be provided on the shaft between the pair of saw blades 502 to manually adjust the interval between the saw blades 502. [

A water supply hole 234 is formed in the axial center of the rotary shaft 232 of the index rotary mold 230 so that a water supply pipe 235 is connected to the water supply hole 234, And the water flow pipe 236 is connected to the rotation shaft 232 of the water flow pipe 236. The water flow pipe 236 is connected to the water supply hole 234 only in the direction of the water flow pipe 236 of the chuck 231, A water supply hole 237 communicating in a perpendicular direction is formed so that water is supplied at the time of processing the glass plate G through the processing tool 210.

A safety guard 504 is formed above the saw blade position of the saw blade support frame 501. A water supply nozzle 505 is provided inside the safety guard 504 and a water supply pipe So that water is supplied during cutting through the saw blade 502.

In addition, although not shown in the present invention, a controller for organically operating the units constituting the present invention is provided.

The multi-functional glass plate processing apparatus according to the preferred embodiment of the present invention is applied to a glass plate G to be applied to a door or the like.

First, after the glass plate G is conveyed to the processing position on the conveying conveyor 101, the glass plate supporting cylinder 102 is extended, and the support roller 104 presses the glass plate G downward to support it.

Thereafter, any one of the index feed motors 323 on the lower side of the frame 1 is driven to rotate any one of the first guide screws 321 on the lower side of the frame 1, The first slider 322 of the index unit 200 moves in the left and right directions to the glass plate G processing position in accordance with the rotation of the first guide screw 321. [

When the index unit 200 is transferred to the glass plate G processing position, the rotary frame rotary motor 311 of the index unit 200 is driven to rotate the index rotary frame 230, So that the perforation drill 211 of the processing tool 210 is positioned.

The chuck drive gear 414 is extended to advance the machining tool rotation support plate 411 and the chuck drive gear 412 mounted on the machining tool rotation support plate 411 is punched The chuck drive gear rotating motor 413 is rotated at a low speed simultaneously with the extension of the chuck drive gear operating cylinder 414, The drive gear 412 and the chuck rotation gear 233 can be easily engaged with each other.

When the chuck drive gear 412 and the chuck rotation gear 233 are engaged with each other, the chuck drive gear rotating motor 413 is rotated at a high speed to rotate the chuck 231 and the perforated drill 211 engaged with the chuck 231 at a high speed. At the same time, the index elevating motor 423 is driven to rotate the second guide screw 421, and the second slider 422 screwed to the second guide screw 421 is lifted, So that the glass plate G can be pierced from the bottom.

When the glass plate G is pierced from the bottom, the index plate 200 is drilled about 1/2 of the thickness of the glass plate G. Thereafter, the index lifting motor 423 is driven in the reverse direction to lower the entire index unit 200 The index conveying motor 323 is driven to move the index unit 200 to another adjacent position and then the above operation is repeated to puncture only two holes in the lower portion of the glass plate G by about 1/2.

Thereafter, the index unit 200 on the lower side of the frame 1 is returned to its original position, and any one of the index feed motors 323 on the upper side of the frame 1 is driven, And the first slider 322 of one of the index units 200 on the upper side of the frame 1 is rotated by the first guide screw 321 in the glass processing And the subsequent process proceeds in the same manner as described above, so that two holes are drilled in the glass plate G through the perforation drill 211 at the upper side without burrs.

At this time, it is preferable that the drilling operation is performed through the index unit 200 provided with the cutting unit 500 so that the cutting operation can be continuously performed in the subsequent process.

The processing tool 210 is selected by the perforation drill 211 to puncture two holes adjacent to the glass plate G and then the rotating frame rotating motor 311 of the index unit 200 is driven to rotate the index rotating frame 230 And the bit 212 of the processing tool 210 is rotated to be positioned at the lower center to select the bit 212 for grinding and cutting.

The bit 212 of the machining tool 210 is selected and the chuck drive gear operating cylinder 414 is extended to advance the machining tool rotating support plate 411 and the chuck drive gear 414, The chuck drive gear rotating cylinder 414 is geared to the chuck rotating gear 233 of the chuck 231 equipped with the bit 212. At this time as well, The chuck drive gear 412 and the chuck rotation gear 233 can be easily engaged with each other by rotating the rotor 413 at a low speed.

