CN115847229A - Toughened glass production device and production process thereof - Google Patents

Abstract

The invention relates to the technical field of toughened glass production, in particular to a toughened glass production device and a production process thereof, which comprise a double-layer glass clamping seat and an edge chamfering machine for chamfering toughened glass, wherein the double-layer glass clamping seat comprises an upper supporting seat, a lower supporting seat, an installation base and at least two side clamping plates.

Description

Toughened glass production device and production process thereof

Technical Field

The invention relates to the technical field of toughened glass production, in particular to a toughened glass production device and a toughened glass production process.

Background

When a glass factory chamfers the glass with the same specification and shape through a glass chamfering machine, only one piece of glass can be chamfered at a time. When large pieces of toughened glass are chamfered, in order to avoid the breakage of the toughened glass due to chamfering, the feeding amount of the glass chamfering is generally reduced, the glass is processed in a mode of feeding the chamfering for multiple times, and the linear moving speed of the chamfering machine also needs to be reduced during chamfering, so that the breakage of the glass is avoided. However, since the chamfering machine can only chamfer one piece of glass at a time, and when processing a large batch of glass with the same specification, excessive time is inevitably consumed, which leads to the rise of the glass cost, a device capable of chamfering multiple layers of glass simultaneously needs to be designed, so as to save the time spent on chamfering a large piece of glass, and the device can also adapt to large pieces of glass with various specifications, so as to improve the practical value of the equipment.

Disclosure of Invention

Aiming at the technical defects, the invention aims to provide a toughened glass production device and a production process thereof, and designs a device capable of chamfering multiple layers of glass simultaneously so as to save the time spent on chamfering large sheets of glass, and the device can also adapt to large sheets of glass with various specifications so as to improve the utilization rate of equipment.

In order to achieve the purpose, the invention adopts the following technical scheme: the invention provides a toughened glass production device and a production process thereof, which comprise a double-layer glass clamping seat and an edge chamfering machine for chamfering toughened glass, wherein the double-layer glass clamping seat comprises an upper supporting seat, a lower supporting seat, an installation base and at least two side clamping plates, the upper supporting seat is positioned above the lower supporting seat, the lower supporting seat is installed on the installation base, the upper supporting seat is fixedly installed on the installation base, the toughened glass can be placed at the tops of the upper supporting seat and the lower supporting seat, the two side clamping plates are used for clamping two sides of the two pieces of toughened glass in X-direction distribution, the side clamping plates can be installed on the installation base in an X-direction adjustable manner, the edge chamfering machine comprises two grinding wheels for chamfering two sides of the toughened glass simultaneously, the two grinding wheels are respectively positioned at two sides of the toughened glass, when the outer side end parts of the two pieces of the toughened glass are chamfered, the upper conical surface of each grinding wheel is contacted with the top end of the upper toughened glass, the lower conical surface of each grinding wheel is contacted with the bottom end of the lower toughened glass, when the top end of the lower toughened glass is chamfered, the upper conical surface is contacted with the bottom end of the lower toughened glass.

The toughened glass production device is further improved in that the bottom of the upper supporting seat is fixedly provided with at least two adjusting screws, the mounting base is provided with a connecting plate for mounting the adjusting screws, the outer edges of the adjusting screws are engaged with adjusting nuts, and the bottoms of the adjusting nuts are in contact with the top of the connecting plate.

The toughened glass production device is further improved in that the outer sides of the two side clamping plates are respectively provided with a connecting plate, the mounting base is provided with a plurality of adjusting screw holes connected with the connecting plates, and the adjusting screw holes are uniformly distributed along the X direction.

The toughened glass production device is further improved in that the upper support seat comprises a first middle support plate and two extension plates respectively positioned on two sides of the first middle support plate, a displacement sliding plate is arranged at the bottom of each extension plate, a guide sliding seat in sliding connection with the displacement sliding plate is arranged at the bottom of the first middle support plate, and the contact surface between the displacement sliding plate and the guide sliding seat is rough.

