CN110466071B

CN110466071B - Production process of high-performance building glass

Info

Publication number: CN110466071B
Application number: CN201910877765.6A
Authority: CN
Inventors: 查焰林
Original assignee: Hangzhou Zhonglu New Material Co Ltd
Current assignee: Shenzhen Liaoyuan Industrial Co ltd
Priority date: 2019-09-17
Filing date: 2019-09-17
Publication date: 2020-04-03
Anticipated expiration: 2039-09-17
Also published as: CN111347569B; CN111347569A; CN110466071A

Abstract

The invention discloses a production process of high-performance building glass, which comprises the following steps: (1) two pieces of glass are stacked up and down and placed together and placed on processing equipment, before the glass is placed on the processing equipment, a driving piece is adjusted to a first position, a fixing device is driven to be adjusted to an angle at which the glass is convenient to place, and then double-layer glass is fixed on the fixing device; (2) the driving piece is adjusted to a second position from a first position, and the punching device performs punching operation on four end angles of the fixed glass; (3) the driving piece is adjusted to a third position from the second position, and the gluing device is used for gluing the side edges of the two pieces of glass to obtain the double-layer glass. According to the invention, the positioning, punching and gluing are adopted for processing, so that the holes on the two pieces of glass can be completely aligned, and the high performance of the processed double-layer glass is ensured.

Description

Production process of high-performance building glass

Technical Field

The invention belongs to the technical field of building material processing, and particularly relates to a production process of high-performance building glass.

Background

Glass is the most common material used in doors and windows, and because people basically select heating or air conditioning indoors in winter, the temperature difference between the front surface and the rear surface of the traditional single-layer glass is large, and the glass is easy to break. In order to solve the problem, double-layer glass appears in the prior art, the double-layer glass is formed by bonding two pieces of glass through glass cement, and the condition that a single piece of glass is broken due to uneven heating of two sides is effectively avoided due to the sealed space between the two glass plates.

The double-layer glass needs to be punched in the machining process, and the existing machining mode generally comprises the steps of respectively punching holes in two pieces of glass, mutually aligning the holes in the two pieces of glass, coating a layer of glass cement on the outer side walls of the two pieces of glass by using the glass cement, and adhering the two pieces of glass together. However, the processing mode has lower efficiency, the conditions of incomplete hole alignment and dislocation of the bonded glass are easy to occur, the processing precision is low, and the quality of the processed double-layer glass is poor.

Disclosure of Invention

The invention provides a production process of high-performance building glass with high processing efficiency and high product quality for overcoming the defects of the prior art.

In order to achieve the purpose, the invention adopts the following technical scheme: a production process of high-performance building glass comprises the following steps:

(1) the processing equipment comprises a fixing device, a punching device, a gluing device, a driving piece and a displacement driving piece, wherein the fixing device is used for simultaneously positioning two pieces of glass, the punching device is used for punching the positioned two pieces of glass, the gluing device is used for gluing the side edge joint of the two pieces of glass, the displacement driving piece is connected with the driving piece, and is provided with a first position, a second position and a third position and used for driving the driving piece to be converted at the first position, the second position and the third position; when the driving piece is at the first position, the driving piece and the fixing device are subjected to position adjustment; when the driving piece is at the second position, the driving piece is used for driving the punching device to adjust the position; when the driving part is positioned at the third position, the driving part is used for driving the gluing device to adjust the position; before the glass is placed on the processing equipment, the driving piece is adjusted to a first position, the fixing device is driven to be adjusted to an angle at which the glass is convenient to place, and then the double-layer glass is fixed on the fixing device;

(2) the driving piece is adjusted to a second position from a first position, and the punching device performs punching operation on four end angles of the fixed glass;

(3) the driving piece is adjusted to a third position from the second position, and the gluing device is used for gluing the side edges of the two pieces of glass to obtain the double-layer glass.

