CN116749001A

CN116749001A - Edge grinding device for glass processing

Info

Publication number: CN116749001A
Application number: CN202311044189.XA
Authority: CN
Inventors: 张宏
Original assignee: Wuxi Puhong Engineering Glass Co ltd
Current assignee: Wuxi Puhong Engineering Glass Co ltd
Priority date: 2023-08-18
Filing date: 2023-08-18
Publication date: 2023-09-15
Anticipated expiration: 2043-08-18
Also published as: CN116749001B

Abstract

The invention discloses an edge grinding device for glass processing, which belongs to the technical field of glass processing and comprises a workbench, wherein a placing bedplate is arranged above the top end of the workbench, a shifting assembly for adjusting the position of a grinding wheel is arranged at the bottom of a shell seat, a second chute is formed in the top surface of the workbench, a matched cutting assembly and a locking assembly are arranged in the second chute, and a positioning assembly is arranged at one side of the cutting assembly; according to the invention, the switching grinding processing is realized on the round glass plate and the rectangular glass plate by matching the switching component and the locking component, the whole structure is simple, the processing application range of the whole device is effectively improved, and the investment of equipment is reduced; the cutting and adjusting assembly is locked through the positioning assembly, so that the placing bedplate in a fixed-point rotating state is positioned in an auxiliary mode, and the edging machining precision is improved; the position of the grinding wheel is conveniently adjusted through the adjusting and moving assembly, and the grinding wheel is applicable to edging different glass plates.

Description

Edge grinding device for glass processing

Technical Field

The invention relates to the technical field of glass processing, in particular to an edge grinding device for glass processing.

Background

The glass has hard and brittle texture, when the glass is produced, the edges of the glass are often uneven and inclined, in the glass processing industry, the corners of the glass need to be polished, so that the edges are smooth, the subsequent installation is convenient, the cutting injury of a user is prevented, and the equipment for grinding the edges of large-scale flat glass is mainly divided into two types of semi-automatic equipment and full-automatic equipment, wherein the semi-automatic equipment mainly comprises a linear edge grinder (called straight edge machine for short), a glass linear edge rounding machine (called round edge machine for short), a glass linear bevel edge grinder, a single-arm special-shaped glass edge grinder and the like, and the full-automatic equipment mainly comprises a glass CNC (computer numerical control) processing center; in the prior art, when the edge grinding equipment for the larger glass plate is used for processing, the grinding wheel and the glass edge generally move relatively to carry out glass edge grinding processing, and in the large glass plate edge grinding processing production, the rectangular glass plate and the round glass plate are two types with higher processing frequency, so that the processing quantity is more, and the application range is wider.

Like chinese patent publication No. CN217493715U, a glass edging device is disclosed, this scheme has the movable plate in the equal slidable mounting of workstation both sides, equal slidable mounting has the movable frame on the movable plate, rotate respectively on the movable frame and install first emery wheel, second emery wheel, third emery wheel, the third emery wheel grinds the side, the movable frame is movable, it is flexible through controlling electric telescopic handle, control sucking disc adsorbs glass, thereby restriction glass removes, and control revolving stage rotates, can control glass and rotate, with the equal grinding of glass four sides, convenient and fast, improvement production efficiency.

Like chinese patent publication No. CN2248117Y, a round glass edging machine is disclosed, which comprises a base, an upright post, a transmission support, a transmission device, a rotary table, a sucker, an XY coordinate carriage device, a grinding wheel motor and a grinding wheel, and can mechanically grind and process round glass edges, wherein two edging lines are parallel, neat and beautiful, stiff and smooth, and the edging roundness is improved. The scheme is ideal equipment for manufacturing high-quality round glass table boards, and has the advantages of compact structure, wide application range and high production efficiency.

As in chinese patent publication No. CN213828381U, a glass edge grinding apparatus is disclosed, which comprises an operation platform, wherein the operation platform comprises a platform bracket, and universal wheels are uniformly arranged on the platform bracket; one side of the operating platform is provided with a grinding mechanism, the grinding mechanism is fixed on the upright post by two belt sanders in a cross welding way, and the intersecting line of the two belt sanders corresponds to the operating surface of the operating platform. The glass is placed on the universal wheel, so that the glass can be moved and rotated more conveniently; the abrasive belt machines are arranged in a crossed mode, and can grind the upper edge and the lower edge of the glass at the same time.