The toughened glass production device is further improved in that the lower supporting seat can be installed on the installation base in a sliding mode along the Y direction, the lower supporting seat is identical to the upper supporting seat in structure and comprises a middle supporting plate II and a guide pillar II installed at the bottom of the middle supporting plate II, a sliding seat in sliding connection with the guide pillar II is arranged on the installation base, angle irons are arranged at the bottom of the middle supporting plate II, wheel seats in sliding connection with the angle irons are arranged on the installation base, and a locking mechanism for fixing the guide pillar II is further arranged on the installation base.

The toughened glass production device is further improved in that the bottom of the extension plate is provided with a third guide post, and the side clamping plate is provided with a connecting sliding seat in sliding connection with the third guide post.

The toughened glass production device is further improved in that the edge chamfering machine comprises a transposition rotating mechanism, a moving chamfering mechanism, two grinding wheel rotating mechanisms and a bidirectional pushing mechanism, wherein a double-layer glass clamping seat is fixedly arranged on a rotating seat of the transposition rotating mechanism, the transposition rotating mechanism is used for driving the double-layer glass clamping seat to rotate ninety degrees, the transposition rotating mechanism is fixedly arranged on a horizontal displacement seat of the moving chamfering mechanism, the moving chamfering mechanism is used for driving the double-layer glass clamping seat to horizontally displace, the two grinding wheel rotating mechanisms are used for respectively driving two grinding wheels to rotate, the two grinding wheel rotating mechanisms are respectively arranged at horizontal pushing ends of the two horizontal pushing mechanisms, the horizontal pushing mechanism is used for pushing the grinding wheel rotating mechanisms to be close to or far away from toughened glass, the bidirectional pushing mechanism is arranged below the transposition rotating mechanism, two ends of the bidirectional pushing mechanism are respectively connected with the two horizontal pushing mechanisms, and when one end of the bidirectional pushing mechanism pushes one horizontal pushing mechanism to move upwards, the other end of the bidirectional pushing mechanism pushes the other horizontal pushing mechanism to move downwards.

The toughened glass production device is further improved in that the bidirectional pushing mechanism comprises a rotating rod, a rotary driving mechanism, a rotating shaft and two mounting seats, the middle part of the rotating rod is hinged with the rotating shaft, the rotary driving mechanism is used for pushing the rotating rod to rotate along the rotating shaft, the two horizontal pushing mechanisms are respectively mounted on the two mounting seats, the mounting seats are vertically and slidably mounted on the sliding seat, and two ends of the rotating rod are respectively hinged with the two mounting seats.

The toughened glass production device is further improved in that the side face of the grinding wheel is provided with a plurality of nozzles, the nozzles are fixedly mounted on the grinding wheel rotating mechanism through a water baffle plate, the water baffle plate is used for blocking splashed water splash, and the nozzles are respectively used for washing the contact position of the upper conical surface and the toughened glass and the contact position of the lower conical surface and the toughened glass.

The invention also discloses a production process of the toughened glass production device, which comprises the following steps:

the method comprises the following steps: pulling out the lower supporting seat, placing one piece of toughened glass on the lower supporting seat, resetting and fixing the lower supporting seat, placing the other piece of toughened glass on the upper supporting seat, clamping and fixing the toughened glass through the two side clamping plates, and fixedly connecting the side clamping plates with the mounting base;

step two: pushing the grinding wheel rotating mechanism to be close to the toughened glass through the horizontal pushing mechanism, driving the grinding wheel to rotate through the grinding wheel rotating mechanism, enabling the upper conical surface and the lower conical surface to be in contact with the two toughened glass for grinding, and driving the toughened glass to horizontally displace through the movable chamfering mechanism, so that the outer side ends of the two layers of toughened glass are chamfered through the grinding wheel;

step three: the horizontal pushing mechanism resets and returns, the two-way pushing mechanism drives and adjusts the positions of the two polishing wheels, the horizontal pushing mechanism pushes the polishing wheel rotating mechanism to be close to the toughened glass, the upper conical surface is contacted with the top end of the lower layer of toughened glass, the lower conical surface is contacted with the bottom end of the upper layer of toughened glass, and the movable chamfering mechanism drives the toughened glass to horizontally move so that the two polishing wheels respectively chamfer the inner single edges of the two layers of toughened glass;

step four: repeating the third step, wherein the rotating direction of the bidirectional pushing mechanism is reverse;

step five: and rotating the transposition rotating mechanism by ninety degrees, namely rotating the two pieces of toughened glass by ninety degrees, and repeating the second step, the third step and the fourth step to chamfer the other two sides of the toughened glass.

