CN114433441A

CN114433441A - Automatic molding equipment of cavity glass

Info

Publication number: CN114433441A
Application number: CN202210073236.2A
Authority: CN
Inventors: 贾启洪; 戴新亮
Original assignee: Tianjin Jingshiyuan Glass Co ltd
Current assignee: Tianjin Jingshiyuan Glass Co ltd
Priority date: 2022-01-21
Filing date: 2022-01-21
Publication date: 2022-05-06
Anticipated expiration: 2042-01-21
Also published as: CN114433441B

Abstract

The utility model relates to a field of cavity glass production, especially, relate to an automatic molding equipment of cavity glass, which comprises a bod, be provided with the sealing mechanism who is used for sealing the glue to glass on the organism, it is used for the gyro wheel with glass rolling contact to rotate to be connected with on the organism, sealing mechanism both sides are provided with first conveying mechanism and the second conveying mechanism who is used for carrying glass, be provided with elevating system between second conveying mechanism and the organism, and glass bottom side is used for the downward movement second conveying mechanism and has the interval with the colloid of glass bottom side when sealing the glue, glass keeps away from gyro wheel one side and is provided with pressing mechanism, the organism is close to second conveying mechanism one side and is provided with hold-down mechanism, pressing mechanism and hold-down mechanism are located glass both sides and press from both sides tightly adsorb and carry. This application elevating system moves second conveying mechanism downwards, and pressing means and hold-down mechanism suspend glass tightly in midair and carry, reduce the probability of the colloid and the contact of second conveying mechanism of glass bottom side, have weakened the damage degree of the colloid that the cavity glass sealed the glue.

Description

Automatic molding equipment of cavity glass

Technical Field

The application relates to the field of hollow glass production, in particular to an automatic glue sealing device for hollow glass.

Background

The hollow glass is a glass product which is formed by uniformly separating two or more pieces of glass by effective support and sealing glue on the peripheral side edges of the hollow glass, so that a dry gas space is formed between glass layers, and the hollow glass has good heat insulation and sound insulation effects.

Hollow glass is at automatic sealing machine of hollow glass usually with in the course of working and producing, refer to fig. 1, current hollow glass sealing machine, which comprises a machine body 1, sealing machine constructs 2, first conveying mechanism 3 and second conveying mechanism 4, sealing machine constructs 2 for sealing to glass 9 side all around and connects in organism 1 middle part, first conveying mechanism 3 and second conveying mechanism 4 are located sealing machine structure 2 both sides and are connected with organism 1, and first conveying mechanism 3 and second conveying mechanism 4 are used for carrying glass 9, glass 9 is placed and is carried on first conveying mechanism 3 and second conveying mechanism 4, sealing machine constructs 2 simultaneously and seals the side all around to glass 9, second conveying mechanism 4 carries glass 9 after glass 9 seals the completion, accomplish glass 9 and seal the glue.

In view of the above-mentioned related technologies, the inventors believe that after the glass sealing is completed, the strength of the sealant is low, and the bottom-side sealing contacts the second conveying mechanism, which may deform or scratch the sealant, causing damage to the sealant.

Disclosure of Invention

In order to reduce the damage degree of the glue body of the hollow glass sealing glue, the application provides an automatic sealing glue device for the hollow glass.

The application provides an automatic molding equipment of cavity glass adopts following technical scheme:

the utility model provides an automatic molding equipment of cavity glass, which comprises a bod, be provided with the sealing mechanism who is used for sealing to glass on the organism, it is used for the gyro wheel with glass rolling contact to rotate to be connected with on the organism, sealing mechanism both sides are provided with first conveying mechanism and the second conveying mechanism who is used for carrying glass, be provided with elevating system between second conveying mechanism and the organism, and the glass bottom side is used for the second conveying mechanism of lapse and has the interval with the colloid of glass bottom side when sealing the glue, glass keeps away from gyro wheel one side and is provided with pressing mechanism, the organism is close to second conveying mechanism one side and is provided with hold-down mechanism, pressing mechanism and hold-down mechanism are located the glass both sides respectively and press from both sides tightly adsorb and carry.

