CN115385586A - Riding wheel device for processing and manufacturing hollow glass - Google Patents

Abstract

The invention discloses a riding wheel device for processing and manufacturing hollow glass, which comprises a lifting beam, wherein the lower end of the lifting beam is provided with a telescopic mechanism, the rear end of the lifting beam is provided with a lifting mechanism, the front end surface of the lifting beam is connected with a plurality of lifting frames, the bottom ends of the lifting frames are connected with riding wheels, and the rear end of the lifting beam is also provided with a first driving mechanism and a second driving mechanism which are used for driving the telescopic mechanism and the lifting mechanism respectively. The supporting roller device has the advantages of telescopic hiding performance and lifting accurate positioning function, can assist supporting and auxiliary conveying, and can accurately and quickly support other glass except the last glass in the plate pressing machine before and after pressing to prevent falling and dislocation.

Description

Riding wheel device for processing and manufacturing hollow glass

Technical Field

The invention relates to the technical field of hollow glass processing and manufacturing, in particular to a riding wheel device for processing and manufacturing hollow glass.

Background

The existing hollow glass sheet laminating process mainly comprises two types, wherein one type is an external sheet laminating mode, namely, hollow glass is pre-combined into a required hollow glass product structure before entering a plate press, and then the hollow glass is conveyed into a plate press to be pressed and firmly bonded; the other mode is an in-plate laminating mode, namely hollow glass is formed and laminated in a plate press, the plate press is required to be provided with a lifting device for supporting the glass away from a conveying roller, and an in-plate laminating process with an in-plate bottom edge lifting device is provided, so that a solution is provided for online inflation of large and small pieces of flash glass and hollow glass (note: inert gas (AR argon) is filled in a hollow glass cavity, the heat insulation performance of the hollow glass is improved, and the thermal deformation of the hollow glass caused by temperature change is reduced). The in-plate laminating machine can position glass by arranging the movable limiting arm, so that the non-equilateral hollow glass in the length direction of the hollow glass, namely the single-side flash/double-side flash large and small hollow glass can be realized, and because the in-plate laminating machine is not limited by a movable guide rod structure, the upper edge of the fixed glass can be free from the allowable glass height difference of the equal sheets, and the upper/left/right single-side flash/double-side flash/three-side flash can be realized. In addition, the patent that has been filed by the department of the patent entitled "lifting device for processing and manufacturing hollow glass" realizes the online production of hollow glass with large and small four-side sheets.

The above is the current development situation of the in-board sheet combining machine and the in-board inflator. The prior art and the structure have the risk of staggering the glass sheets up and down when processing large-plate multilayer hollow glass and four-side large-side hollow glass, when the large-plate multilayer hollow glass is processed, a front plate sucker only adsorbs a first glass sheet, a second glass sheet is subjected to first pressing and then is adhered and suspended by butyl rubber on a spacing strip, and the glass sheet possibly falls down due to the self weight of the glass; when the hollow glass with the same four-side large and small pieces is pressed and the front plate sucker releases the hollow glass to a conveying plate inner combining (inflating) machine, the hollow small pieces of glass are not supported and can fall due to dead weight, and the phenomenon of wrong pieces can occur.

Disclosure of Invention

The invention provides a riding wheel device for processing and manufacturing hollow glass, which can solve the technical problems in the related art.

In order to achieve the technical purpose, the technical scheme of the invention is realized as follows:

the utility model provides a riding wheel device for cavity glass manufacturing, includes the lifting beam, the lower extreme of lifting beam is equipped with telescopic machanism, the rear end of lifting beam is equipped with elevating system, the preceding terminal surface of lifting beam is connected with a plurality of hoisting frames, the bottom of hoisting frame is connected with the riding wheel, the rear end of lifting beam still is equipped with and is used for driving respectively telescopic machanism elevating system's first actuating mechanism and second actuating mechanism.

Furthermore, telescopic machanism includes the support mounting base plate, support mounting base plate lower extreme is connected with slider one, slider one sliding connection concertina movement guide rail.

Furthermore, the telescopic motion guide rail is arranged on a fixed seat, the fixed seat is connected to a base installation substrate, and the base installation substrate is fixed at the bottom of a front plate frame of the in-plate laminating machine through screws.

