CN217103584U - High-precision optical glass scribing machine - Google Patents

High-precision optical glass scribing machine Download PDF

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Publication number
CN217103584U
CN217103584U CN202221158688.2U CN202221158688U CN217103584U CN 217103584 U CN217103584 U CN 217103584U CN 202221158688 U CN202221158688 U CN 202221158688U CN 217103584 U CN217103584 U CN 217103584U
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seat
box
top side
lead screw
optical glass
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CN202221158688.2U
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Chinese (zh)
Inventor
陈家雄
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Fujian Bomai Technology Co ltd
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Fujian Bomai Technology Co ltd
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Abstract

The utility model provides a high-precision optical glass scribing machine, which relates to the technical field of glass scribing machines and comprises a bracket component and a cutting mechanism, wherein the top side of the bracket component is provided with a clamping component, a control component assembled by bolts is arranged above the two sides of the bracket component, and the top side of the control component is provided with the cutting mechanism assembled by bolts; the utility model discloses mainly utilize the axial motion through the XY axle, can make screw thread sliding sleeve and cylinder block can real-timely move the place top of processing, can adjust electric swivel seat's real-time height through the cylinder, under the operation of multiunit coordinate, make the scribing tool bit of fixed blade holder one end can reach the effect of processing with the glass raw materials, the real-time angle of side toothholder can be adjusted to electronic hinge simultaneously, make the rotary blade under the mutually supporting of motor and gear, can reach the effect of deep-processing to the product according to the angle detail of processing product, thereby the processing quality of equipment has been promoted.