Through adopting above-mentioned technical scheme, the glass seals the glue in-process, pressing mechanism presses glass on the gyro wheel, the mechanism seals the glue to the glass side of gluing, first conveying mechanism and second conveying mechanism carry glass and remove glass according to sealing the glue demand, simultaneously when sealing gluey mechanism seals the glue to the bottom side of glass, elevating system moves second conveying mechanism downwards, hold-down mechanism adsorbs glass, pressing mechanism and hold-down mechanism compress tightly and carry glass, glass has the interval with second conveying mechanism, the colloid that has reduced the glass bottom side and the probability of second conveying mechanism contact, the colloid has been reduced and has been out of shape and the probability by the fish tail, the damage degree of the colloid that the cavity glass sealed the glue has been weakened.

Preferably, pressing means includes first drive assembly, press seat and first adsorption component, first drive assembly connects on the organism and is used for horizontal migration to press the seat, first adsorption component connects in pressing the seat, hold-down mechanism includes second drive assembly, compress tightly seat and second adsorption component, second drive assembly connects in the organism and is used for horizontal migration to compress tightly the seat, second adsorption component connects in compressing tightly the seat, first adsorption component and second adsorption component all include the cylinder, base and sucking disc, the cylinder is connected in pressing the seat or compressing tightly the seat, the base rigid coupling is in the piston rod of cylinder, the sucking disc is connected on the base, and the cylinder is used for pressing the sucking disc and adsorbing on glass.

Through adopting the above technical scheme, pressing mechanism and hold-down mechanism press from both sides tight glass and horizontal migration glass, first adsorption component and second adsorption component's cylinder presses the sucking disc respectively and adsorbs in glass's both sides, first drive assembly and second drive assembly press the seat and compress tightly the seat in the horizontal direction drive, thereby drive glass and remove and carry, pressing mechanism presses glass in the gyro wheel simultaneously, first adsorption component and second adsorption component press from both sides tight and adsorb glass, the steadiness of suspending in midair glass has been improved, the gliding probability of glass under self action of gravity has been reduced, the steadiness that glass presss from both sides tightly and carries has been improved, the probability of glass slippage damage glass glues the colloid of gluing has been reduced, the damage degree of the colloid that the cavity glass glued has been weakened.

Preferably, the first driving assembly and the second driving assembly are both belt conveyors, the pressing seat and the pressing seat are detachably connected to belts of the first driving assembly and the second driving assembly respectively, and the pressing seat are slidably connected with racks of the first driving assembly and the second driving assembly respectively.

Through adopting above-mentioned technical scheme, belt conveyor's belt rotates to the drive presses the seat and compresses tightly the seat and rotate and remove along with the belt, belt conveyor's conveying stroke is long, and it is convenient to remove, is convenient for drive glass and removes and carry, presses the seat and compresses tightly the seat and can dismantle to be connected on the belt, convenient to detach changes the maintenance.

Preferably, all seted up the guide way in first drive assembly and the frame of second drive assembly, press the seat and compress tightly the equal rigid coupling in seat just to guide way department and have the guide block, the guide block slides along the guide way, and is used for pressing the seat and compressing tightly the seat removal and leading.

Through adopting above-mentioned technical scheme, first drive assembly and second drive assembly drive and press the seat, compress tightly the in-process that seat and glass removed, the guide block is located the guide way and slides along the guide way, guide way and guide block slide to pressing the seat and compressing tightly the seat and lead to and spacing, the degree of rocking has been reduced to pressing the seat and compressing tightly the seat removal in-process and taking place, the stability of pressing from both sides tight and carrying glass has been improved, the probability of the colloid that glass slippage damage glass sealed glues has been reduced, the damage degree of the colloid that the cavity glass sealed the glue has been weakened.

Preferably, the guide block is embedded with a ball, the ball is in rolling connection with the guide block, and the ball is in rolling contact with the inner wall of the guide groove.

Through adopting above-mentioned technical scheme, when the guide block slided along the guide way, the ball rotated, and the inner wall rolling contact of ball and guide way has reduced the frictional force between guide block and the frame, has reduced to press the seat and has compressed tightly the resistance that the seat removal in-process received, has improved to press the seat and has compressed tightly the convenience that the seat removed.

Preferably, the magnetic sheet is fixedly connected to the base of the first adsorption assembly, the auxiliary assembly is arranged on the base of the second adsorption assembly and comprises a magnetic sheet and a return spring, the magnetic sheet is located on one side, far away from the magnetic sheet, of the glass, the return spring is fixedly connected between the magnetic sheet and the base of the second adsorption assembly and used for pulling and resetting the magnetic sheet towards the direction far away from the glass, the magnetic sheet and the magnetic sheet attract each other and clamp the glass tightly, and a rubber pad is arranged on one side, close to the glass, of the magnetic sheet.

