CN116239291A

CN116239291A - Toughened glass forming device

Info

Publication number: CN116239291A
Application number: CN202310524351.1A
Authority: CN
Inventors: 王艳春; 杨波; 杜亮
Original assignee: Jiangsu Renli Glass Technology Co ltd
Current assignee: Jiangsu Renli Glass Technology Co ltd
Priority date: 2023-05-11
Filing date: 2023-05-11
Publication date: 2023-06-09

Abstract

The invention belongs to the technical field of toughened glass forming equipment, and discloses a toughened glass forming device which comprises a forming section frame, wherein a conveying roller is sleeved in the forming section frame, and a power box is arranged on the front surface of the forming section frame. According to the invention, the air quantity part blown out of the fan-shaped air outlet at the bottom changes the direction along the inclined conical surface at the bottom of the guide sleeve, so that the glass bottom surface bears vertical incoming air and inclined incoming air, the inclined incoming air is obliquely blown to the contact surface of the conveying roller and the glass, the bottom shielding of the conveying roller is bypassed, the air receiving area is increased in unit time, thereby greatly improving the air cooling uniformity of the glass bottom surface, improving the cooling speed and efficiency, simultaneously matching with the cooling water guided into the adjusting shaft, further improving the cooling effect of the glass bottom surface, improving the air cooling forming speed, simultaneously adaptively improving the conveying speed of the glass and shortening the path length of cooling forming, thereby reducing the length and the volume of a frame in a forming area, and having good use effect.

Description

Toughened glass forming device

Technical Field

The invention belongs to the technical field of toughened glass forming equipment, and particularly relates to a toughened glass forming device.

Background

Toughened glass (glass/Tempered glass) glass having a surface with compressive stress. Also known as tempered glass. The glass is Reinforced by a tempering method, and Tempered glass (Tempered glass) belongs to safety glass. The toughened glass is a prestressed glass, and in order to improve the strength of the glass, a chemical or physical method is generally used to form compressive stress on the surface of the glass, and the stress on the surface layer is firstly counteracted when the glass bears external force, so that the bearing capacity is improved, and the wind pressure resistance, summer heat resistance, impact resistance and the like of the glass are enhanced. Note that it is different from glass fibre reinforced plastics.

Toughened glass forming device among the prior art, in the use, place ordinary glass in the roll forming interval frame and transport in the high temperature furnace in general and heat for ordinary glass is softened and is transported to the shaping forced air cooling interval, make glass transport and carry out quick forced air cooling on the shaping forced air cooling interval after high temperature softening, realize toughened glass shaping preparation, however when top fan cooperation cooling tower cools down, the bottom surface of actually softened glass is sheltered from the transport roller when transporting, the actual slow transport in-process shelter from the department and accept the amount of wind untimely, make bottom surface cooling homogeneity poor, and top forced air cooling cooperation is simple bottom blow, actual cooling rate still is slower, in order to maintain the cooling effect, the speed of stable transportation is slow, the actual cooling time is long, the transportation distance is long, the result of use is not good.

In addition, toughened glass forming device among the prior art, in the use, because softened glass is when cooling the shaping, transport along with the shaping completion toughened glass, receive the influence of impurity in the internal component, a small amount of toughened glass can spontaneously break, and broken glass piles up in the shaping interval frame, actual broken toughened glass edge is sharp, and is located the shaping interval frame space limited, is difficult to realize convenient effectual clearance out, the clearance is troublesome, the result of use is not good.

Disclosure of Invention

The invention aims to provide a toughened glass forming device for solving the problems in the background art.