Description

High-precision optical glass scribing machine
Technical Field
The utility model relates to a glass scriber technical field especially relates to high accuracy optics glass scriber.
Background
The glass scribing machine has the characteristics of full-automatic feeding and discharging, high-low power double-lens automatic alignment, opposite double-spindle cutting, double-fluid cleaning and drying and the like, and can be used for cutting and expanding the UV irradiation unit aiming at the packaging body.
Current glass scribing machine is difficult to freely switch between scribing and cutting in the use, causes the processing quality low, and the not high-efficient scheduling problem of machining efficiency, consequently, the utility model provides a high accuracy optical glass scribing machine is in order to solve the problem that exists among the prior art.
SUMMERY OF THE UTILITY MODEL
To the above problem, the utility model provides a high accuracy optical glass scribing machine, this high accuracy optical glass scribing machine is mainly to utilize the axial motion through the XY axle, can make screw thread sliding sleeve and cylinder block can real-time operation to the place top of processing, can adjust electric swivel seat's real-time height through the cylinder, under the operation of multiunit coordinate, make the scribing tool bit of fixed blade holder one end can reach the effect of processing with the glass raw materials, the real-time angle of side toothholder can be adjusted to electric hinge simultaneously, make the rotating blade under the mutually supporting of motor and gear, can reach deep-processing's effect to the product according to the angle detail of processing product, thereby the processing quality of equipment has been promoted.
For realizing the purpose of the utility model, the utility model discloses a following technical scheme realizes: the high-precision optical glass scribing machine comprises a support component and a cutting mechanism, wherein a clamping assembly is arranged on the top side of the support component, control components assembled by bolts are arranged above two sides of the support component, and the cutting mechanism assembled by bolts is arranged on the top side of the control components;
the cutting mechanism comprises a beam box, a Y-axis lead screw, a threaded sliding sleeve, a cylinder seat, a pneumatic cylinder body, an electric rotating seat, an electric hinge, a fixed cutter seat, a scribing cutter head, a side tooth seat, a motor, a driving gear, a driven gear and a rotating blade, wherein the beam box is in bolted connection with the top side of the control component, the beam box is in threaded connection with the threaded sliding sleeve through the Y-axis lead screw, the cylinder seat is arranged on the outer side of the threaded sliding sleeve, the pneumatic cylinder body is arranged above the cylinder seat, the output end of the pneumatic cylinder body penetrates through the cylinder seat and is connected with the electric rotating seat, the electric hinge is arranged below the electric rotating seat, the fixed cutter seat is arranged on one side of the electric hinge, the scribing cutter head is clamped on the inner side of one end of the fixed cutter seat, the side tooth seat is arranged on the other side of the electric hinge, and the motor is arranged on the top side of the side tooth seat, the output end of the motor is connected with a driving gear, the driving gear is meshed with a driven gear, and the output end of the driven gear is connected with a rotary blade.
The improved structure is that the threaded sliding sleeve and the cylinder seat form a polyhedral structure, the electric rotating seat is perpendicular to the electric hinge, the scribing cutter head is of a tip structure, and the rotating blade is of a circular sawtooth structure.
The support component comprises a supporting pad, an underframe, a bedplate and bolt side plates, the top side of the supporting pad is connected with the bedplate through the underframe in a threaded manner, and the bolt side plates are arranged above the periphery of the bedplate.
The improved structure is characterized in that the clamping assembly comprises an electromagnetic slide bar box, an axle seat, a rubber loop bar, an electromagnetic slide block, an upper block, an articulated seat, a pneumatic telescopic rod, a pneumatic articulated rod, a movable rod and an attaching piece, the electromagnetic slide bar box is arranged on the top side of the bedplate, the inner side of the electromagnetic slide bar box is connected with the rubber loop bar through an axle seat bearing, the electromagnetic slide block is connected to the electromagnetic slide bar box in a sliding mode, and the top side of the electromagnetic slide block is provided with the upper block.
The improved structure is characterized in that the upper block is connected with a pneumatic telescopic rod through a hinged seat hinge, one side of the pneumatic telescopic rod is provided with a pneumatic hinged rod, one end of the pneumatic telescopic rod is provided with a movable rod connected with a hinge, and one end of the movable rod is provided with an attaching piece.
The improved structure is characterized in that the control component comprises an X-axis lead screw box, a first lead screw group, a sliding block, a drag chain, a front support, a control panel and a lifting frame, the X-axis lead screw box is arranged on the inner side of the bolt lateral piece, the X-axis lead screw box is connected with the sliding block through the first lead screw group in a threaded mode, the sliding block is flexibly connected with the X-axis lead screw box through the drag chain, the outer side of the sliding block is fixedly connected with the control panel through the front support, and the lifting frame is arranged on the top side of the sliding block.
The utility model has the advantages that:
the utility model discloses mainly utilize the axial motion through XY axle, can make screw thread sliding sleeve and cylinder block can real-timely move the place top of processing, can adjust electric rotating seat's real-time height through the cylinder, under the operation of multiunit coordinate, make the scribing tool bit of fixed blade holder one end can reach the effect of processing with the glass raw materials, the real-time angle of side toothholder can be adjusted to electronic hinge simultaneously, make the rotating blade under the mutually supporting of motor and gear, can reach the effect of deep-processing to the product according to the angle detail of processing product, thereby the processing quality of equipment has been promoted.