According to the method, the two pieces of glass are positioned through the fixing device, and then are punched through the punching device directly at the same time, so that the two pieces of glass are not required to be subjected to hole alignment operation, and the holes in the two pieces of glass can be completely aligned; after punching is finished, gluing the glass by a gluing device in a positioned state, so that the two pieces of glass are firmly bonded together, the two pieces of glass are prevented from shifting in position in the gluing process, the quality of the processed glass is ensured, the performance of the double-layer glass is improved, and the processed double-layer glass is ensured to maintain high performance; under the structure, the starting of different operations can be realized through the position adjustment of the driving piece, so that the operations of fixing, punching and gluing two pieces of glass can be realized on the same equipment, the automatic processing is realized, the working efficiency is high, the investment cost of the equipment is low, and the occupied space is small; and the same power source driving equipment is used for punching, gluing and positioning, so that the investment of the power source is greatly reduced, and the cost and the energy consumption are reduced.

The fixing device comprises an upper fixing part and a lower fixing part, and the upper fixing device comprises an upper rotary table, an upper sucker piece fixedly arranged on the upper rotary table and a cylinder connected with the upper sucker piece to drive the upper sucker piece to move up and down; the lower fixing part comprises a lower rotary table, a lower sucker piece fixedly arranged on the lower rotary table, a rotating ring positioned between the lower rotary table and the upper rotary table, and two clamping pieces arranged on the rotating ring, wherein the upper rotary table, the lower rotary table and the rotating ring are connected through a plurality of connecting columns, the two clamping pieces comprise telescopic rods and clamping jaws arranged on the end parts of the telescopic rods, and the clamping jaws are arranged in an L-shaped structure and can be used for abutting and limiting the end angles of the glass; the upper turntable and the lower turntable synchronously rotate, and the upper sucker piece and the lower sucker piece are respectively arranged on the upper turntable and the lower turntable, so that when the upper turntable and the lower turntable rotate, glass rotates along with the rotation of the upper turntable and the lower turntable, the position movement between the sucker piece and the glass in the rotating process of the turntables is effectively avoided, and the stable clamping of the glass is realized; the clamping jaw directly pushes up the end angle position of the glass, so that the effective positioning of the glass is realized, the glass is ensured not to move in the punching or gluing operation, and the processing precision of the glass is improved.

The punching device comprises a positioning rotary disc which can rotate relative to the air cylinder, a punching arm which is fixedly arranged at the edge of the positioning rotary disc, a lifting driving piece which is used for driving the punching arm to stretch and retract, a rotating driving piece which is used for driving the punching arm to rotate, a fragment blocking part which is matched with the punching arm and a punching seat which is arranged on the lower rotary disc and is matched with the punching arm; the piece that splashes that the in-process that punches produced will be blockked by barrier unit, has effectively avoided the piece to splash to the glass lateral part on, has avoided the sweeps to be retained in the glue when the rubber coating.

The debris blocking component comprises a blocking cover which can rotate relative to the punching arm and is sleeved outside the punching arm, a sealing ring arranged at the lower part of the blocking cover and an extensible member connected with the blocking cover, the extensible member comprises an inner sleeve and an outer sleeve sleeved outside the inner sleeve, the upper end of the outer sleeve is connected with the rotary driving member, the upper end of the inner sleeve can move up and down and is penetrated in the outer sleeve, and the lower end of the inner sleeve is fixedly connected with the blocking cover; the punching arm is provided with an upper arm and a lower arm, the diameter of the upper arm is smaller than that of the lower arm, and the blocking cover is provided with an opening through which the upper arm passes; under the above-mentioned structure, the arm that punches moves down's in-process keeps off the cover and will hug closely all the time to glass on the surface, guarantees to carry out effectual cover to the position of punching and establishes, avoids the piece that produces among the drilling process to outwards splash, further reduces the piece and splashes to the possibility of two-layer glass's gap department, promotes the double glazing's that processing obtained quality.