The glass edge grinding equipment in the prior art can only be used for grinding a single rectangular glass plate or a round glass plate, cannot be simultaneously compatible with grinding on the same equipment, has a small processing application range, is excessively complex in overall structure of a full-automatic glass CNC (computer numerical control) processing center in the prior art, is high in use and maintenance cost, can be simultaneously compatible with grinding for manufacturing the rectangular glass plate and the round glass plate with high processing frequency, has very important significance in reducing equipment investment for enterprises, reducing equipment occupation space and saving cost, and is a grinding equipment capable of simultaneously grinding the edges of the rectangular glass plate and the edges of the round glass plate and simple in structure.

Accordingly, there is a need to provide an edge grinding device for glass processing that solves the above-described problems.

Disclosure of Invention

The invention aims to provide an edge grinding device for glass processing, which solves the problems in the prior art.

In order to achieve the above object, the present invention solves the above technical problems as follows: the utility model provides an edge grinding device for glass processing, includes the workstation, the top surface top of workstation is provided with the platen of placing that bears the weight of the glass board, the second spout has been seted up along length direction on the top surface of workstation, be provided with in the second spout and mutually support and switch cutting adjustment subassembly and the locking subassembly of grinding round glass board and rectangle glass board.

As a further scheme of the invention, the cutting and adjusting assembly comprises a base block which is arranged in a second chute and slides, a servo motor with an output end rotationally connected with a placing bedplate is fixed on the top end of the base block, a rack plate which is arranged along the length direction of the second chute is fixed on the side surface of the second chute, a transmission gear which is meshed and matched with the rack plate is connected on the output shaft of the servo motor in a sliding manner, a plurality of guide ribs are fixed on the side surface of the output shaft of the servo motor, and a first groove which is matched with the guide ribs in a sliding manner is formed in the transmission gear.

As a further scheme of the invention, an electromagnet block positioned above the transmission gear is fixed on the side surface of the output shaft of the servo motor, a current controller electrically connected with the electromagnet block is fixed on the side surface of the base block, and a first annular permanent magnet is fixed on the top surface of the transmission gear.

As a further scheme of the invention, the locking assembly comprises a second annular permanent magnet which is positioned above the electromagnet block and is in sliding connection with the output shaft of the servo motor, a second groove which is in sliding fit with the guide convex rib is formed in the second annular permanent magnet, a convex column is fixed on the top surface of the second annular permanent magnet, and a clamping groove which is matched with the convex column in a proper manner is formed in the bottom surface of the placing platen.

As a further scheme of the invention, rubber pads are fixed on two opposite side surfaces of the electromagnet block, and through holes are formed in the side surfaces of the rubber pads.

As a further scheme of the invention, the side surface of the base block, which is in sliding fit with the second chute, is connected with the balls in a rolling way, and the balls are in rolling contact with the side surface of the second chute.

As a further scheme of the invention, one side of the base block is provided with a positioning component for locking the position where the bedplate is placed, the positioning component comprises a threaded hole formed in the side face of the base block, a bolt is connected to the side wall of the second sliding groove in a threaded manner, and the bolt end of the bolt is matched with the threaded hole.

As a further scheme of the invention, the side surface of the placing platen is provided with an indication mark b, and the top surface of the workbench is provided with an indication mark a matched with the indication mark b.

As a further scheme of the invention, one side of the placing platen is provided with a shell seat, a grinding wheel for grinding the edge of the glass plate is arranged in the shell seat, the bottom of the shell seat is provided with a shifting component for adjusting the position of the grinding wheel, the shifting component comprises a support plate fixed on the bottom end of the shell seat, the top surface of the workbench is provided with a first chute which is mutually perpendicular to a second chute and is in sliding fit with the bottom end of the support plate, one end of the first chute is fixedly provided with a nut sleeve, the internal thread of the nut sleeve is connected with a threaded rod, and the inner side end of the threaded rod is rotationally connected with the bottom end of the support plate.

As a further scheme of the invention, a handle rod is fixed on the outer side end of the threaded rod, and a rubber sleeve is sleeved on the surface of the handle rod in a fitting manner.

