CN217103610U - Novel inflation device of hollow glass plate press - Google Patents

Abstract

The utility model relates to the field of glass deep processing, in particular to a novel inflating device of a hollow glass plate press, which comprises a base, a fan component, a front plate welding frame, a front plate belt conveying component and a rear plate belt conveying component; a rear plate welding frame is arranged on the two groups of bases, a rear plate is arranged on the front side of the rear plate welding frame, and a glass in-place sensor is arranged on the rear plate; the front plate welding frame is arranged on the base in a sliding mode, and a vacuum chuck is arranged on the front plate welding frame; two groups of front plate conveying component mounting seats are arranged on the front plate belt conveying component; two groups of rear plate conveying component mounting seats are arranged on the rear plate belt conveying component, and an inflating component for inflating the hollow glass is arranged on the rear plate belt conveying component. The utility model discloses the structure is ingenious, and through changing the direction of giving vent to anger, it is higher to make the efficiency of aerifing, and continuous production is stable, and can be applicable to the aerifing of multilayer multicavity glass, has reduceed workman's intensity of labour simultaneously, has improved product quality and yield.

Description

Novel inflation device of hollow glass plate press

Technical Field

The utility model relates to a glass deep-processing field specifically is a novel aerating device of cavity glass plate press.

Background

When the argon is manually filled, because the cavity volume of the hollow glass cannot be accurately calculated, in actual production, the phenomenon that the air filling amount is not enough or the air filling amount is too much often occurs, and the resource waste is caused. At present, a plurality of enterprises in China are producing hollow glass plate presses, but the inflation mode is not ideal, and only single-cavity glass can be inflated, but with the improvement of the living standard of people in China, curtain wall glass develops towards the direction of multiple layers and multiple cavities, and the existing equipment cannot meet the requirements. The existing hollow glass inflation technology has the defects that during the inflation process, the gas flushed into the glass cavity is slowly flushed into the hollow glass cavity through several turns and then is pressed, the mode is simple and convenient compared with a manual inflation mode, the efficiency after flushing is low, the waste gas amount is large, and the argon content in the glass cavity cannot easily reach the expected value.

SUMMERY OF THE UTILITY MODEL

The utility model aims at solving the problems existing in the prior art and providing a novel inflating device which has more reasonable inflating function and can inflate the hollow glass plate press for single-cavity or multi-cavity hollow glass.

The technical scheme of the utility model: a novel inflation device of a hollow glass plate press comprises a base, a fan assembly, a front plate welding frame, a front plate belt conveying assembly and a rear plate belt conveying assembly;

the base is provided with two groups which are parallel to each other, a rear plate welding frame is obliquely arranged on the two groups of bases in an upward and backward way, a rear plate is arranged on the front side of the rear plate welding frame, the rear plate is a porous plate, an air hole in the rear plate is connected with an air channel pipeline of the fan assembly, and a glass in-place sensor is arranged on the rear plate; the front plate welding frame is arranged on the base in a sliding mode, a vacuum sucker is arranged on the end face, facing the rear plate, of the front plate welding frame, and the vacuum sucker is connected with a plurality of vacuum generators; the front plate welding frame and the rear plate welding frame are provided with front plate moving components for driving the front plate welding frame to move; two groups of front plate conveying assembly mounting seats are arranged on the front plate belt conveying assembly, and the conveying direction of the front plate belt conveying assembly is vertical to the moving direction of the front plate welding frame; a front plate belt conveying assembly lifting cylinder and a front plate belt conveying assembly normal moving assembly which drive a front plate conveying assembly mounting seat to move up and down and move back and forth are arranged on the front plate welding frame; two groups of rear plate conveying assembly mounting seats are arranged on the rear plate belt conveying assembly, a rear plate belt conveying assembly lifting cylinder and a rear plate belt conveying assembly normal direction moving assembly are arranged on the rear plate welding frame and drive the rear plate conveying assembly mounting seats to move up and down and move back and forth, and an inflating assembly for inflating the interior of the hollow glass is arranged on the rear plate belt conveying assembly.