When the chuck drive gear 412 and the chuck rotation gear 233 are engaged with each other, the chuck drive gear rotation motor 413 is rotated at high speed to rotate the chuck 231 and the bit 212 engaged with the chuck 231 at a high speed, The second guide screw 421 is rotated by driving the index elevating motor 423 and the second slider 422 screwed to the second guide screw 421 is lowered so that the entire index unit 200 is lowered So that the bit 212 can be positioned in any one of the perforated positions of the glass plate (G).

The indexing unit 200 is moved to the first guide screw 321 by driving the indexing conveying motor 323 coupled to the indexing unit 200 when the bit 212 is positioned at any one of the perforated positions of the glass plate G. [ And the portion between the hole and the hole can be ground by the bit 212 by grinding.

The water supplied through the water supply pipe 235 is supplied to the index rotating frame 235 through the water supply pipe 235. The water is supplied through the water supply pipe 235 during the drilling operation through the drilling hole 211, The water is supplied to the water flow pipe 236 of the chuck 231 which is subjected to glass processing via a water supply hole 234 formed at the center of the rotation shaft 232 of the glass tube 230 and a water supply hole 237 communicated in a direction perpendicular thereto Since the water supply hole 237 is formed to communicate only with the water flow pipe 236 connected to the chuck 231 to be processed, it is possible to cool the water flowing through the other chuck 231 Water can not be supplied to the flow tube 236, and water can be prevented from leaking to other portions. Of course, it is obvious that an o-ring or the like should be inserted between the position of the water flow pipe 236 and the rotating shaft 233 to prevent water leakage.

The index elevating motor 423 is driven in the reverse direction so that the entire index unit 200 is separated from the glass plate G processing position and then the saw blade lifting cylinder 521 is rotated The saw blade 502 is lowered and the saw blade rotating motor 511 is driven to rotate the saw blade 502 at a high speed and the index feed motor 323 connected to the index unit 200 is driven The cutting unit 500 moves to the glass plate G processing position together with the index unit 200 so that the glass plate G can be cut from the outer side to the hole position.

At this time, the safety guard 504 is formed at the upper portion of the saw blade 502 to prevent the glass powder scattered when the glass sheet G is cut, thereby improving the safety. Further, the safety guard 504 is provided inside the water supply nozzle 505 And the water is supplied through it, so that the frictional heat generated in the cutting operation can be cooled.

When the cutting operation is completed through the cutting unit 500, the index conveying motor 323 is driven again to retract the index unit 200 and the cutting unit 500, The indexing rotary tool 230 is rotated to rotate the indexing rotary tool 230 so that the machining wheel 213 for chamfering of the processing tool 210 is positioned at the lower center of the indexing rotary tool 230 .

The chuck drive gear 412 and the chuck rotation gear 233 are gear engaged with each other while the machining wheel 213 of the machining tool 210 is selected and the chuck drive gear operating cylinder 414 is extended as described above And the index elevating motor 423 and the index conveying motor 323 are driven to rotate the chuck drive gear rotating motor 413 at a high speed by moving the sharpened portion of the glass plate G, You can do it through the chamfering process. At this time, water is also supplied onto the glass plate through the water supply pipe 235, the water supply hole 234, the water supply hole 237 and the water flow pipe 236 to cool the frictional heat.

Of course, as described above, in order to take out one side of the glass sheet G in a rectangular shape, not only the sequential operation but also the processing of any glass such as a punching operation of various sizes, a bit processing operation, a chamfering operation, ) By rotating the tool (not shown) to select the desired machining tool 210.

In addition, the multifunctional glass plate processing apparatus according to the present invention is capable of simultaneously operating two glass plates (G) with a single device, and four operations can be simultaneously performed at one time, and thus it can be used variously.

Although the present invention has been described in detail with reference to the above embodiments, it is needless to say that the present invention is not limited to the above-described embodiments, and various modifications may be made without departing from the spirit of the present invention.