Compared with the prior art, the invention has the beneficial effects that: the switching grinding processing can be realized on the round glass plate and the rectangular glass plate through the matching of the switching component and the locking component, the switching operation is convenient, the overall structure is simpler, the processing application range of the overall device is effectively improved, the input of the device is reduced, the occupied space of equipment is reduced, and the cost is saved; the cutting and adjusting assembly is locked through the positioning assembly, so that the placing platen is positioned in an auxiliary mode in a fixed-point rotating state, the vibration deviation problem of the placing platen in the rotating process is avoided, and the grinding machining precision and the grinding effect are improved; the position of grinding wheel can be adjusted conveniently through the transfer subassembly that sets up effectively to can carry out abrasive machining to the glass board of equidimension not, further improve whole device application scope and whole practicality, align the cooperation through indicator a and indicator b and calibrate locking Assembly, the convenience is to the spacing locking of placing the platen.

Drawings

The invention is further illustrated by the following examples in conjunction with the accompanying drawings:

FIG. 1 is a perspective view of the whole structure of the present invention;

FIG. 2 is an enlarged view of the structure of FIG. 1 at A;

FIG. 3 is a perspective view of the whole structure of the present invention;

FIG. 4 is an enlarged view of the structure at B in FIG. 3;

FIG. 5 is a schematic overall cross-sectional view of the present invention;

FIG. 6 is a schematic view of a partial structure of a trimming assembly according to the present invention;

FIG. 7 is a schematic view of the bottom structure of the placement platen of the present invention;

FIG. 8 is a schematic diagram showing a disassembled structure of the trimming assembly according to the present invention;

FIG. 9 is a schematic diagram showing a disassembled structure of the trimming assembly according to the present invention;

FIG. 10 is a schematic view of a placement platen structure of the present invention;

fig. 11 is an enlarged view of the structure at C in fig. 10.

In the drawings, the list of components represented by the various numbers is as follows:

1. a cutting and adjusting component; 101. a base block; 102. a servo motor; 103. a transmission gear; 104. rack plate; 105. a ball; 106. an electromagnet block; 107. a rubber pad; 108. a through hole; 109. a first groove; 110. a first annular permanent magnet; 111. a current controller; 112. guiding the convex ribs; 2. a locking assembly; 201. a second annular permanent magnet; 202. a convex column; 203. a second groove; 204. a clamping groove; 3. a positioning assembly; 301. a threaded hole; 302. a bolt; 4. an adjustment assembly; 401. a threaded rod; 402. a handle bar; 403. a nut sleeve; 404. a first chute; 405. a support plate; 5. a work table; 6. a second chute; 7. a support plate; 8. a cylinder; 9. a pressing plate; 10. placing a bedplate; 11. a housing base; 12. a grinding wheel; 13. an indication mark a; 14. an indication mark b; 15. a T-shaped base; 16. t-shaped sliding grooves; 17. and a mobile power supply.

Detailed Description

The invention is further described below with reference to examples.

Referring to fig. 1-11, the invention provides an edge grinding device for glass processing, which comprises a workbench 5, a placing bedplate 10 which is used for carrying a glass plate and is horizontally arranged is arranged above the top end of the workbench 5, a support plate 7 is connected to the top end of the workbench 5 in a sliding way, a cylinder 8 is connected to the top end of the support plate 7 in a rotating way, a pressing plate 9 which is positioned right above the placing bedplate 10 is fixed on the output end of the cylinder 8, a shell seat 11 is arranged on one side of the placing bedplate 10, a grinding wheel 12 is connected to the shell seat 11 in a rotating way, a motor which drives the grinding wheel 12 to rotate at a high speed is fixed on the outer side wall of the shell seat 11, a transfer component 4 which is used for regulating the position of the grinding wheel 12 is arranged at the bottom of the shell seat 11, a second chute 6 is arranged on the top surface of the workbench 5 along the length direction, a cutting component 1 and a locking component 2 which are mutually matched for switching and grinding a round glass plate and a rectangular glass plate are arranged in the second chute 6, and a positioning component 3 which is used for locking the placing bedplate 10 is arranged on one side of the cutting component 1;