The invention has the beneficial effects that: this toughened glass apparatus for producing and production technology, at the very beginning, can carry out chamfer simultaneously to two toughened glass's four sides through the emery wheel of polishing, save the time of equipment to under the condition of not changing the emery wheel of polishing, can polish toughened glass's leftover angle. When toughened glass's length and width change, the double glazing grip slipper homoenergetic keeps the support to toughened glass, and when toughened glass thickness changed, accessible adjusting screw and adjusting nut highly adjusted last support seat for the wheel of polishing still can guarantee to polish simultaneously at the very beginning to toughened glass's four sides. After the position of the upper supporting seat is adjusted, the two polishing wheels are driven by the bidirectional pushing mechanism to perform staggered transposition motion, so that the two polishing wheels can still be in contact with two pieces of toughened glass at the same time, namely, the program adjustment is more convenient due to the change of the thickness of the glass. And the two grinding wheels are used for grinding toughened glass at the same time, so that the fragmentation of the glass caused by the concentration of stress is reduced.

Drawings

Fig. 1 is a schematic perspective view of a double-glazing holder according to the present invention before rotation.

Fig. 2 is a schematic perspective view of the double-glazing clamping seat and the lower support seat before being pulled out.

Fig. 3 is a schematic perspective view of the double-glazing clamping seat and the lower supporting seat after being pulled out.

Fig. 4 is a schematic perspective view of the tempered glass removed in fig. 3.

Fig. 5 is a partial perspective view of the edge chamfering machine.

Fig. 6 is a front view of two grinding wheels simultaneously chamfering four sides of two tempered glasses according to the present invention.

FIG. 7 is a front view of the two-way pusher mechanism of the present invention after driving the grinding wheel to switch positions.

Fig. 8 is a partial perspective view of the first double-glazing holder.

Fig. 9 is a partial perspective view of the double-layer glass holder.

Fig. 10 is a perspective view of the upper supporting seat.

Fig. 11 is a perspective view of the lower support base.

Fig. 12 is a perspective view of the side clamping plate and the extension plate in a connected state.

Fig. 13 is a schematic perspective view of the lower support base in a fixed state and the side clamping plate and the extension plate in a connected state.

Fig. 14 is a schematic perspective view of the double-glazing holder of the present invention after rotation.

Fig. 15 is a schematic perspective view of the two-way thrust mechanism of the present invention.

Description of reference numerals: 1-double-layer glass clamping seat; 1 a-an upper support; 1a 1-middle support plate one; 1a 2-extension plate; 1a 3-displacement slide; 1a 4-guide slide; 1a 5-guide pillar III; 1 b-a lower support seat; 1b 1-middle supporting plate II; 1b 2-guide pillar two; 1b 3-angle iron; 1b 4-wheel seat; 1b 5-a locking mechanism; 1 c-mounting a base; 1 d-side clamping plate; 1d 1-connecting plate; 1 e-adjusting screws; 1 f-adjusting the nut; 1 h-connecting a plate; 1 j-guide post one; 2-toughened glass; 3-grinding the wheel; 3 a-upper conical surface; 3 b-lower conical surface; 4-transposition rotating mechanism; 5-moving the chamfering mechanism; 6-a grinding wheel rotating mechanism; 7-a bidirectional pushing mechanism; 7 a-a turning bar; 7 b-a rotary drive mechanism; 7 c-a rotating shaft; 7 d-mounting seat; 8-a horizontal pushing mechanism; 9-nozzle.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

As shown in fig. 1 to 7, the invention provides a tempered glass production device, which comprises a double-layer glass holder 1 and an edge chamfering machine for chamfering tempered glass 2, wherein the double-layer glass holder 1 comprises an upper support seat 1a, a lower support seat 1b, an installation base 1c and at least two side clamping plates 1d, the upper support seat 1a is positioned above the lower support seat 1b, the lower support seat 1b is installed on the installation base 1c, the lower support seat 1b can be fixedly installed or slidably installed, the upper support seat 1a is fixedly installed on the installation base 1c, the tempered glass 2 can be placed on the tops of the upper support seat 1a and the lower support seat 1b, the two side clamping plates 1d are used for clamping two sides of the tempered glass 2 in the X direction, the side clamping plates 1d can be installed on the installation base 1c in the X direction, the edge chamfering machine comprises two grinding wheels 3 for simultaneously chamfering two sides of the tempered glass 2, and the two grinding wheels 3 are respectively positioned on two sides of the tempered glass 2 which are symmetrical to each other.