Through adopting above-mentioned technical scheme, when first drive assembly drives first adsorption component and is close to second adsorption component, the magnetic sheet attracts the magnetic path, the magnetic path is towards being close to the glass direction and removing, reset spring extends this moment, the rubber pad contacts with glass, the magnetic path further presss from both sides glass tightly with first adsorption component, first adsorption component removes towards keeping away from second adsorption component direction afterwards, the magnetic sheet is kept away from behind the magnetic path, reset spring resets the magnetic path, auxiliary assembly and first adsorption component press from both sides glass tightly, pressing mechanism and hold-down mechanism hang the steadiness of glass in midair has further been improved, the probability that glass slippage damage glass sealed the glue colloid has been reduced, the damage degree of the glue of cavity glass sealed glue has been weakened.

Preferably, a guide rod is fixedly connected to one side, away from the glass, of the magnetic block, and the guide rod is horizontally connected with a base of the second adsorption assembly in a sliding mode and used for guiding the movement of the magnetic block.

Through adopting above-mentioned technical scheme, when the magnetic sheet attracted the magnetic path, the magnetic path was towards being close to glass direction removal, and the guide bar removed along with the magnetic path removal, and the guide bar takes place relative slip and leads to the magnetic path removal with second adsorption component's base simultaneously, has weakened the crooked degree of rocking of reset spring, has reduced the magnetic path and has removed the degree that the in-process takes place to rock, has improved the stability that the magnetic path removed.

Preferably, the drying mechanism is arranged on the machine body and comprises an electric heating rod and a heat conduction cover body, the heat conduction cover body is fixedly connected to the machine body close to the second conveying mechanism, the electric heating rod is fixedly connected to the heat conduction cover body and used for drying the colloid on the bottom side of the glass, and the heat conduction cover body is arranged outside the electric heating rod.

Through adopting above-mentioned technical scheme, the electric heat bar is dried the colloid of glass bottom side, and the heat conduction cover body further reflects the heat that the electric heat bar gived off simultaneously, makes the colloid have certain intensity for the speed that the colloid solidifies has reduced the colloid and has received external force and take place to warp and by the probability of fish tail, has weakened the damage degree of the colloid that the cavity glass sealed the glue.

Preferably, a fan is arranged on the machine body close to the second conveying mechanism and used for air-drying the glue on the bottom side of the glass.

By adopting the technical scheme, the glass is suspended above the second conveying mechanism, the fan further dries the colloid on the bottom side of the glass in the air, the solidification speed of the colloid on the bottom side of the glass is improved, the probability that the colloid is deformed and scratched due to external force is reduced, and the damage degree of the colloid for sealing the hollow glass is weakened.

Preferably, the lifting mechanism is a hydraulic cylinder or an air cylinder.

By adopting the technical scheme, the hydraulic cylinder or the hydraulic oil cylinder is a hydraulic actuating element which converts hydraulic energy into mechanical energy and makes linear reciprocating motion, and the stability is high.

In summary, the present application includes at least one of the following beneficial technical effects:

1. the lifting mechanism moves the second conveying mechanism downwards, and the pressing mechanism clamp, suspend and convey the glass, so that the probability of contact between the colloid on the bottom side of the glass and the second conveying mechanism is reduced, and the damage degree of the colloid for sealing the hollow glass is weakened;

2. by arranging the auxiliary assembly, the magnetic sheet and the magnetic block attract each other and further clamp the glass, the stability of the pressing mechanism and the pressing mechanism for suspending the glass is improved, and the probability that the glass slips to damage the colloid of the glass sealing adhesive is reduced;

3. through setting up stoving mechanism, dry the colloid of glass bottom side for the speed that the colloid solidifies, weakened the damage degree of the colloid that the cavity glass sealed glues.

Drawings

FIG. 1 is a background art drawing of the present application;

FIG. 2 is a state diagram of use of an embodiment of the present application;

FIG. 3 is a partial cross-sectional view highlighting the first adsorbent assembly;

FIG. 4 is a partial view highlighting the hold-down mechanism;

fig. 5 is a partially enlarged view of a portion a in fig. 2.