Preferably, the front plate belt conveying assembly normal moving assembly comprises a front plate belt conveying assembly normal servo motor and a front plate belt conveying assembly normal moving screw rod; the front plate belt conveying assembly normal moving screw rod is arranged on the front plate welding frame along the front-back direction, and a threaded hole matched with the front plate belt conveying assembly normal moving screw rod is formed in the front plate conveying assembly mounting seat; the front plate belt conveying assembly normal servo motor is arranged on the front plate welding frame, and an output shaft of the front plate belt conveying assembly normal servo motor is in transmission connection with a front plate belt conveying assembly normal moving screw rod through a belt.

Preferably, the front plate moving assembly comprises a lead screw fixing nut and a front plate normal lead screw; the front plate normal lead screws are arranged on the front plate welding frame along the front-back direction, four groups of front plate normal lead screws are arranged on the front plate normal lead screws, the four groups of front plate normal lead screws are respectively arranged at the four corners of the front plate welding frame, and the front plate normal lead screws are connected with the front plate welding frame through lead screw fixing nuts; and a rotating front plate normal lead screw assembly which drives four groups of front plate normal lead screws to synchronously rotate is arranged on the rear plate welding frame.

Preferably, the rotating front plate normal lead screw assembly comprises a synchronous belt pulley, a connecting screw, a nut and a front plate moving servo motor; the synchronous belt pulley is rotatably arranged on the rear plate welding frame, the synchronous belt pulley is connected with the screw through a connecting screw, the screw is matched with the front plate normal screw rod, and the front plate normal screw rod penetrates through the synchronous belt pulley and the screw; four groups of synchronous belt pulleys, connecting screws and nuts are arranged; the front plate moving servo motor is arranged on the rear plate welding frame and is simultaneously in transmission connection with four groups of synchronous belt wheels through a belt.

Preferably, the rear plate belt conveying assembly normal moving assembly comprises a rear plate belt conveying assembly normal servo motor and a rear plate belt conveying assembly normal moving screw rod; the rear plate belt conveying assembly normal moving screw rod is arranged on the rear plate welding frame along the front-back direction, a screw rod connecting plate is arranged on a rear plate belt conveying assembly mounting seat, a threaded hole matched with the rear plate belt conveying assembly normal moving screw rod is formed in the screw rod connecting plate, a belt guide rail is arranged on the rear plate belt conveying assembly mounting seat, and the belt guide rail is in sliding connection with the rear plate welding frame; and the back plate belt conveying assembly normal servo motor is arranged on the back plate welding frame and is in transmission connection with the back plate belt conveying assembly normal moving screw rod through a belt.

Preferably, the base is provided with a sliding rail, the bottom of the front plate welding frame is provided with a front plate guide sliding block, and the front plate guide sliding block is in sliding connection with the sliding rail in a matching mode.

Preferably, the rear plate belt conveying assembly comprises a rear plate conveying servo motor, a driving synchronous belt wheel, a rear plate conveying belt, a conveying welding beam and a driven synchronous belt wheel; the inflation assembly comprises a back inflation air inlet joint and a polytetrafluoroethylene plate; an output shaft of the rear plate conveying servo motor is connected with a driving synchronous belt wheel, and the driving synchronous belt wheel is connected with a driven synchronous belt wheel through a rear plate conveying belt in a transmission way; the conveying welding beam is positioned between the rear plate conveying belts; the polytetrafluoroethylene plate is arranged on the front side surface of the rear plate belt conveying assembly and is in a zigzag shape, an opening is formed in each hollowed-out position to avoid an inflation gas circuit, and a plurality of gas outlet rectangular holes facing the interior of the hollow glass are formed between the front plate conveying belt and the rear plate conveying belt; the back is aerifyd the air inlet joint and is connected with the equipment of aerifing, and the back is aerifyd the air inlet joint and is set up in back plate belt conveyor assembly's rear side and with aerify the gas circuit intercommunication.

Preferably, the welding frame of the back plate and the base are connected through pins and screws.

Preferably, all set up multiunit side on the side about the front bezel welding frame and keep off sealed cylinder, the flexible direction that the sealed cylinder was kept off to the side is the fore-and-aft direction, and the flexible end that the sealed cylinder was kept off to the side sets up the side shield.