In order to achieve the above object, the present invention provides the following technical solutions: toughened glass forming device, including shaping district frame, shaping district frame's inside cover is equipped with the transport roller, shaping district frame's front is equipped with the headstock, the headstock is located shaping district frame's front, shaping district frame's top fixed mounting has upper portion forced air cooling mechanism, shaping district frame's inside activity has cup jointed the dwang, the inner chamber has been seted up to the one end of dwang, the air outlet has been seted up to dwang location surface, air outlet and inner chamber are linked together, shaping district frame's front fixed mounting has lower part air feed mechanism, lower part air feed mechanism is linked together with the dwang, shaping district frame's inside activity has cup jointed the regulating spindle, the fixed guide sleeve that has cup jointed of the surface of regulating spindle, shaping district frame's back fixed mounting has pushing mechanism, the fixed gear of having cup jointed of surface of regulating spindle, gear and pushing mechanism mesh mutually.

Preferably, the lower air supply mechanism comprises a communication sleeve, a mounting sleeve and a fan, wherein the communication sleeve is fixedly connected to the front surface of the forming area frame, the mounting sleeve is fixedly communicated to the front surface of the communication sleeve, and the fan is arranged in the mounting sleeve.

Preferably, the quantity of pushing mechanism is two, two pushing mechanism distributes from top to bottom on the back of shaping district frame, pushing mechanism includes mounting bracket, telescopic link, pinion rack and slide, mounting bracket fixed mounting is on the terminal surface of shaping district frame, telescopic link fixed mounting is in the inside of mounting bracket, pinion rack fixed connection is on the terminal surface of telescopic link, slide fixed connection is on the back of pinion rack, the spout has been seted up at the back of shaping district frame, the internal surface and the slide activity of spout cup joint.

Preferably, the adjusting shaft is located below the conveying roller, and two sides of the guide sleeve are conical protrusions.

Preferably, the control mechanism comprises a fixed cylinder, a top opening and a side opening, wherein the fixed cylinder is fixedly connected in the forming area frame and sleeved on the outer side of the rotating rod, the top opening is formed in the top of the outer surface of the fixed cylinder, and the side opening is formed in the side surface of the outer surface of the fixed cylinder and is inclined downwards.

Preferably, the rear end fixedly connected with fixed axle of dwang, the surface mounting of fixed axle has cup jointed No. two gears, no. two gears are connected with the pinion rack meshing in the pushing mechanism who is arranged in the below, no. one gears are connected with the pinion rack meshing in the pushing mechanism who is arranged in the top.

Preferably, the front surface of the forming area frame is fixedly connected with a water inlet sleeve, the water inlet sleeve is positioned at the outer side of the front end of the adjusting shaft, a through hole is formed in the adjusting shaft, and the central shaft of the through hole is not collinear with the central shaft of the adjusting shaft.

Preferably, the back fixed mounting of shaping district frame has water outlet mechanism, water outlet mechanism includes fixed frame, sleeve pipe, closing plate and apopore, fixed frame fixed connection is on the back of shaping district frame, the fixed intercommunication of sleeve pipe is on the front of fixed frame, the closing plate is fixed to be linked together on the sheathed tube terminal surface, the apopore is seted up on the front of closing plate.

Preferably, the sleeve is sleeved on the outer side of the adjusting shaft, and the central shaft of the water outlet hole is not collinear with the central shaft of the sleeve.

Optionally, the inside of shaping district frame is fixedly connected with baffle No. one and No. two baffles respectively, the bottom surface of No. two baffles does not contact with shaping district frame, no. two baffles are close to one side of side mouth.

The beneficial effects of the invention are as follows:

1. according to the invention, the adjusting shaft positioned below the conveying roller is additionally arranged in the forming area frame, the guide sleeves with the conical surface protrusions are fixedly sleeved on the outer surface of the adjusting shaft, so that the air quantity blown out by the fan-shaped air outlet at the bottom is changed in direction along the inclined conical surface at the bottom of the guide sleeve, the glass bottom surface is subjected to vertical incoming air and inclined incoming air, the inclined incoming air is obliquely blown to the contact surface of the conveying roller and glass, the bottom of the conveying roller is covered, the air-bearing area is increased in unit time, the air cooling uniformity of the glass bottom surface is greatly improved, the cooling speed and the cooling efficiency are improved, meanwhile, the cooling effect of the glass bottom surface is further improved by matching with the cooling water guided into the adjusting shaft, the conveying speed of the glass is improved, the path length of cooling forming is shortened, the length and the volume of the forming area frame are reduced, and the using effect is good.