Drawings
Fig. 1 is a schematic perspective view of the present invention;
FIG. 2 is a schematic side view of the three-dimensional structure of the present invention;
fig. 3 is a schematic perspective view of the clamping assembly of the present invention;
fig. 4 is a schematic view of the three-dimensional structure of the cutting mechanism of the present invention.
Wherein: 1. a bracket member; 101. a support pad; 102. a chassis; 103. a platen; 104. a bolt side piece; 2. a clamping assembly; 201. an electromagnetic slide bar box; 202. a shaft seat; 203. a rubber sleeve rod; 204. an electromagnetic slider; 205. loading the block; 206. a hinged seat; 207. a pneumatic telescopic rod; 208. a pneumatic hinge rod; 209. a movable rod; 2010. laminating the sheets; 3. a control member; 301. an X-axis lead screw box; 302. a first screw rod group; 303. a slider; 304. a drag chain; 305. a front bracket; 306. a control panel; 307. lifting the frame; 4. a cutting mechanism; 401. a beam box; 402. a Y-axis lead screw; 403. a threaded sliding sleeve; 404. a cylinder block; 405. a pneumatic cylinder; 406. an electric rotating base; 407. an electric hinge; 408. fixing the tool apron; 409. scribing a cutter head; 4010. a side toothholder; 4011. an electric motor; 4012. a driving gear; 4013. a driven gear; 4014. the blade is rotated.
Detailed Description
In order to deepen the understanding of the present invention, the following embodiments are combined to further detail the present invention, and the present embodiment is only used to explain the present invention, and does not constitute the limitation of the protection scope of the present invention.
According to the embodiments shown in fig. 1-4, the present embodiment provides a high-precision optical glass scribing machine, which comprises a support component 1 and a cutting mechanism 4, wherein the top side of the support component 1 is provided with a clamping assembly 2, bolt-assembled control members 3 are arranged above two sides of the support component 1, and the top side of the control members 3 is provided with the bolt-assembled cutting mechanism 4;
the cutting mechanism 4 comprises a beam box 401, a Y-axis screw rod 402, a threaded sliding sleeve 403, a cylinder seat 404, a pneumatic cylinder body 405, an electric rotating seat 406, an electric hinge 407, a fixed cutter seat 408, a scribing cutter head 409, a side gear seat 4010, a motor 4011, a driving gear 4012, a driven gear 4013 and a rotating blade 4014, the beam box 401 is connected to the top side of the control member 3 through bolts, the beam box 401 is connected with the threaded sliding sleeve 403 through the Y-axis screw rod 402 in a threaded manner, the cylinder seat 404 is arranged on the outer side of the threaded sliding sleeve 403, the pneumatic cylinder body 405 is arranged above the cylinder seat 404, the output end of the pneumatic cylinder body 405 penetrates through the cylinder seat 404 and is connected with the electric rotating seat 406, the electric hinge 407 is arranged below the electric rotating seat 406, the fixed cutter seat 408 is arranged on one side of the electric hinge 407, the scribing cutter head 409 is clamped on the inner side of one end of the fixed cutter seat 408, the side gear seat 4010 is arranged on the other side of the electric hinge 407, the top side of side toothholder 4010 is provided with motor 4011, and motor 4011's output is connected with driving gear 4012, and driving gear 4012 is connected with driven gear 4013 meshing, and driven gear 4013's output is connected with rotary blade 4014.
The threaded sliding sleeve 403 and the cylinder seat 404 form a polyhedron structure, the electric rotating seat 406 and the electric hinge 407 are perpendicular to each other, the scribing cutter 409 is in a tip structure, and the rotating blade 4014 is in a circular sawtooth structure.
In this embodiment, the Y-axis screw 402 on the beam box 401 is then simultaneously started to output power to drive the threaded sliding sleeve 403 to move to the machining position, so that the electric rotating base 406 below the cylinder base 404 is driven to run to the processing height by starting the pneumatic cylinder 405 to output power, since the electric rotating base 406 and the electric hinge 407 are perpendicular to each other, and the electric rotating base 406 and the electric hinge 407 are simultaneously activated to move the fixed tool holder 408 to a proper machining angle, and the glass product is scribed by the scribing bit 409 inside one end of the fixed tool apron 408, when the deep bevel cutting is needed, the electric rotating seat 406 and the electric hinge 407 are started to make the side tooth seat 4010 run to the processing angle, then the motor 4011 is started to output power to drive the driving gear 4012 to rotate, so that the driving gear 4012 drives the driven gear 4013 to rotate, thus, the driven gear 4013 rotates the rotary blade 4014 at a high speed, so that the rotary blade 4014 can effectively cut the glass.
The support component 1 comprises a supporting pad 101, an underframe 102, a bedplate 103 and a bolt side plate 104, wherein the top side of the supporting pad 101 is connected with the bedplate 103 through the underframe 102 in a threaded mode, and the bolt side plate 104 is arranged above the periphery of the bedplate 103.
In this embodiment, the bottom frame 102 is disposed on the top side of the support pad 101, and the device is placed at a processing place, and the bottom frame 102 is frame-shaped, so that the bottom frame 102 can firmly support the bedplate 103, and thus the bolt side panels 104 are installed above the periphery of the bedplate 103 to bolt the X-axis lead screw box 301.