Compared with the prior art, the utility model discloses following profitable technological effect has: the structure is ingenious, and through changing the direction of giving vent to anger, it is higher to make the efficiency of aerifing, and continuous production is stable, and can be applicable to the aerifing of multilayer multicavity glass, has reduceed workman's intensity of labour simultaneously, has improved product quality and yield.

Drawings

Fig. 1 is a schematic structural diagram of an embodiment of the present invention;

FIG. 2 is a side view of FIG. 1;

FIG. 3 is a schematic view of the vacuum chuck and front plate weld frame connection;

FIG. 4 is a schematic structural view of a rear plate belt conveyor assembly;

FIG. 5 is an exploded view of the back plate belt conveyor assembly;

FIG. 6 is an enlarged schematic view taken at A in FIG. 1;

FIG. 7 is an enlarged view of the point B in FIG. 2;

FIG. 8 is a schematic view of a rotary front plate normal lead screw assembly.

Reference numerals: 1. a base; 2. welding a frame on the rear plate; 3. a back plate; 4. a fan assembly; 5. the front plate is welded with the frame; 6. a vacuum chuck; 7. a front plate guide slide block; 8. a front plate belt transport assembly; 9. a front plate belt conveying assembly lifting cylinder; 10. the front plate belt conveying assembly is normal to the servo motor; 11. the front plate belt conveying assembly moves the screw rod in the normal direction; 12. a lead screw fixing nut; 13. the front plate is normal to the screw rod; 14. rotating the front plate normal lead screw assembly; 141. a synchronous pulley; 142. a connecting screw; 143. a nut; 15. a front plate moving servo motor; 16. a rear plate belt conveying assembly; 161. the rear plate conveying servo motor; 162. a driving synchronous pulley; 163. a back plate conveyor belt; 164. conveying the welding beam; 165. a driven synchronous pulley; 166. a back inflation inlet fitting; 167. a belt guide rail; 168. a screw rod connecting plate; 169. a polytetrafluoroethylene sheet; 17. the rear plate belt conveying assembly lifting cylinder; 18. the rear plate belt conveying assembly is normal to the servo motor; 19. the rear plate belt conveying assembly moves the screw rod in the normal direction; 20. a glass in-place sensor; 21. a side baffle sealing cylinder; 22. a pin; 23. a screw; 24. side dams.

Detailed Description

Example one

The utility model provides a novel inflating device of a hollow glass plate press, which comprises a base 1, a fan component 4, a front plate welding frame 5, a front plate belt conveying component 8 and a rear plate belt conveying component 16;

as shown in fig. 1-2, two groups of parallel bases 1 are arranged, a rear plate welding frame 2 is obliquely arranged on the two groups of bases 1 in a backward inclining manner, a rear plate 3 is arranged on the front side of the rear plate welding frame 2, the rear plate 3 is a porous plate, an air hole in the rear plate 3 is connected with an air channel pipeline of a fan assembly 4, and a glass in-place sensor 20 is arranged on the rear plate 3; front bezel welding frame 5 sets up on base 1 along sliding, sets up the slide rail on the base 1, and front bezel welding frame 5 bottom sets up front bezel direction slider 7, and front bezel direction slider 7 and slide rail cooperation sliding connection.

As shown in fig. 7, the back plate welding frame 2 and the base 1 are fixed by pins 22 and connected by screws 23.

As shown in fig. 3, the front plate welding frame 5 is provided with a vacuum cup 6 on the end surface facing the rear plate 3, and the vacuum cup 6 is connected to a plurality of vacuum generators.

As shown in fig. 1-2, the front plate welding frame 5 and the rear plate welding frame 2 are provided with a front plate moving assembly for driving the front plate welding frame 5 to move; two groups of front plate conveying assembly mounting seats are arranged on the front plate belt conveying assembly 8, and the conveying direction of the front plate belt conveying assembly 8 is vertical to the moving direction of the front plate welding frame 5; a front plate belt conveying assembly lifting cylinder 9 and a front plate belt conveying assembly normal moving assembly which drive a front plate conveying assembly mounting seat to move up and down and move back and forth are arranged on the front plate welding frame 5; two groups of rear plate conveying assembly mounting seats are arranged on the rear plate belt conveying assembly 16, a rear plate belt conveying assembly lifting cylinder 17 and a rear plate belt conveying assembly normal direction moving assembly are arranged on the rear plate welding frame 2 and drive the rear plate conveying assembly mounting seats to move up and down and move back and forth, and an inflating assembly for inflating the hollow glass is arranged on the rear plate belt conveying assembly 16.