As shown in fig. 6, when the outer side ends of the two layers of toughened glass 2 are chamfered, the upper tapered surface 3a of each grinding wheel 3 contacts the top end of the upper layer of toughened glass 2, and the lower tapered surface 3b of each grinding wheel 3 contacts the bottom end of the lower layer of toughened glass 2; and then make two toughened glass 2 can utilize the structural advantage of self, chamfer the four sides simultaneously, save the operating time of equipment.

As shown in fig. 7, when the top end of the lower layer of the tempered glass 2 is chamfered, the upper tapered surface 3a comes into contact with the top end of the lower layer of the tempered glass 2.

As shown in fig. 7, when the bottom end of the upper layer of the tempered glass 2 is chamfered, the lower tapered surface 3b comes into contact with the bottom end of the upper layer of the tempered glass 2. After utilizing the advantage of toughened glass 2, under the circumstances of not changing the cutter, can 2 remaining positions of toughened glass polish, and two polish wheels 3 polish one side of two toughened glass 2 respectively to two remaining both sides or two polish wheels 3 of a toughened glass 2 at every turn.

When the thickness of toughened glass 2 increases, if the high position of going up supporting seat 1a and lower support seat 1b can not change, will make 3 unable advantage of utilizing of self of polishing wheel polish four sides, in order to let 3 of polishing wheel continue to utilize the advantage of self, as shown in fig. 8, the fixed two at least adjusting screw 1e that are provided with in bottom of going up supporting seat 1a, be provided with the connecting plate 1h that supplies adjusting screw 1e to install on installation base 1c, the meshing is provided with adjusting nut 1f on adjusting screw 1 e's the outer fringe, adjusting nut 1 f's bottom and connecting plate 1 h's top contact. When toughened glass 2's thickness increases, through rotating adjusting nut 1f for adjusting screw 1e drives supporting seat 1a and descends, makes and places toughened glass 2 on supporting seat 1a and carries out the undercarriage, and wheel 3 of polishing can continue to utilize the advantage of self to polish the four sides promptly. The bottom of the upper supporting seat 1a can be provided with a guide post 1j, and the connecting plate 1h is provided with a sliding hole in sliding connection with the guide post 1j, so that the support of the upper supporting seat 1a is enhanced.

As shown in fig. 9, the outer sides of the two side clamping plates 1d are provided with connecting plates 1d1, the mounting base 1c is provided with a plurality of adjusting screw holes connected with the connecting plates 1d1, the adjusting screw holes are uniformly distributed along the X direction, that is, when the side clamping plate 1d is adjusted, the connecting positions of the connecting plates 1d1 and the adjusting screw holes are changed, so that the position adjustment of the side clamping plate 1d is realized, and various kinds of glass can be clamped.

As shown in fig. 10, the upper supporting seat 1a includes a first middle supporting plate 1a1 and two extending plates 1a2 respectively located at two sides of the first middle supporting plate 1a1, a displacement sliding plate 1a3 is disposed at the bottom of each extending plate 1a2, a guiding sliding seat 1a4 slidably connected to the displacement sliding plate 1a3 is disposed at the bottom of the first middle supporting plate 1a1, and a contact surface between the displacement sliding plate 1a3 and the guiding sliding seat 1a4 is roughly configured, so that a friction force is generated between the displacement sliding plate 1a3 and the guiding sliding seat 1a4, that is, when the extending plate 1a2 is pulled out, the displacement sliding plate 1a3 cannot easily slide on the guiding sliding seat 1a 4. Support through middle part backup pad 1a1 middle part to toughened glass 2, to the toughened glass 2 of different width, can continue to keep supporting toughened glass 2 through extension board 1a2, reduce and take place cracked possibility when polishing.