2. According to the invention, the through hole formed in the adjusting shaft is not arranged at the center of the adjusting shaft, the water outlet hole in the water outlet mechanism is formed in a suitable way, the central shaft of the water outlet hole is not arranged at the center of the adjusting shaft, the water outlet hole is intermittently missed in the swinging process of the through hole, and the through hole is sealed by the sealing plate in a matched mode when the through hole is staggered, so that the fed cooling water is intermittently temporarily stored in the through hole when the adjusting shaft swings, the cooling water can be efficiently and fully absorbed in the interior, the cooling water inlet efficiency is reduced, the total amount of continuously introduced cooling water is reduced while cooling is sufficiently reduced, and resources are saved.

3. According to the invention, the meshed second gear is pushed to rotate and swing by a certain angle by utilizing the pushing mechanism positioned below, so that the rotating rod positioned in the control mechanism is driven to swing by a certain angle, and the air outlet of the rotating rod after rotating and swinging is changed from being aligned with the top opening to being aligned with the side opening of the side surface, so that the final air outlet angle is changed, the air quantity blown downwards obliquely is blown to the toughened crushed aggregates inside, the toughened glass crushed aggregates carriage is blown by matching with the wind force of the transverse component force and is blown to be blown out towards the second baffle, and the wind force of the toughened glass crushed during molding is pushed out by conveniently realizing the change of the air outlet direction, so that the actual cleaning is automatic and convenient, and the use effect is good.

Drawings

FIG. 1 is a schematic diagram of the structure of the present invention;

FIG. 2 is a schematic back view of the present invention;

FIG. 3 is a schematic cross-sectional view of the present invention;

FIG. 4 is an exploded view of the invention between the adjustment shaft and the water inlet sleeve and outlet mechanism;

FIG. 5 is a schematic view of the engagement of the lower pushing mechanism with the gear II of the present invention;

FIG. 6 is an exploded view of the rotary lever and adjustment mechanism of the present invention;

FIG. 7 is an exploded view of the lower air supply mechanism of the present invention;

FIG. 8 is an exploded view of the water outlet mechanism of the present invention;

FIG. 9 is a schematic view of a pushing mechanism of the present invention;

FIG. 10 is an enlarged schematic view of the structure at A in FIG. 9;

FIG. 11 is a schematic view of a forming section frame of the present invention.

In the figure: 1. forming a partition frame; 2. a transport roller; 3. a power box; 4. an upper air cooling mechanism; 5. a rotating lever; 6. an inner cavity; 7. an air outlet; 8. a lower air supply mechanism; 81. a communicating sleeve; 82. a mounting sleeve; 83. a fan; 9. an adjusting shaft; 10. a guide sleeve; 11. a first gear; 12. a pushing mechanism; 121. a mounting frame; 122. a telescopic rod; 123. a toothed plate; 124. a slide plate; 13. a control mechanism; 131. a fixed cylinder; 132. a top port; 133. a side port; 14. a fixed shaft; 15. a second gear; 16. a chute; 17. a first baffle; 18. a second baffle; 19. a through hole; 20. a water inlet sleeve; 21. a water outlet mechanism; 211. a fixed frame; 212. a sleeve; 213. a sealing plate; 214. and a water outlet hole.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