As shown in fig. 6, a plurality of sets of side baffle sealing cylinders 21 are disposed on both left and right sides of the front plate welding frame 5, the extending and retracting directions of the side baffle sealing cylinders 21 are the front and rear directions, and side baffles 24 are disposed at the extending and retracting ends of the side baffle sealing cylinders 21.

As shown in fig. 4 to 5, the rear plate belt transport assembly 16 includes a rear plate transport servomotor 161, a driving timing pulley 162, a rear plate transport belt 163, a transport welding beam 164, and a driven timing pulley 165; the inflation assembly includes a back inflation inlet fitting 166 and a teflon plate 169; an output shaft of the rear plate conveying servo motor 161 is connected with a driving synchronous belt pulley 162, and the driving synchronous belt pulley 162 is connected with a driven synchronous belt pulley 165 and is in transmission connection through a rear plate conveying belt 163; the transfer weld beam 164 is located between the rear panel transfer belts 163; the polytetrafluoroethylene plate 169 is arranged on the front side surface of the rear plate belt conveying assembly 16, the polytetrafluoroethylene plate 169 is in a zigzag shape, an opening is formed in each hollowed-out position to avoid an inflation gas circuit, and a plurality of gas outlet rectangular holes facing the interior of the hollow glass are formed between the front plate conveying belt and the rear plate conveying belt; a back inflation inlet fitting 166 is connected to the inflation apparatus, and the back inflation inlet fitting 166 is disposed on the rear side of the rear panel belt conveyor assembly 16 and communicates with the inflation air circuit.

The working process of the embodiment is as follows: when the hollow glass is produced, firstly, the front plate welding frame 5 is opened, the first piece of white glass enters the plate press, is positioned and stops on the rear plate belt conveying assembly, because the glass and the panel cannot be rubbed when the glass is fed, the two pieces of glass are pressed by the density plate when the glass is pressed, so the rear plate 3 adopts an air floating structure, air floating holes are changed from air blowing to air suction when the glass is pressed, the aim is to prevent the glass from moving to cause the misalignment of the glass, the blown air and the low-pressure vacuum generated by the sucked glass are provided by the rear fan assembly 4, and the low-vacuum effect can be realized only by discharging the air outlet of the fan into the atmosphere when the air suction is carried out. After the first piece of white glass puts in place, front bezel welding frame 5 drives vacuum chuck 6 pressfitting through the front bezel removal subassembly, white glass has been tightly pressfitting this moment, back plate belt conveyor 16 moves down and retreats after that, then 8 normal directions of front bezel belt conveyor move to the glass below and rise and support the glass base, the glass base has just been realized being held up by original back plate conveyor belt and has become for the front bezel belt is held up, vacuum chuck 6 of installing on front bezel welding frame 5 immediately sucks glass, vacuum chuck 6 relies on the evacuation that a plurality of vacuum generator realized, reach the vacuum degree back front bezel welding frame 5 of settlement and take glass to leave the back plate, the purpose is for letting the second piece of glass get into before the board is pressed. When the second piece of glass with the spaced aluminum frames enters the plate press, the second piece of glass is positioned again, then the rear plate belt conveying assembly 16 is lifted to the proper position, the fan is turned over, the air floatation system can suck the glass reversely, and then the vacuum chuck 6 drives the sucked first piece of glass to be pressed. Stopping until the two belts of the front plate belt conveying component 8 and the rear plate belt conveying component 16 are completely pressed during pressing, and at the moment, a space of about 3-5mm is reserved between the white glass and the glass with the aluminum frame, the space is used as an air inflation gap, meanwhile, a sawtooth-shaped polytetrafluoroethylene plate 169 is arranged on the side face of the front side of the rear plate belt conveying assembly 16, an opening is formed in each hollowed-out position to avoid an inflation gas circuit, a plurality of gas outlet rectangular holes facing the interior of the glass wall body are formed between the two conveying belts after the belts of the front plate and the rear plate are pressed, at the moment, the processor PLC can fill argon into the cavity volume calculated according to the overall dimension of the glass and is full of the argon, glass pressfitting is carried out with the front bezel, and after the pressfitting, the front bezel sucking disc blowback breaks away from glass, breaks away from behind the glass front bezel welded frame 5 and removes and keep away from back plate 3, and glass alright in this moment has been given next process for through back plate belt conveyor assembly 16 transport. If the glass is three-glass two-cavity or four-glass three-cavity, the combined glass is treated as a piece of white glass, and because the position of the lower air outlet is determined by the two conveying belts below the front plate and the rear plate, the device can also be used for simultaneously inflating multi-layer multi-cavity glass. This embodiment structure is ingenious, and through changing the direction of giving vent to anger, it is higher to make the efficiency of aerifing, and continuous production is stable, and can be applicable to the aerifing of multilayer multicavity glass, has reduceed workman's intensity of labour simultaneously, has improved product quality and yield.