Furthermore, the lifting mechanism comprises a lifting support, a lifting guide rail positioned on the lifting support and a second sliding block connected to the rear end face of the lifting beam, and the lifting support is fixedly installed on the support installation base plate.

Furthermore, the first driving mechanism comprises two first speed reducers, the two first speed reducers are connected with a first synchronizing shaft through a first coupler, an output shaft of the first speed reducer is a telescopic ball screw, the first speed reducer is driven by a servo motor, and a telescopic ball screw nut matched with the telescopic ball screw is arranged on the support mounting base plate.

Furthermore, the second driving mechanism comprises two second speed reducers, the two second speed reducers are connected with a second synchronizing shaft through a second coupler, the output shafts of the second speed reducers are lifting ball screws, the second speed reducers are driven by the second servo motors, lifting beam supports are further connected onto the lifting beams, and lifting ball screw nuts matched with the lifting ball screws are arranged on the lifting beam supports.

The invention has the beneficial effects that: the riding wheel device has the advantages of telescopic hiding performance and lifting accurate positioning function, can assist in supporting and conveying, and can accurately and rapidly support other glasses except the last glass in a plate press before and after pressing to prevent dropping and dislocation.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings needed in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings without creative efforts.

The invention is explained in further detail below with reference to the drawing.

FIG. 1 is a schematic structural diagram of an idler device for processing and manufacturing hollow glass according to an embodiment of the invention;

FIG. 2 is a rear view of a riding wheel device for hollow glass processing and manufacturing according to an embodiment of the invention;

FIG. 3 is a schematic structural diagram of an internal laminating machine for hollow glass sheets according to an embodiment of the present invention;

FIG. 4 is a front view of a platen press front plate according to an embodiment of the present invention;

FIG. 5 is a schematic structural diagram of a front frame according to an embodiment of the present invention;

fig. 6 is a partially enlarged view of the lower right side of fig. 5.

In the figure:

1. a base mounting substrate; 2. a fixed seat; 3. a telescopic motion guide rail; 4. a support mounting substrate; 5. a lifting beam; 6. a hoisting frame; 7. a riding wheel; 8. a lifting support; 9. a lifting guide rail; 10. a telescopic ball screw; 11. a first servo motor; 12. a telescoping ball screw nut; 13. a first synchronizing shaft; 14. a second speed reducer; 15. a second synchronizing shaft; 16. a lifting ball screw; 17. a servo motor II; 18. a lifting beam support; 19. a front plate frame; 20. pressing the front plate; 21. avoiding the first groove; 22. avoiding a second groove; 23. a lifting device; 24. a limiting arm; 25. front plate sucking disc.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived from the embodiments of the present invention by a person skilled in the art, are within the scope of the present invention.

As shown in fig. 1 to 6, the riding wheel device for processing and manufacturing hollow glass according to the embodiment of the present invention includes a lifting beam 5, a telescopic mechanism is disposed at a lower end of the lifting beam 5, a lifting mechanism is disposed at a rear end of the lifting beam 5, a plurality of lifting frames 6 are connected to a front end surface of the lifting beam 5, a riding wheel 7 is connected to a bottom end of each lifting frame 6, and a first driving mechanism and a second driving mechanism for respectively driving the telescopic mechanism and the lifting mechanism are further disposed at a rear end of the lifting beam 5.

In one embodiment of the present invention, the lifting mechanism includes a lifting support 8, a lifting guide rail 9 located on the lifting support 8, and a second sliding block connected to the rear end surface of the lifting beam 5, and the lifting support 8 is fixedly mounted on the support mounting substrate 4; the second driving mechanism comprises two second speed reducers 14, the two second speed reducers 14 are connected with a second synchronizing shaft 15 through second couplers, the output shafts of the second speed reducers 14 are lifting ball screws 16, the second speed reducers 14 are driven through second servo motors 17, the lifting beam 5 is also connected with a lifting beam support 18, and lifting ball screw nuts matched with the lifting ball screws 16 are arranged on the lifting beam support 18; can drive the lifting beam 5 through elevating system and second actuating mechanism and make elevating movement, the drive principle: the servo motor II 17 starts to drive the output shaft of the speed reducer II 14 to lift the ball screw 16 to rotate, the lifting beam support 18 is driven to do lifting motion through the screw rod transmission belt, so that the lifting beam 5 is driven to do lifting motion, and the speed reducers II 14 on the two sides guarantee the output synchronism of the speed reducers II 14 through the connection of the coupler II and the synchronizing shaft II 15.