Description of reference numerals: 1. a body; 11. a roller; 12. a drying mechanism; 121. an electric heating rod; 122. a heat conducting cover body; 13. a fan; 2. a glue sealing mechanism; 3. a first conveying mechanism; 4. a second conveying mechanism; 5. a lifting mechanism; 6. a pressing mechanism; 61. a first drive assembly; 611. a belt; 612. a frame; 6121. a guide groove; 62. a pressing seat; 63. a first adsorption module; 631. a cylinder; 632. a base; 633. a suction cup; 634. a magnetic sheet; 7. a hold-down mechanism; 71. a second drive assembly; 72. a pressing seat; 73. a second adsorption component; 74. an auxiliary component; 741. a magnetic block; 7411. a rubber pad; 742. a return spring; 743. a guide bar; 8. a guide block; 81. a ball bearing; 9. and (3) glass.

Detailed Description

The present application is described in further detail below with reference to figures 2-5.

The embodiment of the application discloses an automatic glue sealing device for hollow glass. Referring to fig. 2, an automatic glue sealing device for hollow glass comprises a machine body 1, a glue sealing mechanism 2 for sealing glue to glass 9 is arranged on the machine body 1, a first conveying mechanism 3 and a second conveying mechanism 4 for conveying the glass 9 are arranged on two sides of the glue sealing mechanism 2, a lifting mechanism 5 is arranged between the second conveying mechanism 4 and the machine body 1, the second conveying mechanism 4 is used for moving downwards and is spaced from glue on the bottom side of the glass 9 when the bottom side of the glass 9 is sealed, a pressing mechanism 6 is arranged on one side of the glass 9 far away from a roller 11, a pressing mechanism 7 is arranged on one side of the machine body 1 close to the second conveying mechanism 4, the pressing mechanism 6 and the pressing mechanism 7 are respectively positioned on two sides of the glass 9 for clamping adsorption and conveying, after the bottom side of the glass 9 is sealed, the lifting mechanism 5 moves downwards and is spaced from the glue on the bottom side of the glass 9, and the pressing mechanism 6 and the pressing mechanism 7 suspend and clamp and convey the glass 9, the probability that the colloid is deformed and scratched by an external force is reduced, and the damage degree of the colloid sealed by the hollow glass 9 is weakened.

Referring to fig. 2, the machine body 1 is vertically arranged, a roller 11 is rotatably connected to the machine body 1 and is used for rolling contact with the glass 9, and the rotation direction of the roller 11 is the same as the direction of conveying the glass 9 by the first conveying mechanism 3 and the second conveying mechanism 4. Glass 9 is vertical to be set up, first conveying mechanism 3 and second conveying mechanism 4 are belt conveyor, first conveying mechanism 3 and second conveying mechanism 4 are used for carrying glass 9 at the horizontal direction, first conveying mechanism 3 is located direction of delivery's initiating terminal and connects in organism 1, second conveying mechanism 4 is located direction of delivery's end, elevating system 5 is located organism 1 and second conveying mechanism 4 bottom, elevating system 5 is pneumatic cylinder or cylinder 631, the vertical setting of elevating system 5 and rigid coupling on organism 1, elevating system 5's piston rod and second conveying mechanism 4's bottom rigid coupling, and glass 9 bottom side is used for the downward movement second conveying mechanism 4 and has the interval with the colloid of glass 9 bottom side when gluing.

During the glue sealing process of the glass 9, the pressing mechanism 6 presses the glass 9 on the roller 11, the glass 9 is placed on the first conveying mechanism 3 and the second conveying mechanism 4 for conveying, the pressing mechanism 6 and the pressing mechanism 7 clamp and convey the glass 9, meanwhile, the glue sealing mechanism 2 seals glue on the right side, the top side and the left side of the glass 9 in sequence, when the bottom side of the glass 9 is sealed, the piston rod of the lifting mechanism 5 drives the second conveying mechanism 4 to move downwards, so that the second conveying mechanism 4 is spaced from the glue on the bottom side of the glass 9, the probability that the glue on the bottom side of the glass 9 is contacted with the second conveying mechanism 4 is reduced, the probability that the glue is deformed and scratched is reduced, and the damage degree of the glue sealed by the hollow glass 9 is reduced.