Example two

As shown in fig. 1, compared with the first embodiment, the novel inflation device of the hollow glass plate press provided by the present invention has a front plate belt conveying assembly normal direction moving assembly comprising a front plate belt conveying assembly normal direction servo motor 10 and a front plate belt conveying assembly normal direction moving screw rod 11; a front plate belt conveying assembly normal moving screw rod 11 is arranged on the front plate welding frame 5 along the front-back direction, and a threaded hole matched with the front plate belt conveying assembly normal moving screw rod 11 is formed in the front plate conveying assembly mounting seat; the front plate belt conveying assembly normal servo motor 10 is arranged on the front plate welding frame 5, and an output shaft of the front plate belt conveying assembly normal servo motor 10 is in transmission connection with a front plate belt conveying assembly normal moving screw rod 11 through a belt. Simple structure and convenient production and manufacture.

EXAMPLE III

As shown in fig. 1, fig. 2 and fig. 8, compared with the first embodiment, the novel inflation device of a hollow glass plate press provided by the present invention, the front plate moving assembly includes a lead screw fixing nut 12 and a front plate normal lead screw 13; the front plate normal lead screws 13 are arranged on the front plate welding frame 5 along the front-back direction, four groups of the front plate normal lead screws 13 are arranged on the front plate normal lead screws 13, the four groups of the front plate normal lead screws 13 are respectively arranged at four corners of the front plate welding frame 5, and the front plate normal lead screws 13 are connected with the front plate welding frame 5 through lead screw fixing nuts 12; and a rotating front plate normal screw rod assembly 14 for driving the four groups of front plate normal screw rods 13 to synchronously rotate is arranged on the rear plate welding frame 2. The rotating front plate normal lead screw assembly 14 comprises a synchronous pulley 141, a connecting screw 142, a nut 143 and a front plate moving servo motor 15; the synchronous pulley 141 is rotationally arranged on the rear plate welding frame 2, the synchronous pulley 141 is connected with the nut 143 through the connecting screw 142, the nut 143 is matched with the front plate normal screw rod 13, and the front plate normal screw rod 13 penetrates through the synchronous pulley 141 and the nut 143; four groups of synchronous pulleys 141, connecting screws 142 and nuts 143 are provided; the front plate moving servo motor 15 is provided on the rear plate welding frame 2, and the front plate moving servo motor 15 is simultaneously in transmission connection with four sets of synchronous pulleys 141 through a belt.

In this embodiment, the front plate moving servo motor 15 drives the four groups of synchronous pulleys 141 to synchronously rotate through the belt, so that the four groups of front plates rotate synchronously in the normal direction of the screw rod 13, and the front plate welding frame 5 can be driven to move back and forth.