the cutting and adjusting assembly 1 and the locking assembly 2 are matched to drive the placing platen 10 to rotate at a fixed point and slowly, the motor is used to drive the grinding wheel 12 to rotate at a high speed, so that the edge of the rotating round glass plate and the fixed point grinding wheel 12 form relative movement, the edge of the round glass plate is subjected to rapid grinding processing through the grinding wheel 12 rotating at a high speed, the fixed point rotation of the placing platen 10 is relieved through the matching of the cutting and adjusting assembly 1 and the locking assembly 2, the placing platen 10 is driven to reciprocate through the cutting and adjusting assembly 1, the edge of the rectangular glass plate on the placing platen 10 and the grinding wheel 12 form relative movement, the edge of the rectangular glass plate is subjected to rapid grinding processing through the grinding wheel 12 rotating at a high speed, further, the grinding wheel 12 and the motor can be additionally arranged, the two sides of the glass edge are synchronously ground through the two grinding wheels 12, the matching of the cutting and adjusting assembly 1 and the locking assembly 2 can realize switching grinding processing on the round glass plate and the rectangular glass plate, the switching operation is convenient, the whole structure is simple, the processing application range of the whole device is effectively improved, and the investment of the device is reduced; the cutting and adjusting assembly 1 is locked through the positioning assembly 3, so that the placing platen 10 in a fixed-point rotating state is positioned in an auxiliary mode, the vibration deviation problem of the placing platen 10 in the rotating process is avoided, and the grinding precision and the grinding effect are improved; the position of the grinding wheel 12 can be conveniently and fast adjusted through the set adjusting and moving assembly 4, so that the glass plates with different sizes can be ground, and the application range and the overall practicability of the whole device are further improved.

As further shown in fig. 1, fig. 5, fig. 6 and fig. 7, it is worth specifically explaining that the cutting and adjusting assembly 1 comprises a base block 101, the base block 101 is located in the second chute 6 and is in sliding fit with the second chute 6, a servo motor 102 is fixed on the top side surface of the base block 101, the end head of an output shaft of the servo motor 102 is rotationally connected with the center of the placing platen 10 through a bearing, a rack plate 104 is fixed on the side surface of the second chute 6, the rack plate 104 is arranged along the length direction of the second chute 6, a transmission gear 103 is slidingly connected on the output shaft of the servo motor 102, the transmission gear 103 is meshed with the rack plate 104 and is matched with the guide ribs 112, the guide ribs 112 are provided with a plurality of guide ribs 112 in annular distribution, and a plurality of first grooves 109 which are in sliding fit with the guide ribs 112 are formed in the transmission gear 103; when the edge of the round glass plate is ground, the transmission gear 103 is moved, the transmission gear 103 and the rack plate 104 are separated from and are not contacted, the output shaft of the servo motor 102 and the placing platen 10 are fixed into a whole in the rotating direction through the locking assembly 2, the placing platen 10 can be driven to rotate slowly through the output shaft of the servo motor 102, the edge of the round glass plate which rotates and the positioned grinding wheel 12 form relative motion, the edge of the round glass plate is ground rapidly through the grinding wheel 12, when the edge of the rectangular glass plate is ground, the transmission gear 103 is moved, the transmission gear 103 is in meshed contact with the rack plate 104, the output shaft of the servo motor 102 drives the transmission gear 103 to rotate, the base block 101 and the servo motor 102 are driven to synchronously move in the second chute 6 through the cooperation of the transmission gear 103 and the rack plate 104, the placing platen 10 and the rectangular glass plate on the placing platen are driven to move, the edge of the round glass plate is ground rapidly through the grinding wheel 12 which rotates at a high speed, the edge of the round glass plate and the rectangular glass plate can be ground rapidly, the whole structure is switched, the whole structure is simple, the application range is improved, and the whole device cost is saved, and the whole device is easy to use.