In order to facilitate the placement of the lower layer of the tempered glass 2 by a worker, as shown in fig. 3, 4 and 11, the lower supporting seat 1b can be slidably installed on the installation base 1c along the Y direction, the lower supporting seat 1b is structurally the same as the upper supporting seat 1a, the lower supporting seat 1b comprises a middle supporting plate two 1b1 and a guide post two 1b2 installed at the bottom of the middle supporting plate two 1b1, a sliding seat slidably connected with the guide post two 1b2 is arranged on the installation base 1c, so that the lower supporting seat 1b can be drawn out from the bottom of the upper supporting seat 1a, the worker can place the tempered glass 2 on the top of the middle supporting plate two 1b1, the bottom of the middle supporting plate two 1b1 is provided with an angle iron 1b3, a wheel seat 1b4 slidably connected with the angle iron 1b3 is arranged on the installation base 1c, the number of the wheel seats 1b4 is multiple, the multiple wheel seats 1b4 are used for supporting the middle supporting plate two 1b1, the middle supporting plate two 1b1 is prevented from bending deformation due to the gravity of the tempered glass 2, a fixed guide post 2 is further arranged on the installation base 1c, and a clamping groove 5 is fixed on the push rod, and the middle clamping groove 1b and the push rod 1b, and the clamping mechanism is provided with the clamping plate 1b, and the push rod 1b, and the clamping mechanism, and the clamping plate 1b, and the clamping mechanism is provided with the clamping plate 1 b. When the lower support seat 1b is located below the upper support seat 1a, the two side clamping plates 1d are installed, and then the two pieces of toughened glass 2 are clamped and fixed simultaneously.

In order to fix the extension plate 1a2, so that the extension plate 1a2 is no longer fixed only by friction, as shown in fig. 12, the bottom of the extension plate 1a2 is provided with a guide post three 1a5, and the side clamping plate 1d is provided with a connecting slide seat in sliding connection with the guide post three 1a5, since the extension plate 1a2 needs to be adjusted up and down when the thickness of the tempered glass 2 changes, that is, the connection between the extension plate 1a2 and the side clamping plate 1d is realized through the guide post three 1a5 and the connecting slide seat. Also, it is conceivable that the lower support base 1b is fixedly connected to the mounting base 1c, instead of being slidably connected, as shown in fig. 13, the bottom of the side clamping plate 1d may be provided with a fixing plate connected to the extension plate on the lower support base 1b, i.e., such that the extension plate on the lower support base 1b is also no longer fixed only by friction.

As shown in fig. 14, the edge chamfering machine includes a transposition rotating mechanism 4, a moving chamfering mechanism 5, two grinding wheel rotating mechanisms 6 and a bidirectional pushing mechanism 7, the double-layer glass holder 1 is fixedly mounted on a rotating seat of the transposition rotating mechanism 4, the transposition rotating mechanism 4 is used for driving the double-layer glass holder 1 to rotate ninety degrees, so that two pieces of toughened glass 2 placed on the double-layer glass holder 1 also rotate ninety degrees, that is, the other two sides of the toughened glass 2 can be chamfered, the transposition rotating mechanism 4 is fixedly mounted on a horizontal displacement seat of the moving chamfering mechanism 5, the moving chamfering mechanism 5 is used for driving the double-layer glass holder 1 to horizontally displace, so that the toughened glass 2 placed on the double-layer glass holder 1 also displaces, the two grinding wheel rotating mechanisms 6 are used for driving the two grinding wheels 3 to rotate, the two grinding wheel rotating mechanisms 6 are respectively mounted on horizontal pushing ends of the two horizontal pushing mechanisms 8, the horizontal pushing mechanism 8 is used for pushing the grinding wheels 6 to approach or be far away from the toughened glass 2, the bidirectional pushing mechanism 7 is arranged below the transposition rotating mechanism 4, two ends of the bidirectional pushing mechanism 7 are respectively connected with the two horizontal pushing mechanisms 8, when one end of the bidirectional pushing mechanism 7 pushes the other bidirectional pushing mechanism 8 to move upwards, and the other bidirectional pushing mechanism 8 moves downwards.