Example four

As shown in fig. 1-2, compared with the first embodiment, the novel inflation device of the hollow glass plate press provided by the present invention comprises a normal moving component of the back plate belt conveying component, which comprises a normal servo motor 18 of the back plate belt conveying component and a normal moving screw rod 19 of the back plate belt conveying component; the rear plate belt conveying assembly normal direction moving screw rod 19 is arranged on the rear plate welding frame 2 along the front-back direction, a screw rod connecting plate 168 is arranged on a rear plate belt conveying assembly mounting seat, a threaded hole matched with the rear plate belt conveying assembly normal direction moving screw rod 19 is formed in the screw rod connecting plate 168, a belt guide rail 167 is arranged on the rear plate belt conveying assembly mounting seat, and the belt guide rail 167 is in sliding connection with the rear plate welding frame 2; and the back plate belt conveying assembly normal servo motor 18 is arranged on the back plate welding frame 2, and the back plate belt conveying assembly normal servo motor 18 is in transmission connection with a back plate belt conveying assembly normal moving screw rod 19 through a belt. Simple structure and convenient production and manufacture.

The embodiments of the present invention have been described in detail with reference to the accompanying drawings, but the present invention is not limited thereto, and various changes can be made without departing from the gist of the present invention within the scope of knowledge possessed by those skilled in the art.

Claims (9)

1. A novel air charging device of a hollow glass plate press is characterized by comprising a base (1), a fan assembly (4), a front plate welding frame (5), a front plate belt conveying assembly (8) and a rear plate belt conveying assembly (16);

the glass in-place detection device is characterized in that two groups of parallel bases (1) are arranged, a rear plate welding frame (2) is obliquely arranged on the two groups of bases (1) in an upward and backward mode, a rear plate (3) is arranged on the front side of the rear plate welding frame (2), the rear plate (3) is a porous plate, an air hole in the rear plate (3) is connected with an air channel pipeline of a fan assembly (4), and a glass in-place sensor (20) is arranged on the rear plate (3); the front plate welding frame (5) is arranged on the base (1) in a sliding mode, a vacuum chuck (6) is arranged on the end face, facing the rear plate (3), of the front plate welding frame (5), and the vacuum chuck (6) is connected with a plurality of vacuum generators; the front plate welding frame (5) and the rear plate welding frame (2) are provided with front plate moving components for driving the front plate welding frame (5) to move; two groups of front plate conveying component mounting seats are arranged on the front plate belt conveying component (8), and the conveying direction of the front plate belt conveying component (8) is vertical to the moving direction of the front plate welding frame (5); a front plate belt conveying assembly lifting cylinder (9) for driving a front plate conveying assembly mounting seat to move up and down and move back and forth and a front plate belt conveying assembly normal moving assembly are arranged on the front plate welding frame (5); two groups of rear plate conveying assembly mounting seats are arranged on the rear plate belt conveying assembly (16), a rear plate belt conveying assembly lifting cylinder (17) and a rear plate belt conveying assembly normal direction moving assembly are arranged on the rear plate welding frame (2) and drive the rear plate conveying assembly mounting seats to move up and down and move back and forth, and an inflating assembly for inflating the hollow glass is arranged on the rear plate belt conveying assembly (16).

2. The novel inflator device for hollow glass sheet presses of claim 1, wherein the front sheet belt conveyor normal moving assembly comprises a front sheet belt conveyor normal servo motor (10) and a front sheet belt conveyor normal moving screw (11); a front plate belt conveying assembly normal moving screw rod (11) is arranged on the front plate welding frame (5) along the front-back direction, and a front plate conveying assembly mounting seat is provided with a threaded hole matched with the front plate belt conveying assembly normal moving screw rod (11); the front plate belt conveying assembly normal servo motor (10) is arranged on the front plate welding frame (5), and an output shaft of the front plate belt conveying assembly normal servo motor (10) is in transmission connection with a front plate belt conveying assembly normal moving screw rod (11) through a belt.

3. The new inflator device for hollow glass sheet presses of claim 1 wherein the front plate moving assembly includes a lead screw retaining nut (12) and a front plate normal lead screw (13); the front plate normal lead screws (13) are arranged on the front plate welding frame (5) along the front-back direction, four groups of front plate normal lead screws (13) are arranged, the four groups of front plate normal lead screws (13) are respectively arranged at the four corners of the front plate welding frame (5), and the front plate normal lead screws (13) are connected with the front plate welding frame (5) through lead screw fixing nuts (12); and a rotating front plate normal screw rod assembly (14) which drives four groups of front plate normal screw rods (13) to synchronously rotate is arranged on the rear plate welding frame (2).