Referring to fig. 2 and 3, the pressing mechanism 6 includes a first driving assembly 61, a pressing base 62, and a first adsorption assembly 63, the first driving assembly 61 is connected to the machine body 1 and is used for horizontally moving the pressing base 62, and the first adsorption assembly 63 is connected to the pressing base 62; the pressing mechanism 7 comprises a second driving assembly 71, a pressing base 72 and a second adsorption assembly 73, the second driving assembly 71 is connected to the machine body 1 and used for horizontally moving the pressing base 72, the second adsorption assembly 73 is connected to the pressing base 72, and the first adsorption assembly 63 and the second adsorption assembly 73 are respectively adsorbed on two sides of the glass 9 and clamp the glass 9. The first driving assembly 61 and the second driving assembly 71 are both belt conveyors, the conveying direction of the first driving assembly is the same as that of the glass 9, and the pressing seat 62 and the pressing seat 72 are detachably connected to belts 611 of the first driving assembly 61 and the second driving assembly 71 through bolts respectively; guide slot 6121 has all been seted up on the frame 612 of first drive assembly 61 and second drive assembly 71, the direction of seting up of guide slot 6121 is the same with glass 9's direction of delivery, press seat 62 and compress tightly seat 72 and just have the guide block 8 to the equal rigid coupling in guide slot 6121 department, guide block 8 is located guide slot 6121, the top and the bottom of guide block 8 all inlay and are equipped with ball 81, ball 81 is provided with a plurality ofly, the even interval distribution of direction along guide slot 6121 of a plurality of ball 81, ball 81 and the inner wall rolling contact of guide slot 6121.

The first adsorption component 63 and the second adsorption component 73 are adsorbed on two sides of the glass 9 and clamp and suspend the glass 9, when the glass 9 is conveyed, the belts 611 of the first driving component 61 and the second driving component 71 rotate and drive the pressing seat 62 and the pressing seat 72 to move, and meanwhile, the balls 81 are located in the guide groove 6121 and are in rolling contact with the inner wall of the guide groove 6121, so that the friction force between the guide block 8 and the rack 612 is reduced, and the pressing seat 62 and the pressing seat 72 are convenient to move. The guide groove 6121 further guides the movement of the pressing seat 62 and the pressing seat 72, so that the shaking degree of the pressing seat 62 and the pressing seat 72 in the moving process is reduced, the glass 9 clamped between the first adsorption component 63 and the second adsorption component 73 is conveyed along with the movement of the pressing seat 62 and the pressing seat 72, and the stability of clamping and conveying the glass 9 is improved.

Referring to fig. 3, each of the first adsorption assembly 63 and the second adsorption assembly 73 includes an air cylinder 631, a base 632, and a suction cup 633, the air cylinder 631 is perpendicular to the glass 9, the air cylinder 631 is fixedly connected to one side of the pressing base 62 or the pressing base 72 close to the glass 9, the base 632 is fixedly connected to a piston rod of the air cylinder 631, the suction cup 633 is fixedly connected to one side of the base 632 close to the glass 9, and the air cylinder 631 is used for pressing and adsorbing the suction cup 633 on the glass 9.

Referring to fig. 3 and 4, a magnetic sheet 634 is fixed to a side of the base 632 of the first adsorption assembly 63 adjacent to the glass 9. An auxiliary assembly 74 is arranged on the base 632 of the second adsorption assembly 73, the auxiliary assembly 74 includes a magnetic block 741, a guide rod 743 and a return spring 742, the magnetic block 741 is located on one side of the glass 9 far away from the magnetic sheet 634, the magnetic block 741 is parallel to the glass 9, the guide rod 743 is perpendicular to the glass 9, the guide rod 743 is fixedly connected to one side of the magnetic block 741 far away from the glass 9, and the guide rod 743 is horizontally connected with the base 632 of the second adsorption assembly 73 in a sliding manner; the reset spring 742 is sleeved outside the guide rod 743 and coaxially disposed, the reset spring 742 is fixedly connected between the magnetic block 741 and the base 632 of the second adsorption assembly 73, and is used for pulling the magnetic block 741 toward a direction away from the glass 9 and resetting, the magnetic sheet 634 and the magnetic block 741 attract each other and clamp the glass 9, and a rubber pad 7411 is disposed on a side of the magnetic block 741 close to the glass 9.