The number of the punching seats is four, and the punching seats are respectively arranged corresponding to four end angles of the glass; the punching seat comprises a seat body which is rotatably arranged on the lower rotary table, two arc-shaped supporting parts which are fixedly arranged on one side of the seat body, a charging chute which is formed between the two arc-shaped supporting parts, and supporting arms which are arranged on the seat body and are respectively connected with the two arc-shaped supporting parts, wherein the supporting arms, the arc-shaped supporting parts and the seat body are arranged in a triangular structure; the cross section of the charging chute is in a structure with a small upper part and a large lower part, a rotating shaft penetrating out of the lower part of the lower rotating disc is fixedly connected onto the base body, a gear piece is fixedly connected onto the rotating shaft, a motor is arranged on the lower rotating disc, and an output shaft of the motor penetrates out of the lower part of the lower rotating disc and is fixedly connected with a circular gear; the lower surface of the lower turntable is rotatably provided with a transmission gear, and the gear piece and the circular gear are respectively meshed with the transmission gear; the chips generated in the drilling process on the glass can directly fall downwards through the blanking groove, and the arc-shaped supporting part can effectively manufacture the glass, so that the glass is prevented from being broken or the drilling position is prevented from being deviated due to the fact that the glass is not effectively supported in the drilling process, and the glass drilling effect is improved; the supporting part is arc-shaped, the gear part is driven to rotate by the motor to drive the arc-shaped supporting part to rotate around the rotating shaft, so that effective support of the arc-shaped supporting part to different positions of the glass is adjusted, and under the condition that the same arc-shaped supporting part is supported, drilling can be carried out on the glass in the radial direction and the circumferential direction of the angle of the end in a supporting state, synchronous adjustment of the four end angles is realized, the adjustment is fast and convenient, and the supporting effect is stable; carry out triangular supports to the arc supporting part through the brace arm, disperse the atress of arc convex part, guarantee the arc convex part to glass's stable stay, the supporting effect is more good, and the brace arm can not lead to the fact the influence to the clastic blanking of glass.

The glue applying device comprises a rotating disc, a glue applying arm, a glue applying head, a glue storing cavity, a glue discharging longitudinal seam and a glue discharging transverse seam, wherein the rotating disc can rotate relative to the air cylinder; with the structure, in the gluing operation process, the gluing head can be tightly pushed to the side position of the stack of the two layers of glass under the action of gas in the air cavity, and the rotating disc can drive the gluing head to rotate around the outer side of the glass by one circle, so that the structure can finish automatic gluing on the outer side wall of the glass by one circle, and has high automation degree and high working efficiency; and the glue outlet longitudinal seam and the glue outlet transverse seam are arranged on the glue applying head, the position of the glue outlet transverse seam corresponds to the gap of the two layers of glass, and the glue thickness of the glue which can be allowed to exist at the position corresponding to the glue outlet transverse seam is thicker than that of the glue on the side surface of the glass, so that the bonding of the gap of the two layers of glass is more firm.

The driving part comprises a power source and an output gear connected with an output shaft of the power source, a tooth socket for the output gear to be clamped and meshed with the output gear is arranged on the upper rotary disc, a plurality of convex teeth are arranged on the outer side wall of the positioning rotary disc, a middle shaft is rotatably arranged on the upper rotary disc, the upper end of the middle shaft is connected with a first transmission gear, the lower end of the middle shaft is connected with a second transmission gear, and the second transmission gear is meshed with the convex teeth; a plurality of driving teeth are uniformly distributed on the outer side wall of the rotating disc at intervals, a gear shaft is rotatably arranged on the upper rotating disc, the upper end of the gear shaft is connected with a third transmission gear, the lower end of the gear shaft is connected with a fourth transmission gear, and the fourth transmission gear is meshed with the driving teeth; when the driving piece is positioned at the first position, the output gear is meshed with the tooth groove to drive the upper rotary disc to rotate; when the driving piece is positioned at the second position, the output gear is meshed with the first transmission gear; when the driving piece is positioned at the third position, the output gear is meshed with the third transmission gear; under the structure, different parts can be driven to act by moving the driving part to different positions, so that the investment of a power source is reduced, and the energy consumption is saved; and a plurality of processing procedures are all carried out on one device, so that the investment of the device is reduced.

The position adjusting turntable is provided with a radial position adjusting component for adjusting the position of the punching arm on the position adjusting turntable; and then the position of the punching arm can move in the radial direction relative to the positioning turntable, so that the punching range is improved.