As shown in fig. 1 to 11, the embodiment of the invention provides a toughened glass forming device, which comprises a forming interval frame 1, wherein a conveying roller 2 is sleeved in the forming interval frame 1, a power box 3 is arranged on the front surface of the forming interval frame 1, the power box 3 is positioned on the front surface of the forming interval frame 1, an upper air cooling mechanism 4 is fixedly arranged above the forming interval frame 1, a rotating rod 5 is movably sleeved in the forming interval frame 1, an inner cavity 6 is formed at one end of the rotating rod 5, an air outlet 7 is formed in the outer surface of the rotating rod 5, the air outlet 7 is communicated with the inner cavity 6, a lower air supply mechanism 8 is fixedly arranged on the front surface of the forming interval frame 1, the lower air supply mechanism 8 is communicated with the rotating rod 5, an adjusting shaft 9 is movably sleeved in the forming interval frame 1, a guide sleeve 10 is fixedly sleeved on the outer surface of the adjusting shaft 9, a pushing mechanism 12 is fixedly arranged on the back surface of the forming interval frame 1, a first gear 11 is fixedly sleeved on the outer surface of the adjusting shaft 9, and the first gear 11 is meshed with the pushing mechanism 12.

When the glass after high-temperature softening moves to the conveying roller 2 on the forming interval frame 1, the conveying roller 2 is driven to rotate by the power box 3, so that the high-temperature softening glass gradually moves, the upper air cooling mechanism 4 is started, the upper air cooling mechanism 4 blows cooling air downwards, the lower air supply mechanism 8 is started, the air quantity in the lower air supply mechanism 8 is conveyed into the rotating rod 5 and blown out through the inner cavity 6 of the rotating rod 5 and the upward air outlet 7, the fan-shaped air outlet 7 is used for blowing out air quantity, the middle air quantity is blown out to the adjusting shaft 9 at the top and is further blown out in an inclined way along the conical bulge on the guide sleeve 10 on the outer side surface of the adjusting shaft 9, the obliquely blown-out air quantity is blown out obliquely towards the contact surface of the conveying roller 2 and the glass, the whole bottom surface of the glass to be formed is provided with cooling air with vertical and two-side multi-angle inclination, simultaneously, cooling water is introduced into the water inlet sleeve 20, so that the cooling water in the water inlet sleeve 20 enters the through hole 19 of the adjusting shaft 9 and circulates along the inside of the adjusting shaft 9, so that air surrounding the adjusting shaft 9 is rapidly cooled to low-temperature air and blown to the bottom of glass, the glass to be formed is rapidly cooled to toughened glass, and when the air is cooled down, the pushing mechanism 12 positioned above is started, the pushing mechanism 12 transversely reciprocates, the telescopic rod 122 in the pushing mechanism 12 acts and pushes the toothed plate 123 to move, the toothed plate 123 transversely moves and drives the meshed first gear 11 to reciprocate, thereby driving the adjusting shaft 9 to oscillate along with the guide sleeve 10, the air quantity blown out along the conical inclined surface of the guide sleeve 10 continuously changes the blowing direction, simultaneously the through hole 19 in the adjusting shaft 9 is not arranged at the center swings, and in the swinging process, the through hole 19 is communicated with the water outlet hole 214 in the water outlet mechanism 21 when being only positioned in the middle part, water outlet is finished, and cooling water is temporarily stored in the through hole 19 of the adjusting shaft 9 in the swinging dislocation time, so that the toughened glass is finished to be rapidly molded.

Firstly, through add the regulating spindle 9 that is located the transportation roller 2 below in the inside of shaping district frame 1, and cup joint both sides at the fixed guide sleeve 10 that has the conical surface protruding of the surface of regulating spindle 9, make the air quantity part that the fan-shaped air outlet 7 of bottom blows out change the orientation along the slope conical surface of guide sleeve 10 bottom, make glass bottom surface everywhere bear perpendicular incoming wind and slope incoming wind, and slope incoming wind slope blows to transportation roller 2 and glass's contact surface, bypass the bottom shielding of transportation roller 2, increase the windward area in the unit time, thereby the forced air cooling homogeneity of glass bottom surface has been greatly improved, improve cooling rate and efficiency, cooperate the cooling water that guides to in the regulating spindle 9 simultaneously, further improve the cooling effect of glass bottom surface, when improving the forced air cooling shaping speed, can adapt to the transport speed of improvement glass and shorten the path length of cooling shaping, thereby reducible shaping district frame 1's length and volume, excellent in use effect.