As further shown in fig. 7, 8 and 9, it is worth specifically describing that an electromagnet block 106 is fixed on the side surface of the output shaft of the servo motor 102, the electromagnet block 106 is located above the transmission gear 103, a first annular permanent magnet 110 is fixed on the top surface of the transmission gear 103, a current controller 111 and a mobile power supply 17 are fixed on the side surface of the base block 101, and the electromagnet block 106, the current controller 111 and the mobile power supply 17 are electrically connected through wires; the current controller 111 is specifically a double pole double throw switch, when the switch is turned on, current will flow through the electromagnet block 106 along one direction, and when the switch is turned off, current will flow through the electromagnet block 106 along the other direction, thereby changing the current direction, when the round glass plate edge is ground, current is introduced into the electromagnet block 106 through the current controller 111 and the mobile power supply 17, the electromagnet block 106 is electrified to have magnetism, at the moment, the magnetic poles of the end of the electromagnet block 106 and the first annular permanent magnet 110, which are close to each other, are opposite, so that the electromagnet block 106 attracts the transmission gear 103 to move upwards, so that the transmission gear 103 is separated from the rack plate 104, meanwhile, the magnetic driving locking assembly 2 of the electromagnet block 106 fixes the output shaft of the servo motor 102 and the placing platen 10 into a whole in the rotating direction, and the output shaft of the servo motor 102 can drive the placing platen 10 to rotate, realize the grinding processing of the edge of the round glass plate, when the edge of the rectangular glass plate is ground, reverse current is introduced into the electromagnet block 106 through the current controller 111, so that the magnetic poles of the electromagnet block 106 are switched, at the moment, the magnetic poles of one end of the electromagnet block 106, which is close to the first annular permanent magnet 110, are the same, the electromagnet block 106 pushes the transmission gear 103 to move downwards, so that the transmission gear 103 and the rack plate 104 are meshed, when the servo motor 102 drives the transmission gear 103 to rotate, the transmission gear 103 and the rack plate 104 cooperate to drive the placing platen 10 to move, the output end of the servo motor 102 is driven to rotate in the forward and reverse directions circularly, so that the placing platen 10 and the rectangular glass plate on the placing platen are driven to reciprocate, meanwhile, the deflection of the rectangular glass plate is avoided by the assistance of a human hand, the stability of the edge grinding of the rectangular glass plate is improved, the grinding processing of the edges of the rectangular glass plate is realized.

As further shown in fig. 8, 9 and 11, it is worth specifically describing that the locking assembly 2 includes a second annular permanent magnet 201, a second groove 203 slidably adapted to the guiding rib 112 is formed in the second annular permanent magnet 201, the second annular permanent magnet 201 is disposed above the electromagnet block 106, a plurality of protruding columns 202 are fixed on the top surface of the second annular permanent magnet 201, the protruding columns 202 are distributed in an annular shape, a plurality of clamping grooves 204 adapted to the protruding columns 202 are formed on the bottom surface of the placing platen 10, and the inner diameter of the clamping grooves 204 is larger than the outer diameter of the protruding columns 202; when the edge of the round glass plate is ground, the magnetic poles of the end, close to each other, of the electromagnet block 106 and the second annular permanent magnet 201 are the same, the end, close to each other, of the electromagnet block 106 and the second annular permanent magnet 201 repel each other, the second annular permanent magnet 201 is pushed to move upwards through magnetic force, so that a plurality of protruding columns 202 are clamped into the clamping grooves 204, the output shafts of the placing platen 10 and the servo motor 102 are fixed into a whole in the rotating direction, the output end of the servo motor 102 can drive the placing platen 10 to rotate, the edge of the round glass plate is ground, when the edge of the rectangular glass plate is ground, the magnetic poles of the end, close to each other, of the electromagnet block 106 and the second annular permanent magnet 201 are opposite, the electromagnet block 106 adsorbs the second annular permanent magnet 201 to move downwards, so that the protruding columns 202 are separated from the clamping grooves 204, the output shafts of the placing platen 10 and the servo motor 102 can rotate relatively in the rotating direction, and the servo motor 102 is prevented from driving the rectangular glass plate to rotate, and the edge of the rectangular glass plate is ground conveniently.

As further shown in fig. 7, 8 and 9, it is worth specifically explaining that rubber pads 107 are attached and fixed on the sides of the electromagnet block 106 opposite to the second annular permanent magnet 201 and the first annular permanent magnet 110, through holes 108 are formed on the sides of the rubber pads 107, and a plurality of through holes 108 are formed and distributed in equal intervals; during specific operation, the rubber pad 107 is arranged to avoid direct contact between the first annular permanent magnet 110 and the electromagnet block 106 and between the second annular permanent magnet 201 and the electromagnet block 106, so that the problem that the magnetic component is damaged easily due to direct collision contact is avoided, and the electromagnet block 106 has good magnetic force effect through the plurality of through holes 108.