The radial positioning component comprises a sliding chute arranged on the positioning rotary table, a sliding block which is fixedly arranged at the upper end of the punching arm and can slide in a reciprocating manner relative to the sliding chute, an adjusting bolt which is in threaded connection with the positioning rotary table and the end of which is abutted against the sliding block, and a spring of which one end is connected with the sliding block, the other end of the spring is connected with the inner wall of the sliding chute, and the cross sections of the sliding block and the sliding chute are of a T-shaped structure; simple structure, and simple and convenient adjustment operation.

According to the invention, the positioning, punching and gluing are carried out in sequence, so that the holes on the two pieces of glass can be completely aligned, and the high performance of the double-layer glass obtained by processing is ensured; and the same power source driving equipment is used for punching, gluing and positioning, so that the investment of the power source is greatly reduced, and the cost and the energy consumption are reduced.

Drawings

FIG. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a schematic perspective cross-sectional view of the present invention.

Fig. 3 is an enlarged view of a portion a in fig. 2.

Fig. 4 is an enlarged view at B in fig. 2.

Fig. 5 is an enlarged view at C in fig. 2.

FIG. 6 is a partial schematic view of the first embodiment of the present invention.

FIG. 7 is a second partial schematic view of the present invention.

Fig. 8 is a front view of the present invention.

Detailed Description

A production process of high-performance building glass comprises the following steps:

(1) stacking two pieces of glass up and down, and placing the two pieces of glass on a processing device, wherein the processing device comprises a fixing device for simultaneously positioning the two pieces of glass, a punching device for punching the positioned two pieces of glass, a gluing device for gluing the side edge joints of the two pieces of glass, a driving piece and a displacement driving piece 2 connected with the driving piece 1, the driving piece 1 is provided with a first position, a second position and a third position, and the displacement driving piece 2 is used for driving the driving piece to be converted at the first position, the second position and the third position; when the driving piece 1 is at the first position, the driving piece 1 and the fixing device are subjected to position adjustment; when the driving piece 1 is at the second position, the driving piece 1 is used for driving the punching device to perform position adjustment; when the driving part 1 is at the third position, the driving part 1 is used for driving the gluing device to adjust the position; before the glass is placed on the processing equipment, the driving piece is adjusted to a first position, the fixing device is driven to be adjusted to an angle at which the glass is convenient to place, and then the double-layer glass is fixed on the fixing device;

The driving part 1 comprises a power source 11 and an output gear 12 connected with an output shaft of the power source, and the displacement driving part is an air cylinder or a hydraulic rod or a hydraulic cylinder purchased from the market.

Specifically, the fixing device comprises an upper fixing part and a lower fixing part, wherein the upper fixing device comprises an upper rotary table 31, an upper sucker piece 32 fixedly arranged on the upper rotary table, and a cylinder 33 connected with the upper sucker piece to drive the upper sucker piece to move up and down; the lower fixing part comprises a lower rotary table 34, a lower suction disc piece 35 fixedly arranged on the lower rotary table, a rotating ring 36 positioned between the lower rotary table and the upper rotary table, and two clamping pieces 37 arranged on the rotating ring, the upper rotary table, the lower rotary table and the rotating ring 36 are connected through a plurality of connecting columns 38, the two clamping pieces 37 comprise telescopic rods 371 and clamping jaws 372 arranged on the end parts of the telescopic rods, and the clamping jaws 372 are arranged in an L-shaped structure and can be used for abutting and limiting the end corners of glass; the sucker piece is made of rubber and is integrally in the shape of a sucker; the telescopic link is the hydraulic stem that the purchase obtained on the market, and the clamping jaw is made for the metal, bonds on the terminal surface and has a layer of rubber to avoid clamping jaw and glass rigid contact.

The punching device comprises a positioning rotary table 41 which can rotate relative to the air cylinder, a punching arm 42 which is fixedly arranged at the edge of the positioning rotary table, a lifting driving piece 43 which is used for driving the punching arm to stretch and retract, a rotating driving piece 44 which is used for driving the punching arm to rotate, a fragment blocking part which is matched with the punching arm and a punching seat which is arranged on the lower rotary table and is matched with the punching arm; the lifting driving piece is an air cylinder or a hydraulic rod, the rotating driving piece is a motor, the punching arm is made of metal, and the lower end of the punching arm is in a pointed shape, so that drilling is facilitated.