In addition, through the through hole 19 formed in the adjusting shaft 9 is not arranged at the center of the adjusting shaft 9, the water outlet 214 in the water outlet mechanism 21 is formed in a suitable manner, the central shaft of the water outlet 214 is not arranged at the center of the adjusting shaft 9, the through hole 19 intermittently misses the water outlet 214 in the swinging process, and the through hole 19 is sealed by matching with the sealing plate 213 when staggered, so that the fed cooling water is temporarily stored in the through hole 19 intermittently when the adjusting shaft 9 swings, the cooling water is efficiently and fully absorbed in the inside, the cooling water inlet efficiency is reduced, the total amount of continuously introduced cooling water is reduced while the cooling water is sufficiently cooled, and resources are saved.

As shown in fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 7, fig. 9, fig. 10 and fig. 11, the lower air supply mechanism 8 comprises a communication sleeve 81, a mounting sleeve 82 and a fan 83, the communication sleeve 81 is fixedly connected to the front surface of the forming interval frame 1, the mounting sleeve 82 is fixedly connected to the front surface of the communication sleeve 81, the fan 83 is arranged in the mounting sleeve 82, the number of pushing mechanisms 12 is two, the two pushing mechanisms 12 are vertically distributed on the back surface of the forming interval frame 1, the pushing mechanisms 12 comprise a mounting frame 121, a telescopic rod 122, a toothed plate 123 and a sliding plate 124, the mounting frame 121 is fixedly arranged on the end surface of the forming interval frame 1, the telescopic rod 122 is fixedly arranged in the mounting frame 121, the toothed plate 123 is fixedly connected to the end surface of the telescopic rod 122, the sliding plate 124 is fixedly connected to the back surface of the toothed plate 123, the back surface of the forming interval frame 1 is provided with a sliding groove 16, and the inner surface of the sliding groove 16 is movably sleeved with the sliding plate 124.

In the use process, the lower air supply mechanism 8 provides cooling air, and the sliding groove 16 is sleeved with the sliding plate 124 in a movable manner, so that the lateral movement is stable, the two groups of pushing mechanisms 12 are specifically upper and lower, the upper pushing mechanism 12 realizes the reciprocating swing of the adjusting shaft 9, and the lower pushing mechanism 12 realizes the angle change of the rotating rod 5.

As shown in fig. 3, fig. 4, fig. 5 and fig. 6, the adjusting shaft 9 is located below the transporting roller 2, two sides of the guiding sleeve 10 are conical protrusions, the control mechanism 13 comprises a fixed cylinder 131, a top opening 132 and a side opening 133, the fixed cylinder 131 is fixedly connected inside the forming section frame 1 and sleeved on the outer side of the rotating rod 5, the top opening 132 is formed in the top of the outer surface of the fixed cylinder 131, the side opening 133 is formed in the side surface of the outer surface of the fixed cylinder 131 and is inclined downwards, the rear end of the rotating rod 5 is fixedly connected with the fixed shaft 14, a second gear 15 is fixedly sleeved on the outer surface of the fixed shaft 14, the second gear 15 is meshed and connected with a toothed plate 123 in the pushing mechanism 12 located below, the first gear 11 is meshed and connected with the toothed plate 123 in the pushing mechanism 12 located above, and the pushing mechanism 12 located below is utilized to drive the second gear 15 to rotate at a certain angle, and the angle adjustment of the rotating rod 5 is completed.

In the use, through utilizing the toper arch of guide pin bushing 10 both sides for the amount of wind slope guide of play case blows to the contact surface of transport roller 2 and glass, reduce the area of sheltering from of transport roller 2, further improve the cooling homogeneity, comprehensively improve cooling efficiency, and cooperation wobbling regulating spindle 9 realizes the swing of guide pin bushing 10, make bottom cooling wind bellows vibrations change, avoid fixed continuous wind to make toughened glass bottom appear obvious wind spot, improve toughened glass's shaping quality, and realize fan-shaped ascending blowing when top mouth 132 in control mechanism 13 communicates with air outlet 7, and when air outlet 7 swings to communicate with side mouth 133, realize downward blowing of slope and accomplish the wind-force clearance of broken toughened glass.