As further shown in fig. 5, 6 and 7, it should be noted that, the positioning assembly 3 includes a bolt 302 in threaded connection with the side wall of the second chute 6, a threaded hole 301 is formed on the side surface of the base block 101, and a threaded end of the bolt 302 is adapted to the threaded hole 301; when grinding the edge of the round glass plate, the screw end of the bolt 302 is screwed into the threaded hole 301 through the screw-in bolt 302, so that the position of the base block 101 inside the second chute 6 is fixed, the placing platen 10 drives the round glass plate to rotate at the top point, and the stability during grinding is improved.

As further shown in fig. 1, 4 and 5, it should be specifically explained that the transfer assembly 4 includes a first chute 404 opened on a top side of the workbench 5 and arranged perpendicular to the second chute 6, a support plate 405 is fixed at a bottom end of the housing 11, a bottom end of the support plate 405 is slidably matched with the first chute 404, a nut sleeve 403 is fixed at one end of the first chute 404, a threaded rod 401 is connected in the nut sleeve 403 in a threaded manner, and one end of the threaded rod 401 located in the first chute 404 is rotatably connected with the bottom end of the support plate 405 through a bearing; during specific work, through rotating threaded rod 401, threaded rod 401 and nut cover 403 cooperation make threaded rod 401 rotate, and threaded rod 401 drives and promotes extension board 405 and slide in first spout 404 to conveniently adjust the position of grinding wheel 12, thereby can carry out edging processing to the glass board of equidimension not, further improve whole device application scope and whole practicality.

The scheme comprises the following working processes: when the glass plate is used, the glass plate is horizontally placed on the side surface of the top end of the placing platen 10, the center of the round glass plate is aligned with the center of the placing platen 10, the output end of the air cylinder 8 drives the pressing plate 9 to descend and press the round glass plate, so that the round glass plate is clamped quickly through the pressing plate 9 and the placing platen 10, the threaded rod 401 is rotated, the threaded rod 401 drives the pushing support plate 405 to slide in the first sliding groove 404, the position of the grinding wheel 12 is adjusted, the grinding wheel 12 is contacted with the edge of the glass plate for grinding, and the preparation operation of edging is completed;

when the edge of the round glass plate is ground, current is introduced into the electromagnet block 106 through the current controller 111 and the mobile power supply 17, the electromagnet block 106 is electrified and then has magnetism, at the moment, one end of the electromagnet block 106, which is close to the first annular permanent magnet 110, is opposite in magnetic poles, so that the electromagnet block 106 attracts the transmission gear 103 to move upwards, the transmission gear 103 is separated from the rack plate 104, and meanwhile, one end of the electromagnet block 106, which is close to the second annular permanent magnet 201, is identical in magnetic poles, so that the electromagnet block 106 pushes the second annular permanent magnet 201 to move upwards through magnetic force, a plurality of protruding columns 202 are clamped into the clamping grooves 204, so that the placed platen 10 and an output shaft of the servo motor 102 are fixed into a whole in the rotating direction, and then screw bolts 302 are screwed into threaded holes 301 through the screw ends of the bolts 302, so that the base block 101 is fixed at the inner position of the second chute 6, and meanwhile, as the air cylinder 8 can rotate on the top end of the support plate 7, the clamp plate 9 and the placed platen 10 are matched to form a clamp and fix the upper and lower direction of the glass plate, the round glass plate, the rotating motor 10 is clamped in the upper and lower direction, the rotating end of the placed platen 10 is clamped in the same time, the round motor is driven by the magnetic poles, the rotating end of the motor 10 is driven by the rotating platen 10, the rotating end of the turntable 10 is driven by the rotating wheels, the rotating 12 is driven by the rotating wheels, the rotating 12, the round motor 12 is driven by the rotating wheels, the rotating 12, the round wheels are further grinding wheels are positioned, the round wheels are positioned, and the edges of the round glass plate 12 are ground, and the grinding wheels are ground, and the edges are ground, and the round plate is ground, and the edge is ground by the side and the side is fixed by the side, and the side is ground by the side and the side;