The debris blocking component comprises a blocking cover 51 which can rotate relative to the punching arm and is sleeved outside the punching arm, a sealing ring 52 arranged at the lower part of the blocking cover and an expansion piece 53 connected with the blocking cover, the expansion piece 53 comprises an inner sleeve 531 and an outer sleeve 532 sleeved outside the inner sleeve, the upper end of the outer sleeve is connected with the rotating driving piece 44, the upper end of the inner sleeve 531 can vertically move and penetrate through the outer sleeve 532, and the lower end of the inner sleeve is fixedly connected with the blocking cover 51; the punching arm 42 is provided with an upper arm 421 and a lower arm 422, the diameter of the upper arm 421 is smaller than that of the lower arm 422, and the blocking cover 51 is provided with an opening for the upper arm to pass through; the blocking cover is made of plastic, the sealing ring is made of rubber and is adhered to the lower surface of the blocking cover, the cross section of the sealing ring is preferably of a U-shaped structure, the sealing ring can play a role similar to a sucking disc and is attached to the surface of glass more tightly; the inner sleeve and the outer sleeve are made of plastics, and the inner sleeve and the outer sleeve are matched in a falling-proof way.

The number of the punching seats is four, and the punching seats are respectively arranged corresponding to four end angles of the glass; the punching seat comprises a seat body 61 which is rotatably arranged on the lower rotary disc, two arc-shaped supporting parts 62 which are fixedly arranged on one side of the seat body, a charging chute 63 which is formed between the two arc-shaped supporting parts, and supporting arms 64 which are arranged on the seat body and are respectively connected with the two arc-shaped supporting parts, wherein the supporting arms, the arc-shaped supporting parts and the seat body are arranged in a triangular structure; the cross section of the charging chute 63 is in a structure with a small top and a big bottom, a rotating shaft 611 penetrating out of the lower part of the lower rotating disc is fixedly connected to the base body 61, a gear piece 612 is fixedly connected to the rotating shaft, a motor 65 is arranged on the lower rotating disc, and an output shaft of the motor penetrates out of the lower part of the lower rotating disc 34 and is fixedly connected with a circular gear 651; a transmission gear 341 is rotatably arranged on the lower surface of the lower turntable 34, and the gear part 612 and the circular gear 651 are respectively meshed with the transmission gear 341; the gear piece, the circular gear and the transmission gear are all metal gears purchased and obtained on the market, and the structure is not repeated.

The gluing device comprises a rotating disc 71 which can rotate relative to the air cylinder, a gluing arm 72 arranged on the rotating disc, a gluing head 73, a glue storage cavity 74 arranged in the gluing head, a glue outlet longitudinal seam 75 and a glue outlet transverse seam 76 which are connected with the glue storage cavity, an air cavity 77 arranged at the lower part of the gluing arm, an air supply part 78 connected with the air cavity, a piston 79 with one end capable of reciprocating and penetrating in the air cavity, and the other end of the piston 79 is connected with the gluing head 73; the glue storage cavity is communicated with the glue storage cavity, and the glue storage cavity is communicated with the glue storage cavity; the air supply part is a small air pump and can directly pump air into the air cavity.

The upper rotary table 31 is provided with a tooth socket 311 for the output gear to be clamped and engaged with the output gear, the outer side wall of the position adjusting rotary table 41 is provided with a plurality of convex teeth 411, the upper rotary table 31 is rotatably provided with a middle shaft 412, the upper end of the middle shaft is connected with a first transmission gear 413, the lower end of the middle shaft is connected with a second transmission gear 414, and the second transmission gear 414 is engaged with the convex teeth 411; a plurality of driving teeth 711 are uniformly distributed on the outer side wall of the rotating disc 71 at intervals, a gear shaft 712 is rotatably arranged on the upper rotating disc 31, the upper end of the gear shaft is connected with a third transmission gear 713, the lower end of the gear shaft is connected with a fourth transmission gear 714, and the fourth transmission gear 714 is meshed with the driving teeth 711; when the driving piece is positioned at the first position, the output gear is meshed with the tooth groove to drive the upper rotary disc to rotate; when the driving piece is positioned at the second position, the output gear is meshed with the first transmission gear; when the driving piece is positioned at the third position, the output gear is meshed with the third transmission gear; the first, second, third and fourth transmission gears are all metal gears directly purchased from the market, and the structure is not repeated.