As shown in fig. 1, fig. 2, fig. 3, fig. 4, fig. 8 and fig. 11, the front surface of the forming section frame 1 is fixedly connected with a water inlet sleeve 20, the water inlet sleeve 20 is positioned at the outer side of the front end of the adjusting shaft 9, a through hole 19 is formed in the adjusting shaft 9, the central shaft of the through hole 19 is not collinear with the central shaft of the adjusting shaft 9, a water outlet mechanism 21 is fixedly arranged on the back surface of the forming section frame 1, the water outlet mechanism 21 comprises a fixed frame 211, a sleeve 212, a sealing plate 213 and a water outlet hole 214, the fixed frame 211 is fixedly connected to the back surface of the forming section frame 1, the sleeve 212 is fixedly communicated to the front surface of the fixed frame 211, the sealing plate 213 is fixedly communicated to the end surface of the sleeve 212, the water outlet hole 214 is formed in the front surface of the sealing plate 213, the sleeve 212 is sleeved outside the adjusting shaft 9, the central shaft of the water outlet hole 214 is not collinear with the central shaft of the sleeve 212, a first baffle 17 and a second baffle 18 are fixedly connected to the inner part of the forming section frame 1 respectively, the bottom surface of the second baffle 18 is not contacted with the forming section frame 1, and the second baffle 18 is close to one side of the side opening 133.

In the use, through utilizing water inlet jacket 20 and external pipeline intercommunication, with the cooling water input distribution to the through-hole 19 of every group regulating shaft 9, and through not at the through-hole 19 at regulating shaft 9 middle part, and the apopore 214 of adaptation, intermittent messenger's through-hole 19 and apopore 214 intercommunication when regulating shaft 9 swings, realize the temporary storage of cooling water, reduce the input total amount of cooling water, realize the resource saving, and through setting up the position and the bottom position of No. two baffles 18, make No. two baffles 18 bottom have the clearance, and adapt to the toughened glass piece that receives wind-force to blow out, realize concentrated clearance collection.

After rapid cooling forming is completed, by starting the pushing mechanism 12 positioned below and enabling the toothed plate 123 in the pushing mechanism 12 to transversely move for a certain distance, enabling the gear 15 which is transversely moved to push and meshed with the gear 15 to rotate for a certain angle, driving the rotating rod 5 to rotate along with the rotation of the gear 15, enabling the rotating rod 5 to rotate for a certain angle along the direction of the baffle 18, enabling the air outlet 7 on the outer surface of the rotating rod 5 to swing and then be aligned with the side opening 133 in the control mechanism 13, and enabling air quantity to be blown downwards along the inclined side opening 133 on the outer side surface of the control mechanism 13 along with continuous air supply of the lower air supply mechanism 8, enabling the blown inclined downwards air quantity to push toughened glass fragments to slide after the bottom of the forming space frame 1, enabling the internal toughened glass fragments to be pushed out by wind force laterally, and enabling the toughened glass fragments to be blown out along the bottom gap of the baffle 18.

Firstly, the pushing mechanism 12 positioned below is used for pushing the meshed second gear 15 to rotationally swing a certain angle, so that the rotating rod 5 positioned in the control mechanism 13 is driven to swing a certain angle, the air outlet 7 of the rotating rod 5 after rotation and swing is changed from being aligned with the top opening 132 to being aligned with the side opening 133 on the side surface, the final air outlet angle is changed, the air quantity which is blown downwards obliquely is enabled to be blown downwards to the toughened crushed aggregates inside, the toughened glass crushed aggregates carriage is blown by the wind force matched with the transverse component force, the toughened glass crushed aggregates carriage is blown towards the second baffle 18, the wind force of the toughened glass crushed during forming is pushed out by changing the air outlet direction conveniently, the actual cleaning is automatic and convenient, and the use effect is good.