when the edge of the rectangular glass plate is ground, reverse current is introduced into the electromagnet block 106 through the current controller 111, so that the magnetic poles of the electromagnet block 106 are switched, at the moment, the magnetic poles at the end, close to each other, of the electromagnet block 106 and the first annular permanent magnet 110 are the same, the electromagnet block 106 pushes the transmission gear 103 to move downwards, so that the transmission gear 103 is meshed with the rack plate 104, the magnetic poles at the end, close to each other, of the electromagnet block 106 and the second annular permanent magnet 201 are opposite, the electromagnet block 106 adsorbs the second annular permanent magnet 201 to move downwards, so that the convex column 202 is separated from the clamping groove 204, the output shafts of the placing platen 10 and the servo motor 102 can rotate relatively in the rotating direction, the bolts 302 are separated from the threaded holes 301, limit is released, the output shafts of the servo motor 102 drive the transmission gear 103 to rotate circularly in the forward and reverse directions, and drive the base block 101 and the servo motor 102 to reciprocate in the second sliding groove 6 through the cooperation of the transmission gear 103 and the rack plate 104, and further drive the rectangular glass plate placed on the base block 10 to reciprocate, and the rectangular glass plate on the rectangular glass plate are prevented from being manually pressed by hands, and the rectangular glass plate is prevented from being ground by the deflection of the rectangular glass plate, and the rectangular glass plate is rotated by the rotating wheel 12 at high speed, and the edge of the grinding is avoided.

As further shown in fig. 5, 6 and 8, it should be specifically explained that the side surface of the base block 101 is connected with a plurality of balls 105 in a rolling manner, the balls 105 are distributed on the side surface of the base block 101 in sliding fit with the second sliding groove 6, and the surfaces of the balls 105 are all in contact with the side surface of the second sliding groove 6; in a specific operation, the plurality of balls 105 effectively reduce the friction resistance of the base block 101 when sliding in the second sliding groove 6, and improve the smoothness when the placing platen 10 moves.

As further shown in fig. 1 and 2, it is worth specifically explaining that an indication mark a13 is provided on the top surface of the workbench 5, an indication mark b14 is provided on the column side surface of the placing platen 10, and the indication mark a13 cooperates with the indication mark b14 to calibrate the placing platen 10; in specific operation, before the boss 202 is clamped into the clamping groove 204, the platen 10 is rotatably placed, so that the indication mark b14 and the indication mark a13 are aligned, and at the moment, the boss 202 and the clamping groove 204 are aligned, so that the boss 202 and the clamping groove 204 are aligned and calibrated conveniently, and the boss 202 is clamped into the clamping groove 204 conveniently.

Further, as shown in fig. 4, it is worth specifically explaining that a handle rod 402 is fixed on the outer side end of the threaded rod 401, and a rubber sleeve is sleeved on the surface of the handle rod 402 in a fitting manner; in specific work, the handle rod 402 is held to rotate to drive the threaded rod 401 to rotate, so that the arm of force of the handle rod 402 is long, and the operation is convenient and labor-saving.

As further shown in fig. 3 and 5, it is worth specifically explaining that the bottom end of the support plate 7 is fixed with a T-shaped base 15, the top end of the workbench 5 is provided with a T-shaped chute 16 slidably adapted to the T-shaped base 15, and the T-shaped chute 16 is arranged along the length direction of the workbench 5; when the rectangular glass plate is moved and ground, the support plate 7 and the air cylinder 8 are synchronously driven to move, and the support plate 7 drives the T-shaped base 15 to slide in the T-shaped sliding groove 16, so that the movement of the support plate 7 is guided and limited through the cooperation of the T-shaped base 15 and the T-shaped sliding groove 16.