First, the piston rod of the cylinder 631 of the first adsorption assembly 63 pushes the base 632 and the suction cup 633 to move toward the glass 9, the suction cup 633 of the first adsorption assembly 63 adsorbs on the glass 9 and presses the glass 9 onto the roller 11, then the first conveying mechanism 3 conveys the glass 9 to the second conveying mechanism 4, when the second adsorption assembly 73 is aligned with the first adsorption assembly 63, the piston rod of the cylinder 631 of the second adsorption assembly 73 moves the base 632 and the suction cup 633 toward the glass 9, the suction cup 633 of the second adsorption assembly 73 adsorbs on the glass 9, and the first adsorption assembly 63 and the second adsorption assembly 73 adsorb and clamp the glass 9. Meanwhile, the magnetic sheet 634 on the base 632 of the first adsorption assembly 63 moves towards the direction close to the magnetic block 741, the magnetic sheet 634 and the magnetic block 741 are attracted to each other, the reset spring 742 extends, meanwhile, the guide rod 743 moves towards the direction close to the glass 9 along with the movement of the magnetic block 741 and slides relative to the base 632 of the second adsorption assembly 73, the guide rod 743 moves to guide the magnetic block 741, and the bending degree of the reset spring 742 and the shaking degree of the magnetic block 741 are weakened; the auxiliary assembly 74 and the first adsorption assembly 63 clamp the glass 9, the stability of the pressing mechanism 6 and the pressing mechanism 7 in hanging the glass 9 is further improved, the probability that the glass 9 slips to damage the glue of the glue for sealing the glass 9 is reduced, and the damage degree of the glue for sealing the hollow glass 9 is reduced.

Referring to fig. 2 and 5, the drying mechanism 12 is disposed on the machine body 1, the drying mechanism 12 includes an electric heating rod 121 and a heat conducting cover 122, the heat conducting cover 122 is fixedly connected to the machine body 1 near the second conveying mechanism 4, the electric heating rod 121 is fixedly connected to the heat conducting cover 122 and horizontally disposed for drying the glue on the bottom side of the glass 9, and the heat conducting cover 122 is covered outside the electric heating rod 121. The body 1 is provided with a fan 13 near the second conveying mechanism 4, and is used for air-drying the glue on the bottom side of the glass 9, and the fan 13 is provided with two ends respectively located at the electric heating rod 121.

Pressing means 6 and hold-down mechanism 7 press from both sides glass 9 tightly, elevating system 5 moves second conveying mechanism 4 downwards, thereby make glass 9 suspend in midair in second conveying mechanism 4 top, fan 13 further air-dries the colloid of glass 9 bottom side, electric heat rod 121 gives off the heat simultaneously, heat conduction cover body 122 further reflects the heat that electric heat rod 121 gave off, thereby dry the colloid of glass 9 bottom side, the speed that the colloid of glass 9 bottom side solidifies is improved, the colloid has been reduced and has been taken place to warp and by the probability of fish tail by external force, the damage degree of the colloid of the sealed glue of cavity glass 9 has been weakened.

The application principle of the automatic glue sealing device for the hollow glass in the embodiment of the application is as follows: during the glue sealing process of the glass 9, the pressing mechanism 6 presses the glass 9 onto the roller 11, the glue sealing mechanism 2 seals glue on the side edge of the glass 9, the first conveying mechanism 3 and the second conveying mechanism 4 convey the glass 9 and move the glass 9 according to the glue sealing requirement, meanwhile, when the glue sealing mechanism 2 seals glue on the bottom side of the glass 9, the lifting mechanism 5 moves the second conveying mechanism 4 downwards, the pressing mechanism 7 adsorbs the glass 9, the pressing mechanism 6 and the pressing mechanism 7 compress and convey the glass 9, the glass 9 is separated from the second conveying mechanism 4, the probability that the glue on the bottom side of the glass 9 is contacted with the second conveying mechanism 4 is reduced, the probability that the glue is deformed and scratched is reduced, and the damage degree of the glue sealed by the hollow glass 9 is weakened.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: equivalent changes in structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims

1. The utility model provides an automatic molding equipment of cavity glass, includes organism (1), is provided with on organism (1) to be used for sealing gluey mechanism (2) of gluing glass (9), rotates on organism (1) to be connected with gyro wheel (11) that are used for with glass (9) rolling contact, its characterized in that: seal gluey mechanism (2) both sides and be provided with first conveying mechanism (3) and second conveying mechanism (4) that are used for carrying glass (9), be provided with elevating system (5) between second conveying mechanism (4) and organism (1), and glass (9) bottom side is used for second conveying mechanism (4) of lapse and has the interval with the colloid of glass (9) bottom side when gluing, gyro wheel (11) one side is kept away from in glass (9) is provided with pressing means (6), organism (1) is close to second conveying mechanism (4) one side and is provided with hold-down mechanism (7), pressing means (6) and hold-down mechanism (7) are located glass (9) both sides respectively and press from both sides tightly adsorb and carry.