As shown in fig. 15, the bidirectional pushing mechanism 7 includes a rotating rod 7a, a rotation driving mechanism 7b, a rotating shaft 7c and two installation seats 7d, the middle portion of the rotating rod 7a is hinged to the rotating shaft 7c, the rotation driving mechanism 7b is used for pushing the rotating rod 7a to rotate along the rotating shaft 7c, the two horizontal pushing mechanisms 8 are respectively installed on the two installation seats 7d, the installation seats 7d are vertically slidably installed on a sliding seat, the sliding seat includes a fourth guide pillar, the fourth guide pillar is fixedly installed at the bottom of the installation seat 7d, a guide sliding seat slidably connected with the fourth guide pillar is arranged on the ground, and two ends of the rotating rod 7a are respectively hinged to the two installation seats 7 d. The rotating rod 7a is pushed to rotate by the rotary driving mechanism 7b, so that the mounting seat 7d on one side drives the horizontal pushing mechanism 8 to move upwards, and the mounting seat 7d on the other side drives the horizontal pushing mechanism 8 to move downwards. And through this kind of mode of promoting two horizontal pushing mechanism 8 staggered movement for two emery wheels 3 can not polish same toughened glass 2, avoid stress concentration, lead to toughened glass 2 to break.

As shown in fig. 5, at least two nozzles 9 are arranged on the side surface of the grinding wheel 3, the nozzles 9 are fixedly mounted on the grinding wheel rotating mechanism 6 through a water baffle, the water baffle is used for blocking splashed water splash, and the two nozzles 9 are respectively used for washing the contact position of the upper conical surface 3a and the toughened glass 2 and the contact position of the lower conical surface 3b and the toughened glass 2. Through washing of rivers, when polishing, reduce the damage to glass to nozzle 9 is four, adopts four nozzles 9, all washes the both sides of contact position, more is favorable to protecting toughened glass 2.

The production process of the toughened glass production device comprises the following steps:

the method comprises the following steps: pulling out the lower support seat 1b, placing one piece of toughened glass 2 on the lower support seat 1b, resetting and fixing the lower support seat 1b, placing the other piece of toughened glass 2 on the upper support seat 1a, clamping and fixing the piece of toughened glass 2 through the two side clamping plates 1d, and fixedly connecting the side clamping plates 1d with the mounting base 1 c;

step two: the horizontal pushing mechanism 8 pushes the grinding wheel rotating mechanism 6 to be close to the toughened glass 2, the grinding wheel rotating mechanism 6 drives the grinding wheel 3 to rotate, so that the upper conical surface 3a and the lower conical surface 3b are in contact with the two layers of toughened glass 2 for grinding, and the chamfering mechanism 5 is moved to drive the toughened glass 2 to horizontally displace, so that the grinding wheel 3 chamfers the outer side ends of the two layers of toughened glass 2;

step three: the horizontal pushing mechanism 8 is reset and returned, the bidirectional pushing mechanism 7 drives and adjusts the positions of the two polishing wheels 3, the horizontal pushing mechanism 8 pushes the polishing wheel rotating mechanism 6 to be close to the toughened glass 2, the upper conical surface 3a is contacted with the top end of the lower layer of toughened glass 2, the lower conical surface 3b is contacted with the bottom end of the upper layer of toughened glass 2, and the movable chamfering mechanism 5 drives the toughened glass 2 to horizontally move, so that the two polishing wheels 3 respectively chamfer the inner sides of the two layers of toughened glass 2 at a single edge;

step four: repeating the third step, wherein the rotating direction of the bidirectional pushing mechanism 7 is reverse;

step five: and rotating the transposition rotating mechanism 4 by ninety degrees, namely rotating the two pieces of toughened glass 2 by ninety degrees, repeating the second step, the third step and the fourth step, and chamfering the other two sides of the toughened glass 2.

It will be apparent to those skilled in the art that various changes and modifications may be made in the present invention without departing from the spirit and scope of the invention. Thus, if such modifications and variations of the present invention fall within the scope of the claims of the present invention and their equivalents, the present invention is also intended to include such modifications and variations.