To sum up: the switching grinding processing of the round glass plate and the rectangular glass plate can be realized through the matching of the switching component 1 and the locking component 2, the switching operation is convenient, the whole structure is simpler, the processing application range of the whole device is effectively improved, the input of the device is reduced, and the cost is saved; the cutting and adjusting assembly 1 is locked through the positioning assembly 3, so that the placing platen 10 in a fixed-point rotating state is positioned in an auxiliary mode, the vibration deviation problem of the placing platen 10 in the rotating process is avoided, and the grinding precision and the grinding effect are improved; the position of grinding wheel 12 can be adjusted conveniently through the transfer subassembly 4 that sets up effectively to can carry out edging processing to the glass board of equidimension not, further improve whole device application scope and whole practicality, before going into draw-in groove 204 with projection 202 card, rotate and place platen 10, make indicator b14 and indicator a13 align, projection 202 and draw-in groove 204 are just aligned this moment, thereby conveniently align the calibration to projection 202 and draw-in groove 204, make things convenient for projection 202 card to go into inside the draw-in groove 204.

The servo motor 102 and the cylinder 8 can be purchased in the market, and the servo motor 102 and the cylinder 8 are provided with power sources, which are fully disclosed in the art, and therefore, the description is not repeated in the specification.

Claims

1. The utility model provides an edge grinding device for glass processing, includes the workstation, its characterized in that, the top surface top of workstation is provided with the platen of placing that bears the weight of the glass board, the second spout has been seted up along length direction on the top surface of workstation, be provided with in the second spout and mutually support and switch cutting adjustment subassembly and the locking subassembly of grinding processing circular glass board and rectangle glass board.

2. The edge grinding device for glass processing according to claim 1, wherein the cutting and adjusting assembly comprises a base block which is arranged in the second sliding groove and slides, a servo motor with an output end rotationally connected with the placing platen is fixed on the top end of the base block, a rack plate which is arranged along the length direction of the second sliding groove is fixed on the side surface of the second sliding groove, a transmission gear which is meshed and matched with the rack plate is connected on the output shaft of the servo motor in a sliding manner, a plurality of guide ribs are fixed on the side surface of the output shaft of the servo motor, and a first groove which is matched with the guide ribs in a sliding manner is formed in the transmission gear.

3. The edge grinding device for glass processing according to claim 2, wherein an electromagnet block located above the transmission gear is fixed on the side surface of the output shaft of the servo motor, a current controller electrically connected with the electromagnet block is fixed on the side surface of the base block, and a first annular permanent magnet is fixed on the top surface of the transmission gear.

4. The edge grinding device for glass processing according to claim 3, wherein the locking assembly comprises a second annular permanent magnet which is arranged above the electromagnet block and is in sliding connection with the output shaft of the servo motor, a second groove which is in sliding fit with the guide convex rib is formed in the second annular permanent magnet, a convex column is fixed on the top surface of the second annular permanent magnet, and a clamping groove which is matched with the convex column in a clamping mode is formed in the bottom surface of the placing platen.

5. The edge grinding device for glass processing according to claim 3, wherein rubber pads are fixed to both opposite side surfaces of the electromagnet block, and through holes are formed in the side surfaces of the rubber pads.

6. The edge grinding apparatus for glass processing according to claim 5, wherein the base block has balls in rolling contact with the second chute on both sides thereof in sliding engagement with the second chute.

7. The edge grinding device for glass processing according to claim 2, wherein a positioning component for locking the position where the platen is placed is arranged on one side of the base block, the positioning component comprises a threaded hole formed in the side face of the base block, a bolt is connected to the side wall of the second chute in a threaded manner, and the bolt end is matched with the threaded hole.

8. The edge grinding apparatus for glass processing according to claim 4, wherein an indication mark b is provided on a side surface of the placement platen, and an indication mark a that cooperates with the indication mark b is provided on a top surface of the table.

9. The edge grinding device for glass processing according to claim 7, wherein a housing seat is arranged on one side of the placing platen, a grinding wheel for grinding the edge of the glass plate is arranged in the housing seat, a shifting component for adjusting the position of the grinding wheel is arranged at the bottom of the housing seat, the shifting component comprises a support plate fixed on the bottom end of the housing seat, a first chute which is mutually perpendicular to the second chute and is in sliding fit with the bottom end of the support plate is arranged on the top surface of the workbench, a nut sleeve is fixed on one end of the first chute, a threaded rod is connected in the nut sleeve in a threaded manner, and the inner end of the threaded rod is in rotary connection with the bottom end of the support plate.

10. The edge grinding device for glass processing according to claim 9, wherein a handle rod is fixed to an outer end of the threaded rod, and a rubber sleeve is fitted over a surface of the handle rod.