Working principle and using flow: when the glass after high-temperature softening moves to the conveying roller 2 on the forming interval frame 1, the conveying roller 2 is driven to rotate by the power box 3, so that the high-temperature softening glass gradually moves, the upper air cooling mechanism 4 is started, the upper air cooling mechanism 4 blows cooling air downwards, the lower air supply mechanism 8 is started, the air quantity in the lower air supply mechanism 8 is conveyed into the rotating rod 5 and blown out through the inner cavity 6 of the rotating rod 5 and the upward air outlet 7, the fan-shaped air outlet 7 is used for blowing out air quantity, the middle air quantity is blown out to the adjusting shaft 9 at the top and is further blown out in an inclined way along the conical bulge on the guide sleeve 10 on the outer side surface of the adjusting shaft 9, the obliquely blown-out air quantity is blown out obliquely towards the contact surface of the conveying roller 2 and the glass, the whole bottom surface of the glass to be formed is provided with cooling air with vertical and two-side multi-angle inclination, simultaneously, cooling water is introduced into the water inlet sleeve 20, so that the cooling water in the water inlet sleeve 20 enters the through hole 19 of the adjusting shaft 9 and circulates along the inside of the adjusting shaft 9, so that air surrounding the adjusting shaft 9 is rapidly cooled to low-temperature air and blown to the bottom of glass, the glass to be formed is rapidly cooled to toughened glass, and when the air is cooled down, the pushing mechanism 12 positioned above is started, the pushing mechanism 12 transversely reciprocates, the telescopic rod 122 in the pushing mechanism 12 acts and pushes the toothed plate 123 to move, the toothed plate 123 transversely moves and drives the meshed first gear 11 to reciprocate, thereby driving the adjusting shaft 9 to oscillate along with the guide sleeve 10, the air quantity blown out along the conical inclined surface of the guide sleeve 10 continuously changes the blowing direction, simultaneously the through hole 19 in the adjusting shaft 9 is not arranged at the center swings, and the through hole 19 is communicated with the water outlet hole 214 in the water outlet mechanism 21 when being only positioned in the middle part in the swinging process, so that water outlet is finished, cooling water is temporarily stored in the through hole 19 of the adjusting shaft 9 in the swinging dislocation time, and the toughened glass is finished to be rapidly molded; after rapid cooling forming is completed, by starting the pushing mechanism 12 positioned below and enabling the toothed plate 123 in the pushing mechanism 12 to transversely move for a certain distance, enabling the gear 15 which is transversely moved to push and meshed with the gear 15 to rotate for a certain angle, driving the rotating rod 5 to rotate along with the rotation of the gear 15, enabling the rotating rod 5 to rotate for a certain angle along the direction of the baffle 18, enabling the air outlet 7 on the outer surface of the rotating rod 5 to swing and then be aligned with the side opening 133 in the control mechanism 13, and enabling air quantity to be blown downwards along the inclined side opening 133 on the outer side surface of the control mechanism 13 along with continuous air supply of the lower air supply mechanism 8, enabling the blown inclined downwards air quantity to push toughened glass fragments to slide after the bottom of the forming space frame 1, enabling the internal toughened glass fragments to be pushed out by wind force laterally, and enabling the toughened glass fragments to be blown out along the bottom gap of the baffle 18.

Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims

1. Toughened glass forming device, including shaping district frame (1), its characterized in that: the inside cover of shaping district frame (1) is equipped with transport roller (2), the front of shaping district frame (1) is equipped with headstock (3), headstock (3) are located the front of shaping district frame (1), the top fixed mounting of shaping district frame (1) has upper portion forced air cooling mechanism (4), the inside activity of shaping district frame (1) has cup jointed dwang (5), inner chamber (6) have been seted up to the one end of dwang (5), air outlet (7) have been seted up to dwang (5) location surface, air outlet (7) are linked together with inner chamber (6), the front fixed mounting of shaping district frame (1) has lower part air feed mechanism (8), lower part air feed mechanism (8) are linked together with dwang (5), the inside activity of shaping district frame (1) has cup jointed regulating axle (9), the surface fixed joint of regulating axle (9) has led guide pin (10), the back fixed mounting of shaping district frame (1) has seted up inner chamber (6), a gear (12) has fixed gear (11) and has one to promote gear (11), a fixed number of meshing.