Claims (10)

1. Toughened glass apparatus for producing, its characterized in that: the double-layer glass chamfering machine comprises a double-layer glass clamping seat (1) and an edge chamfering machine for chamfering toughened glass (2), wherein the double-layer glass clamping seat (1) comprises an upper supporting seat (1 a), a lower supporting seat (1 b), an installation base (1 c) and at least two side clamping plates (1 d), the upper supporting seat (1 a) is located above the lower supporting seat (1 b), the lower supporting seat (1 b) is installed on the installation base (1 c), the upper supporting seat (1 a) is fixedly installed on the installation base (1 c), the toughened glass (2) can be placed at the tops of the upper supporting seat (1 a) and the lower supporting seat (1 b), the two side clamping plates (1 d) are used for clamping two sides of the two toughened glass (2) in X direction distribution, the side clamping plates (1 d) can be installed on the installation base (1 c) in X direction adjustment, the edge chamfering machine comprises two polishing wheels (3) for chamfering two sides of the toughened glass (2), and the two polishing wheels (3) are respectively located on two sides of the toughened glass (2) which are symmetrical to each other;

when the outer side end of the two layers of toughened glass (2) is chamfered, the upper conical surface (3 a) of each grinding wheel (3) is contacted with the top end of the upper layer of toughened glass (2), and the lower conical surface (3 b) of each grinding wheel (3) is contacted with the bottom end of the lower layer of toughened glass (2);

when the top end of the lower layer toughened glass (2) is chamfered, the upper conical surface (3 a) is contacted with the top end of the lower layer toughened glass (2);

when the bottom end of the upper layer of toughened glass (2) is chamfered, the lower conical surface (3 b) is contacted with the bottom end of the upper layer of toughened glass (2).

2. A tempered glass production apparatus as claimed in claim 1, wherein: the bottom of the upper supporting seat (1 a) is fixedly provided with at least two adjusting screws (1 e), the mounting base (1 c) is provided with a connecting plate (1 h) for the adjusting screws (1 e) to be mounted, the outer edge of each adjusting screw (1 e) is meshed with an adjusting nut (1 f), and the bottom of each adjusting nut (1 f) is in contact with the top of the corresponding connecting plate (1 h).

3. A tempered glass production apparatus as claimed in claim 2, wherein: the outer sides of the two side clamping plates (1 d) are respectively provided with a connecting plate (1 d 1), the mounting base (1 c) is provided with a plurality of adjusting screw holes connected with the connecting plates (1 d 1), and the adjusting screw holes are uniformly distributed along the X direction.

4. A tempered glass producing apparatus as claimed in claim 3, wherein: go up supporting seat (1 a) and include middle part backup pad (1 a 1) and two extension boards (1 a 2) that are located middle part backup pad (1 a 1) both sides respectively, the bottom of every extension board (1 a 2) all is provided with displacement slide (1 a 3), the bottom of middle part backup pad (1 a 1) is provided with direction slide (1 a 4) with displacement slide (1 a 3) sliding connection, displacement slide (1 a 3) and the contact surface of direction slide (1 a 4) personally submit coarse setting.

5. The tempered glass production apparatus of claim 4, wherein: the lower supporting seat (1 b) can be installed on the installation base (1 c) in a sliding mode along the Y direction, the lower supporting seat (1 b) is identical to the upper supporting seat (1 a) in structure, the lower supporting seat (1 b) comprises a middle supporting plate II (1 b 1) and a guide pillar II (1 b 2) installed at the bottom of the middle supporting plate II (1 b 1), a sliding seat in sliding connection with the guide pillar II (1 b 2) is arranged on the installation base (1 c), angle iron (1 b 3) is arranged at the bottom of the middle supporting plate II (1 b 1), a wheel seat (1 b 4) in sliding connection with the angle iron (1 b 3) is arranged on the installation base (1 c), and a locking mechanism (1 b 5) used for fixing the guide pillar II (1 b 2) is further arranged on the installation base (1 c).

6. A tempered glass production apparatus as claimed in claim 4 or 5, wherein: the bottom of the extension plate (1 a 2) is provided with a third guide post (1 a 5), and the side clamping plate (1 d) is provided with a connecting sliding seat which is in sliding connection with the third guide post (1 a 5).