4. The new inflator for hollow glass sheet presses of claim 3 wherein the rotating front plate normal lead screw assembly (14) includes a synchronous pulley (141), a connecting screw (142), a nut (143) and a front plate movement servomotor (15); the synchronous pulley (141) is rotationally arranged on the rear plate welding frame (2), the synchronous pulley (141) is connected with the screw nut (143) through a connecting screw (142), the screw nut (143) is matched with the front plate normal screw rod (13), and the front plate normal screw rod (13) penetrates through the synchronous pulley (141) and the screw nut (143); four groups of synchronous pulleys (141), four groups of connecting screws (142) and four groups of nuts (143) are arranged; the front plate moving servo motor (15) is arranged on the rear plate welding frame (2), and the front plate moving servo motor (15) is simultaneously in transmission connection with four groups of synchronous belt wheels (141) through a belt.

5. The new inflator device for hollow glass sheet presses of claim 1 wherein the back sheet belt conveyor normal movement assembly comprises a back sheet belt conveyor normal servo motor (18) and a back sheet belt conveyor normal movement screw (19); a rear plate belt conveying assembly normal moving screw rod (19) is arranged on the rear plate welding frame (2) along the front-back direction, a screw rod connecting plate (168) is arranged on a rear plate belt conveying assembly mounting seat, a threaded hole matched with the rear plate belt conveying assembly normal moving screw rod (19) is formed in the screw rod connecting plate (168), a belt guide rail (167) is arranged on the rear plate belt conveying assembly mounting seat, and the belt guide rail (167) is in sliding connection with the rear plate welding frame (2); the back plate belt conveying assembly normal servo motor (18) is arranged on the back plate welding frame (2), and the back plate belt conveying assembly normal servo motor (18) is in transmission connection with a back plate belt conveying assembly normal moving screw rod (19) through a belt.

6. The novel inflating device for the hollow glass plate press as claimed in claim 1, wherein the base (1) is provided with a slide rail, the bottom of the front plate welding frame (5) is provided with a front plate guide sliding block (7), and the front plate guide sliding block (7) is in sliding connection with the slide rail in a matching manner.

7. The new inflator for hollow glass sheet presses of claim 1, wherein the back plate belt transport assembly (16) comprises a back plate transport servomotor (161), a drive timing pulley (162), a back plate transport belt (163), a transport welding beam (164), and a driven timing pulley (165); the inflation assembly comprises a back inflation inlet joint (166) and a polytetrafluoroethylene plate (169); an output shaft of the rear plate conveying servo motor (161) is connected with a driving synchronous belt wheel (162), and the driving synchronous belt wheel (162) is connected with a driven synchronous belt wheel (165) and is in transmission connection through a rear plate conveying belt (163); the conveying welding beam (164) is positioned between the rear plate conveying belts (163); the polytetrafluoroethylene plate (169) is arranged on the front side surface of the rear plate belt conveying assembly (16), the polytetrafluoroethylene plate (169) is in a zigzag shape, each hollowed-out position is provided with a hole to avoid an inflation gas circuit, and a plurality of air outlet rectangular holes facing the interior of the hollow glass are formed between the front plate conveying belt and the rear plate conveying belt; a back inflation inlet joint (166) is connected with the inflation equipment, and the back inflation inlet joint (166) is arranged on the rear side of the rear plate belt conveying assembly (16) and communicated with an inflation air path.

8. The new inflator for hollow glass sheet presses of claim 1, characterized in that the connection between the back plate welding frame (2) and the base (1) is by means of pins (22) positioning and screws (23).

9. The novel inflation device of the hollow glass plate press as claimed in claim 1, wherein a plurality of sets of side baffle sealing cylinders (21) are arranged on the left and right sides of the front plate welding frame (5), the stretching direction of the side baffle sealing cylinders (21) is the front and back direction, and the stretching ends of the side baffle sealing cylinders (21) are provided with side baffles (24).

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