The clamping assembly 2 comprises an electromagnetic slide bar box 201, a shaft seat 202, a rubber sleeve rod 203, an electromagnetic sliding block 204, an upper block 205, an articulated seat 206, a pneumatic telescopic rod 207, a pneumatic articulated rod 208, a movable rod 209 and a laminating sheet 2010, wherein the electromagnetic slide bar box 201 is arranged on the top side of the bedplate 103, the rubber sleeve rod 203 is connected to the inner side of the electromagnetic slide bar box 201 through a bearing of the shaft seat 202, the electromagnetic sliding block 204 is connected to the electromagnetic slide bar box 201 in a sliding mode, and the upper block 205 is arranged on the top side of the electromagnetic sliding block 204.
In this embodiment, at first place the glass raw materials that will process on the inboard rubber loop bar 203 of axle bed 202, because rubber loop bar 203 is multisection cylindric for the contact surface between rubber loop bar 203 and the glass raw materials can increase, thereby has promoted the firm degree of contact of glass raw materials, has prevented the effect of dislocation.
Go up piece 205 and have pneumatic telescopic rod 207 through articulated seat 206 hinged joint, one side of pneumatic telescopic rod 207 is provided with pneumatic articulated rod 208, and the one end of pneumatic telescopic rod 207 is provided with hinged joint's movable rod 209, and the one end of movable rod 209 is provided with laminating piece 2010.
In this embodiment, when glass raw materials placed, utilize electromagnetism slide bar box 201 drive electromagnetism slider 204 to move the position of centre gripping, use articulated seat 206 on one side of upper block 205 subsequently, let pneumatic telescopic rod 207 and pneumatic articulated rod 208 move jointly like this according to the concrete size of glass raw materials for the laminating piece 2010 of movable rod 209 one end is with glass raw materials centre gripping, with convenient equipment fixed glass, make equipment reason process glass.
The control component 3 comprises an X-axis lead screw box 301, a first lead screw group 302, a sliding block 303, a drag chain 304, a front support 305, a control panel 306 and a lifting frame 307, the X-axis lead screw box 301 is arranged on the inner side of the bolt side piece 104, the sliding block 303 is connected to the X-axis lead screw box 301 through the first lead screw group 302 in a threaded manner, the sliding block 303 is flexibly connected with the X-axis lead screw box 301 through the drag chain 304, the control panel 306 is fixedly connected to the outer side of the sliding block 303 through the front support 305, and the lifting frame 307 is arranged on the top side of the sliding block 303.
In this embodiment, after the glass centre gripping, utilize control panel 306 on the fore-stock 305 to operate equipment, start the first lead screw group 302 output power on the X axle lead screw box 301 and make the sliding block 303 move the position of processing product, because the sliding block 303 passes through tow chain 304 and X axle lead screw box 301 flexonics, make the sliding block 303 in the operation, can offset inertial influence, promote the stability of processing, and utilize to raise the frame 307 and drive crossbeam box 401 and move the position of processing.
The working principle of the high-precision optical glass scribing machine is as follows: firstly, place the glass raw materials that need processing on the inboard rubber loop bar 203 of axle bed 202, because rubber loop bar 203 is multisection cylindric, make the contact surface between rubber loop bar 203 and the glass raw materials increase, thereby the firm degree of contact of glass raw materials has been promoted, the effect of dislocation has been prevented, when the glass raw materials were placed, utilize electromagnetism slide bar box 201 drive electromagnetism slider 204 to move the position of centre gripping, use articulated seat 206 of upper block 205 one side subsequently, let air powered telescopic link 207 and air powered articulated rod 208 move jointly like this according to the concrete size of glass raw materials, make the laminating piece 2010 of movable rod 209 one end carry out the centre gripping with the glass raw materials, in order to make equipment fix glass, make the equipment reason process glass, after the glass centre gripping, utilize control panel 306 on the fore-stock 305 to operate the equipment, start first lead screw group 302 on the X axle box 301 output power and make sliding block 303 move the position of processing product Because the sliding block 303 is flexibly connected with the X-axis lead screw box 301 through the drag chain 304, the sliding block 303 can counteract the influence of inertia in the operation process, the processing stability is improved, the lifting frame 307 is utilized to drive the beam box 401 to move to the processing position, then the Y-axis lead screw 402 on the beam box 401 is simultaneously started to output power to drive the threaded sliding sleeve 403 to move to the processing position, thus the pneumatic cylinder 405 is started to output power to drive the electric rotating seat 406 below the cylinder seat 404 to move to the processing height, because the electric rotating seat 406 is perpendicular to the electric hinge 407, and the electric rotating seat 406 and the electric hinge 407 are simultaneously started to drive the fixed tool seat 408 to move to a proper processing angle, and the scribing cutter head 409 at the inner side of one end of the fixed tool seat 408 is utilized to scribe the glass product, when the deep inclined cutting is required, the electric rotating seat 406 and the electric hinge 407 are started to drive the side gear seat 4010 to the processing angle, then the motor 4011 is started to output power to drive the driving gear 4012 to rotate, so that the driving gear 4012 drives the driven gear 4013 to rotate, and the driven gear 4013 drives the rotary blade 4014 to rotate at high speed, so that the rotary blade 4014 effectively cuts glass.
The foregoing illustrates and describes the principles, general features, and advantages of the present invention. It will be understood by those skilled in the art that the present invention is not limited to the above embodiments, and that the foregoing embodiments and descriptions are provided only to illustrate the principles of the present invention without departing from the spirit and scope of the present invention. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (6)