7. A tempered glass production apparatus as claimed in claim 1 or 5, wherein: the edge chamfering machine comprises a transposition rotating mechanism (4), a moving chamfering mechanism (5), two grinding wheel rotating mechanisms (6) and a bidirectional pushing mechanism (7), wherein a double-layer glass clamping seat (1) is fixedly installed on a rotating seat of the transposition rotating mechanism (4), the transposition rotating mechanism (4) is used for driving the double-layer glass clamping seat (1) to rotate ninety degrees, the transposition rotating mechanism (4) is fixedly installed on a horizontal displacement seat of the moving chamfering mechanism (5), the moving chamfering mechanism (5) is used for driving the double-layer glass clamping seat (1) to horizontally displace, the two grinding wheel rotating mechanisms (6) are used for respectively driving two grinding wheels (3) to rotate, the two grinding wheel rotating mechanisms (6) are respectively installed at horizontal pushing ends of the two horizontal pushing mechanisms (8), the horizontal pushing mechanism (8) is used for pushing the grinding wheel rotating mechanism (6) to be close to or far away from toughened glass (2), the bidirectional pushing mechanism (7) is arranged below the transposition rotating mechanism (4), two ends of the bidirectional pushing mechanism (7) are respectively connected with the two horizontal pushing mechanisms (8), and when one end of the bidirectional pushing mechanism (7) pushes one horizontal pushing mechanism (8) to move upwards, and the other bidirectional pushing mechanism (7) pushes the other horizontal pushing mechanism (8) to move downwards.

8. A tempered glass producing apparatus as claimed in claim 7, wherein: two-way pushing mechanism (7) include bull stick (7 a), rotary driving mechanism (7 b), pivot (7 c) and two mount pads (7 d), the middle part and pivot (7 c) of bull stick (7 a) are articulated, rotary driving mechanism (7 b) are used for promoting bull stick (7 a) rotatory along pivot (7 c), two horizontal pushing mechanism (8) are installed respectively on two mount pads (7 d), but mount pad (7 d) vertical gliding install in the seat that slides, the both ends of bull stick (7 a) are articulated with two mount pads (7 d) respectively.

9. A tempered glass producing apparatus as claimed in claim 7, wherein: the side of the grinding wheel (3) is provided with a plurality of nozzles (9), the nozzles (9) are fixedly installed on the grinding wheel rotating mechanism (6) through a water baffle, the water baffle is used for blocking splashed spray, and the nozzles (9) are respectively used for washing the contact positions of the upper conical surface (3 a) and the toughened glass (2) and the contact positions of the lower conical surface (3 b) and the toughened glass (2).

10. The production process of the tempered glass production device according to claim 8, characterized in that: the method comprises the following steps:

the method comprises the following steps: pulling out the lower supporting seat (1 b), placing one piece of toughened glass (2) on the lower supporting seat (1 b), resetting and fixing the lower supporting seat (1 b), placing the other piece of toughened glass (2) on the upper supporting seat (1 a), clamping and fixing the piece of toughened glass (2) through the two side clamping plates (1 d), and fixedly connecting the side clamping plates (1 d) with the mounting base (1 c);

step two: the grinding wheel rotating mechanism (6) is pushed to be close to the toughened glass (2) through the horizontal pushing mechanism (8), the grinding wheel rotating mechanism (6) drives the grinding wheel (3) to rotate, the upper conical surface (3 a) and the lower conical surface (3 b) are in contact with the two toughened glass (2) for grinding, and the movable chamfering mechanism (5) drives the toughened glass (2) to horizontally displace, so that the grinding wheel (3) chamfers the outer side end parts of the two layers of toughened glass (2);

step three: the horizontal pushing mechanism (8) resets and returns, the two-way pushing mechanism (7) drives and adjusts the positions of the two polishing wheels (3), the horizontal pushing mechanism (8) pushes the polishing wheel rotating mechanism (6) to be close to the toughened glass (2), the upper conical surface (3 a) is contacted with the top end of the lower layer of toughened glass (2), the lower conical surface (3 b) is contacted with the bottom end of the upper layer of toughened glass (2), and then the movable chamfering mechanism (5) drives the toughened glass (2) to horizontally move, so that the two polishing wheels (3) respectively chamfer the inner single edges of the two layers of toughened glass (2);

step four: repeating the third step, wherein the rotating direction of the bidirectional pushing mechanism (7) is reverse;

step five: and (5) rotating the transposition rotating mechanism (4) by ninety degrees, namely rotating the two toughened glass (2) by ninety degrees, repeating the second step, the third step and the fourth step, and chamfering the other two sides of the toughened glass (2).

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