G: Glass plate 1: Frame
100: Glass plate feed supporting unit 101: Feed conveyor
102: glass plate supporting cylinder 104: support roller
200: Index unit 210: Processing tool
211: drilling drill 212: bit
213: a processing wheel 220: an index fixing frame
221: Rotating frame fixing part 222: Rotating frame lift part
230: index rotating frame 231: chuck
232: rotating shaft of the index rotating frame 233:
234: water supply hole 235: water supply pipe
236: Water flow tube 237: Water supply tube
300: Index operation unit 310: Rotation frame rotation part
311: Rotating frame rotating motor 320: Index conveying unit
321: first guide screw 322: first slider
323: index feed motor 400: machining tool operation unit
410: machining tool rotating section 411: machining tool rotating support plate
412: chuck drive gear 413: chuck drive gear rotation motor
414: chuck drive gear operating cylinder 420: machining tool feed section
421: second guide screw 422: second slider
423: Index lifting motor 500: Cutting unit
501: saw blade support frame 502: saw blade
503: Spacing ring 504: Safety guard
505: water nozzle 510: saw blade rotating part
511: saw blade rotating motor 520: saw blade elevating portion
521: saw blade lifting cylinder

Claims (7)

A glass plate conveying and supporting unit for conveying the glass plate and supporting the glass plate so as not to move at the processing position;
The index rotating frame is rotatably fixed to the index fixing frame. The index rotating frame is fixed to the index rotating frame so that a plurality of chucks can be rotated and elevated at equal angles. A plurality of index units, each of which is equipped with a machining tool of a different type or size, so as to be able to select the machining tool according to the rotation of the index rotating die;
A rotating frame rotating unit provided on the index fixing frame to rotate the index rotating frame to select a desired processing tool, and an index conveying unit provided on the frame for moving the index rotating frame to the working position An index operation unit; And
A processing tool rotation unit provided in the index fixing frame and rotating the chuck to rotate the processing tool mounted on the chuck; and a processing tool provided in the index fixing frame and being rotated through the processing tool rotating unit by moving the index rotating frame And a machining tool operation unit including a machining tool feed unit for moving the workpiece to a glass plate position,
The index unit is composed of four pairs of two at the top and at the bottom of the frame;
The machining tool comprising at least two drilling drills, a bit for grinding cutting, a machining wheel for chamfering;
A pair of saw blades spaced apart in parallel to one another and rotatably fixed to the saw blade support frame so as to be able to move up and down on any one of the index units; And a cutting unit for cutting the glass plate in parallel through the pair of saw blades including a saw blade elevating part for moving up and down the saw blade.
delete delete The method according to claim 1,
Wherein the rotary frame rotation unit is connected to rotate the index rotary frame to rotate the index rotary frame to rotate the index rotary frame and to select a desired processing tool,
Wherein the index conveying unit is configured such that four first guide screws fixed to the frame in the left and right directions are respectively screwed to a first slider fixed to an index fixing frame of the four index units, Wherein the index unit is provided with an index conveying motor so as to be able to feed the four index units to the processing position.
delete The method according to claim 1,
Wherein the saw blade rotating unit includes a saw blade rotating motor provided on the saw blade supporting frame and connected to the rotating shaft of the saw blade so as to transmit power;
Wherein the saw blade lifting and lowering unit is configured such that a saw blade lifting cylinder fixed to one side of the index fixing frame is connected to one side of the saw blade supporting frame so that the saw blade is raised and lowered according to the elongation and contraction of the saw blade lifting cylinder. Glass plate processing equipment.
The method according to claim 6,
Wherein a water supply hole is formed in an axial direction of the rotary shaft of the index rotary mold so that a water supply pipe is connected to the water supply pipe and a water flow pipe is connected from the middle portion of the chuck to a rotary shaft of the index rotary mold, A water supply hole communicating with the water supply hole in a direction perpendicular to the water supply hole so as to pass only through the water flow channel direction of the chuck for performing water treatment;
A safety guard is formed on the upper portion of the saw blade support frame, a water supply nozzle is provided on the inside of the safety guard, and a water supply pipe is connected to the water supply nozzle to supply water during cutting through the saw blade. A multifunctional glass plate processing apparatus.

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