1. High accuracy optical glass scriber, including support component (1) and cutting mechanism (4), its characterized in that: a clamping assembly (2) is arranged on the top side of the bracket component (1), a control component (3) assembled by bolts is arranged above two sides of the bracket component (1), and a cutting mechanism (4) assembled by bolts is arranged on the top side of the control component (3);
the cutting mechanism (4) comprises a beam box (401), a Y-axis screw rod (402), a threaded sliding sleeve (403), a cylinder seat (404), a pneumatic cylinder body (405), an electric rotating seat (406), an electric hinge (407), a fixed cutter seat (408), a scribing cutter head (409), a side gear seat (4010), an electric motor (4011), a driving gear (4012), a driven gear (4013) and a rotating cutter blade (4014), wherein the beam box (401) is connected to the top side of the control member (3) through a bolt, the beam box (401) is in threaded connection with the threaded sliding sleeve (403) through the Y-axis screw rod (402), the cylinder seat (404) is arranged on the outer side of the threaded sliding sleeve (403), the pneumatic cylinder body (405) is arranged above the cylinder seat (404), the output end of the pneumatic cylinder body (405) penetrates through the cylinder seat (404) and is connected with the electric rotating seat (406), just the below of electronic roating seat (406) is provided with electronic hinge (407), one side of electronic hinge (407) is provided with fixed blade holder (408), just the inboard centre gripping of one end of fixed blade holder (408) has scribing tool bit (409), the opposite side of electronic hinge (407) is provided with side toothholder (4010), the top side of side toothholder (4010) is provided with motor (4011), the output of motor (4011) is connected with driving gear (4012), just driving gear (4012) is connected with driven gear (4013) meshing, the output of driven gear (4013) is connected with spinning blade (4014).
2. The high precision optical glass scribe according to claim 1, wherein: the threaded sliding sleeve (403) and the cylinder seat (404) form a polyhedral structure, the electric rotating seat (406) and the electric hinge (407) are perpendicular to each other, the scribing cutter head (409) is of a tip structure, and the rotating blade (4014) is of a circular sawtooth structure.
3. The high precision optical glass scribe according to claim 1, wherein: the support component (1) comprises a supporting pad (101), an underframe (102), a bedplate (103) and bolt side plates (104), wherein the top side of the supporting pad (101) is connected with the bedplate (103) through the underframe (102) in a threaded mode, and the bolt side plates (104) are arranged above the periphery of the bedplate (103).
4. A high precision optical glass scribe according to claim 3 wherein: centre gripping subassembly (2) include electromagnetism slide bar box (201), axle bed (202), rubber loop bar (203), electromagnetism slider (204), go up piece (205), articulated seat (206), pneumatic telescopic link (207), pneumatic articulated rod (208), movable rod (209) and laminating piece (2010), electromagnetism slide bar box (201) sets up the top side of platen (103), the inboard of electromagnetism slide bar box (201) is connected with rubber loop bar (203) through axle bed (202) bearing, sliding connection has electromagnetism slider (204) on electromagnetism slide bar box (201), just the top side of electromagnetism slider (204) is provided with piece (205).
5. The high precision optical glass scribe according to claim 4, wherein: go up piece (205) and have pneumatic telescopic link (207) through articulated seat (206) hinged joint, one side of pneumatic telescopic link (207) is provided with pneumatic articulated rod (208), the one end of pneumatic telescopic link (207) is provided with hinged joint's movable rod (209), just the one end of movable rod (209) is provided with laminating piece (2010).
6. A high precision optical glass scribe according to claim 3 wherein: control element (3) include X axle lead screw box (301), first lead screw group (302), sliding block (303), tow chain (304), fore-stock (305), control panel (306) and raise frame (307), X axle lead screw box (301) set up the inboard of bolt lateral plate (104), there are sliding block (303) through first lead screw group (302) threaded connection on X axle lead screw box (301), sliding block (303) are through tow chain (304) and X axle lead screw box (301) flexible connection, fore-stock (305) fixedly connected with control panel (306) are passed through in the outside of sliding block (303), the top side of sliding block (303) is provided with raises frame (307).
CN202221158688.2U 2022-05-12 2022-05-12 High-precision optical glass scribing machine Active CN217103584U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN202221158688.2U CN217103584U (en) 2022-05-12 2022-05-12 High-precision optical glass scribing machine

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN202221158688.2U CN217103584U (en) 2022-05-12 2022-05-12 High-precision optical glass scribing machine

Publications (1)

Publication Number Publication Date
CN217103584U true CN217103584U (en) 2022-08-02

Family

ID=82586810

Family Applications (1)

Application Number Title Priority Date Filing Date
CN202221158688.2U Active CN217103584U (en) 2022-05-12 2022-05-12 High-precision optical glass scribing machine

Country Status (1)

Country Link
CN (1) CN217103584U (en)

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