2. The tempered glass forming device according to claim 1, wherein: the lower air supply mechanism (8) comprises a communication sleeve (81), a mounting sleeve (82) and a fan (83), wherein the communication sleeve (81) is fixedly connected to the front face of the forming area frame (1), the mounting sleeve (82) is fixedly communicated to the front face of the communication sleeve (81), and the fan (83) is arranged in the mounting sleeve (82).

3. The tempered glass forming device according to claim 1, wherein: the number of pushing mechanisms (12) is two, the pushing mechanisms (12) are distributed on the back of the forming area frame (1) up and down, each pushing mechanism (12) comprises a mounting frame (121), a telescopic rod (122), a toothed plate (123) and a sliding plate (124), each mounting frame (121) is fixedly mounted on the end face of the forming area frame (1), each telescopic rod (122) is fixedly mounted inside each mounting frame (121), each toothed plate (123) is fixedly connected on the end face of each telescopic rod (122), each sliding plate (124) is fixedly connected on the back of each toothed plate (123), each sliding groove (16) is formed in the back of each forming area frame (1), and the inner surfaces of each sliding grooves (16) are movably sleeved with the corresponding sliding plates (124).

4. The tempered glass forming device according to claim 1, wherein: the adjusting shaft (9) is positioned below the conveying roller (2), and two sides of the guide sleeve (10) are conical protrusions.

5. The tempered glass forming device according to claim 1, wherein: the control mechanism (13) comprises a fixed cylinder (131), a top opening (132) and a side opening (133), wherein the fixed cylinder (131) is fixedly connected inside the forming area frame (1) and sleeved on the outer side of the rotating rod (5), the top opening (132) is formed in the top of the outer surface of the fixed cylinder (131), and the side opening (133) is formed in the side surface of the outer surface of the fixed cylinder (131) and is inclined downwards.

6. The tempered glass forming device according to claim 1, wherein: the rear end fixedly connected with fixed axle (14) of dwang (5), the surface mounting of fixed axle (14) has cup jointed No. two gears (15), no. two gears (15) are connected with pinion rack (123) meshing in pushing mechanism (12) that are arranged in the below, no. one gears (11) are connected with pinion rack (123) meshing in pushing mechanism (12) that are arranged in the top.

7. The tempered glass forming device according to claim 1, wherein: the front of shaping district frame (1) fixedly connected with cover (20) that intakes, cover (20) are located the outside of regulating spindle (9) front end, through-hole (19) have been seted up to the inside of regulating spindle (9), the center pin of through-hole (19) is non-collineation with the center pin of regulating spindle (9).

8. The tempered glass forming device according to claim 1, wherein: the back fixed mounting of shaping district frame (1) has play water mechanism (21), play water mechanism (21) are including fixed frame (211), sleeve pipe (212), closing plate (213) and apopore (214), fixed frame (211) fixed connection is on the back of shaping district frame (1), sleeve pipe (212) fixed intercommunication is on the front of fixed frame (211), closing plate (213) fixed intercommunication is on the terminal surface of sleeve pipe (212), apopore (214) are seted up on the front of closing plate (213).

9. The tempered glass forming device as claimed in claim 8, wherein: the sleeve (212) is sleeved on the outer side of the adjusting shaft (9), and the central axis of the water outlet hole (214) is not collinear with the central axis of the sleeve (212).

10. The tempered glass forming device according to claim 1, wherein: the inside of shaping district frame (1) is fixedly connected with baffle (17) and No. two baffle (18) respectively, the bottom surface of No. two baffle (18) does not contact with shaping district frame (1), no. two baffle (18) are close to one side of side mouth (133).