The positioning turntable 41 is provided with a radial positioning component for adjusting the position of the punching arm 42 on the positioning turntable; the radial positioning component specifically comprises a sliding chute 81 arranged on the positioning rotary table, a sliding block 82 which is fixedly arranged at the upper end of the punching arm and can slide to and fro relative to the sliding chute, an adjusting bolt 83 and a spring 84 of which one end is connected with the sliding block, the other end of the spring 84 is connected with the inner wall of the sliding chute 81, and the cross sections of the sliding block 82 and the sliding chute 81 are of T-shaped structures; the adjusting bolt 83 is screwed on the positioning rotary disc, the end part of the adjusting bolt penetrates into the sliding groove, and the end part of the adjusting bolt is abutted to the sliding block.

Claims

1. A production process of high-performance building glass is characterized by comprising the following steps: the method comprises the following steps: the processing equipment comprises a fixing device, a punching device, a gluing device, a driving piece and a displacement driving piece (2), wherein the fixing device is used for simultaneously positioning two pieces of glass, the punching device is used for punching the positioned two pieces of glass, the gluing device is used for gluing the side edge joint of the two pieces of glass, the displacement driving piece (2) is connected with the driving piece (1), the driving piece (1) is provided with a first position, a second position and a third position, and the displacement driving piece (2) is used for driving the driving piece to be converted at the first position, the second position and the third position; when the driving piece (1) is at the first position, the driving piece (1) can drive the fixing device to perform position adjustment; when the driving piece (1) is at the second position, the driving piece (1) is used for driving the punching device to perform position adjustment; when the driving piece (1) is at the third position, the driving piece (1) is used for driving the gluing device to adjust the position; before the glass is placed on the processing equipment, the driving piece is adjusted to a first position, the fixing device is driven to be adjusted to an angle at which the glass is convenient to place, and then the double-layer glass is fixed on the fixing device; the driving piece is adjusted to a second position from a first position, and the punching device performs punching operation on four end angles of the fixed glass; the driving piece is adjusted to a third position from the second position, and the gluing device is used for gluing the side edges of the two pieces of glass to obtain the double-layer glass.

2. The process for producing high-performance architectural glass according to claim 1, wherein: the fixing device comprises an upper fixing part and a lower fixing part, wherein the upper fixing part comprises an upper rotary table (31), an upper sucker piece (32) fixedly arranged on the upper rotary table, and a cylinder (33) connected with the upper sucker piece to drive the upper sucker piece to move up and down; fixed part is including lower carousel (34), set firmly lower sucking disc spare (35) on lower carousel, be located carousel down and go up swivel becket (36) between the carousel, locate two holders (37) on the swivel becket, upper and lower carousel and swivel becket (36) link to each other through a plurality of spliced poles (38), and two holders (37) include telescopic link (371) and locate clamping jaw (372) on the telescopic link tip, and the shape of this clamping jaw (372) is L type structure setting, can contradict spacingly to glass's end angle.

3. The process for producing high-performance architectural glass according to claim 2, wherein: the punching device comprises a position adjusting rotary table (41) capable of rotating relative to the air cylinder, a punching arm (42) fixedly arranged at the edge of the position adjusting rotary table, a lifting driving piece (43) used for driving the punching arm to stretch and retract, a rotating driving piece (44) used for driving the punching arm to rotate, a fragment blocking component matched with the punching arm and a punching seat matched with the punching arm and arranged on the lower rotary table.

4. The process for producing high performance architectural glass according to claim 3, wherein: the debris blocking component comprises a blocking cover (51) which can rotate relative to the punching arm and is sleeved outside the punching arm, a sealing ring (52) arranged at the lower part of the blocking cover and an expansion piece (53) connected with the blocking cover, the expansion piece (53) comprises an inner sleeve (531) and an outer sleeve (532) sleeved outside the inner sleeve, the upper end of the outer sleeve is connected with the rotating driving piece (44), the upper end of the inner sleeve (531) can vertically move and penetrate through the outer sleeve (532), and the lower end of the inner sleeve is fixedly connected with the blocking cover (51); the punching arm (42) is provided with an upper arm (421) and a lower arm (422), the diameter of the upper arm (421) is smaller than that of the lower arm (422), and an opening for the upper arm to pass through is formed in the blocking cover (51).