2. The automatic sealing device for hollow glass as claimed in claim 2, wherein: the pressing mechanism (6) comprises a first driving assembly (61), a pressing base (62) and a first adsorption assembly (63), the first driving assembly (61) is connected to the machine body (1) and used for horizontally moving the pressing base (62), the first adsorption assembly (63) is connected to the pressing base (62), the pressing mechanism (7) comprises a second driving assembly (71), a pressing base (72) and a second adsorption assembly (73), the second driving assembly (71) is connected to the machine body (1) and used for horizontally moving the pressing base (72), the second adsorption assembly (73) is connected to the pressing base (72), the first adsorption assembly (63) and the second adsorption assembly (73) respectively comprise an air cylinder (631), a base (632) and a sucker (633), the air cylinder (631) is connected to the pressing base (62) or the pressing base (72), the base (632) is fixedly connected to a piston rod of the air cylinder (631), and the sucker (633) is connected to the base (632), and the air cylinder (631) is used for pressing and adsorbing the sucker (633) on the glass (9).

3. The automatic sealing device for hollow glass as claimed in claim 2, wherein: the first driving assembly (61) and the second driving assembly (71) are both belt conveyors, the pressing seat (62) and the pressing seat (72) are detachably connected to belts (611) of the first driving assembly (61) and the second driving assembly (71) respectively, and the pressing seat (62) and the pressing seat (72) are slidably connected with racks (612) of the first driving assembly (61) and the second driving assembly (71) respectively.

4. The automatic sealing device for hollow glass as claimed in claim 3, wherein: all seted up guide way (6121) on frame (612) of first drive assembly (61) and second drive assembly (71), press seat (62) and compress tightly seat (72) and just have guide block (8) to all the rigid coupling in guide way (6121) department, guide block (8) slide along guide way (6121), and are used for pressing seat (62) and compress tightly seat (72) and remove and lead.

5. The automatic sealing device for hollow glass as claimed in claim 4, wherein: the ball (81) is embedded in the guide block (8), the ball (81) is in rolling connection with the guide block (8), and the ball (81) is in rolling contact with the inner wall of the guide groove (6121).

6. The automatic sealing device for hollow glass as claimed in claim 2, wherein: a magnetic sheet (634) is fixedly connected to a base (632) of the first adsorption assembly (63), an auxiliary assembly (74) is arranged on the base (632) of the second adsorption assembly (73), the auxiliary assembly (74) comprises a magnetic sheet (741) and a reset spring (742), the magnetic sheet (741) is located on one side, away from the magnetic sheet (634), of the glass (9), the reset spring (742) is fixedly connected between the magnetic sheet (741) and the base (632) of the second adsorption assembly (73) and used for pulling and resetting the magnetic sheet (741) in the direction away from the glass (9), the magnetic sheet (634) and the magnetic sheet (741) are mutually attracted and clamp the glass (9), and a rubber pad (7411) is arranged on one side, close to the glass (9), of the magnetic sheet (741).

7. The automatic sealing device for hollow glass as claimed in claim 6, wherein: and one side of the magnetic block (741) far away from the glass (9) is fixedly connected with a guide rod (743), and the guide rod (743) is horizontally connected with a base (632) of the second adsorption assembly (73) in a sliding manner and is used for movably guiding the magnetic block (741).

8. The automatic sealing device for hollow glass as claimed in claim 1, wherein: the glass drying machine is characterized in that the drying mechanism (12) is arranged on the machine body (1), the drying mechanism (12) comprises an electric heating rod (121) and a heat conduction cover body (122), the heat conduction cover body (122) is fixedly connected to the position, close to the second conveying mechanism (4), of the machine body (1), the electric heating rod (121) is fixedly connected to the heat conduction cover body (122) and used for drying glue on the bottom side of glass (9), and the heat conduction cover body (122) is covered outside the electric heating rod (121).

9. The automatic sealing device for hollow glass as claimed in claim 1, wherein: a fan (13) is arranged on the machine body (1) close to the second conveying mechanism (4) and used for air-drying the colloid on the bottom side of the glass (9).

10. The automatic sealing device for hollow glass as claimed in claim 1, wherein: the lifting mechanism (5) is a hydraulic cylinder or an air cylinder (631).