5. The process for producing high-performance architectural glass according to claim 4, wherein: the number of the punching seats is four, and the punching seats are respectively arranged corresponding to four end angles of the glass; the punching seat comprises a seat body (61) which is rotatably arranged on the lower rotary table, two arc-shaped supporting parts (62) which are fixedly arranged on one side of the seat body, a charging chute (63) which is formed between the two arc-shaped supporting parts, and supporting arms (64) which are arranged on the seat body and are respectively connected with the two arc-shaped supporting parts, wherein the supporting arms, the arc-shaped supporting parts and the seat body are arranged in a triangular structure; the cross section of the charging chute (63) is in a structure with a small upper part and a large lower part, a rotating shaft (611) penetrating out of the lower part of the lower rotating disc is fixedly connected onto the base body (61), a gear piece (612) is fixedly connected onto the rotating shaft, a motor (65) is arranged on the lower rotating disc, and an output shaft of the motor penetrates out of the lower part of the lower rotating disc (34) and is fixedly connected with a circular gear (651); the lower surface of the lower turntable (34) is rotatably provided with a transmission gear (341), and the gear piece (612) and the circular gear (651) are respectively meshed with the transmission gear (341).

6. The process for producing high performance architectural glass according to claim 5, wherein: the gluing device comprises a rotary disc (71) capable of rotating relative to the cylinder, a gluing arm (72) arranged on the rotary disc, a gluing head (73), a glue storage cavity (74) arranged in the gluing head, a glue outlet longitudinal seam (75) and a glue outlet transverse seam (76) connected with the glue storage cavity, an air cavity (77) arranged at the lower part of the gluing arm, an air supply part (78) connected with the air cavity, and a piston (79) with one end capable of reciprocating and penetrating into the air cavity, wherein the other end of the piston (79) is connected with the gluing head (73).

7. The process for producing high performance architectural glass according to claim 6, wherein: the driving piece (1) comprises a power source (11) and an output gear (12) connected with an output shaft of the power source, a tooth groove (311) for the output gear to be clamped and meshed with the output gear is formed in the upper turntable (31), a plurality of convex teeth (411) are arranged on the outer side wall of the positioning turntable (41), a middle shaft (412) is rotatably arranged on the upper turntable (31), the upper end of the middle shaft is connected with a first transmission gear (413), the lower end of the middle shaft is connected with a second transmission gear (414), and the second transmission gear (414) is meshed with the convex teeth (411); a plurality of driving teeth (711) are uniformly distributed on the outer side wall of the rotating disc (71) at intervals, a gear shaft (712) is rotatably arranged on the upper rotating disc (31), the upper end of the gear shaft is connected with a third transmission gear (713), the lower end of the gear shaft is connected with a fourth transmission gear (714), and the fourth transmission gear (714) is meshed with the driving teeth (711); when the driving piece is positioned at the first position, the output gear is meshed with the tooth groove to drive the upper rotary disc to rotate; when the driving piece is positioned at the second position, the output gear is meshed with the first transmission gear; when the driving piece is at the third position, the output gear is meshed with the third transmission gear.

8. The process for producing high performance architectural glass according to claim 3, wherein: the positioning turntable (41) is provided with a radial positioning component for adjusting the position of the punching arm (42) on the positioning turntable.

9. The process for producing high performance architectural glass according to claim 8, wherein: the radial positioning component comprises a sliding groove (81) arranged on the positioning rotary disc, a sliding block (82) which is fixedly arranged at the upper end of the punching arm and can slide in a reciprocating manner relative to the sliding groove, an adjusting bolt (83) which is in threaded connection with the positioning rotary disc and the end of which is abutted against the sliding block, and a spring (84) of which one end is connected with the sliding block, wherein the other end of the spring (84) is connected with the inner wall of the sliding groove (81), and the cross sections of the sliding block (82) and the sliding groove (81) are of a T-shaped structure.