In an embodiment of the invention, the telescopic mechanism comprises a support mounting substrate 4, the lower end of the support mounting substrate 4 is connected with a first sliding block, the first sliding block is slidably connected with a telescopic motion guide rail 3, the telescopic motion guide rail 3 is arranged on a fixed seat 2, the fixed seat 2 is connected on a base mounting substrate 1, the base mounting substrate 1 is fixed at the bottom of a front plate frame of an in-plate laminating machine (so that the device is hidden at the bottom of an inflatable front plate frame when not working), the first driving mechanism comprises two first speed reducers, the first speed reducers are connected with a first synchronizing shaft 13 through a first coupling, the output shaft of the first speed reducers is a telescopic ball screw 10, the first speed reducers are driven by a first servo motor 11, telescopic ball screw nuts 12 matched with the telescopic ball screws 10 are arranged on the support mounting substrate 4, and the lifting beam 5 can be driven to perform telescopic motion through the telescopic mechanism and the first driving mechanism, and the driving principle is as follows: the servo motor I11 starts to drive an output shaft telescopic ball screw 10 of the speed reducer I to rotate, the support mounting base plate 4 is driven to do telescopic motion through the screw rod transmission belt, and therefore the lifting beam 5 is pushed to do telescopic motion, and the speed reducers I on the two sides guarantee output synchronism of the speed reducers I through connection of the coupling I and the synchronizing shaft I13.

In one embodiment of the invention, limit sensors are respectively arranged at two ends of the stroke of the lifting motion and the stroke of the telescopic motion, so as to protect a mechanical mechanism from preventing the riding wheel structure from moving beyond limit, for example, a support sheet is connected to the left side of the lifting support 8 on the right side in fig. 1, and a mounting groove is formed in the support sheet for mounting the limit sensors.

In one embodiment of the invention, the invention is fixedly connected with the bottom of a front plate frame 19 of an in-plate sheet combining (inflating) machine and integrally arranged at the rear side of a plate pressing front plate 20, an avoidance groove I21 matched with a riding wheel 7 is arranged at a corresponding position at the lower side of the plate pressing front plate 20 (the avoidance groove I21 and an avoidance groove II 22 of a lifting device 23 are arranged in a staggered manner), when the in-plate sheet combining (inflating) machine does not work, the riding wheel 7 is hidden in the plate pressing front plate 20, when the in-plate sheet combining (inflating) machine works, the riding wheel 7 capable of freely rotating can correspondingly extend out from the lower side of the plate pressing front plate 20, the riding wheel accurately positions and supports glass adsorbed by the plate pressing front plate 20, and plays an auxiliary supporting role in a sheet combining and delivering process.

When the device is used specifically, the device is fixedly connected with the bottom of the front plate frame 19, and the riding wheel 7 has the movement capability of accurate positioning up and down and back and forth under the driving of the two-shaft servo motor, namely has the telescopic hiding performance and the lifting accurate positioning function, and has the auxiliary supporting and conveying functions. When the machine works, a first piece of glass enters the position of the limiting arm 24 of the in-plate combination piece inflator, the bottom edge lifting device 23 supports the glass, the plate pressing front plate 20 is pressed, the front plate sucker 25 sucks the glass, the riding wheel 7 extends out of the lower side of the bottom edge of the glass corresponding to the plate pressing front plate 20 by a distance which is larger than the thickness of the glass and smaller than the sum of the widths of the glass and the hollow spacing bars, then the riding wheel 7 is lifted to contact the bottom edge of the glass, the auxiliary supporting and anti-falling effect is realized, the front plate 20 is pressed to open, the next piece of glass with the spacing strip frame enters and hears the limiting arm 24, pressing the front plate 20 to complete pressing of a layer of hollow glass, repeating the above steps if a multi-layer hollow riding wheel structure is adopted, the bottom lifting device 23 and the riding wheel 7 are simultaneously lowered until the last piece of glass is pressed and laid on the conveying wheel (the last piece of hollow glass is laid on the bottom lifting device 23, the rest of glass is laid on the riding wheel 7 of the application, the bottom edge of the hollow glass is either all the same level or is a large piece with fins, and the last piece of hollow glass is a large piece of glass, and the bottom edge of the large piece of glass protrudes out of the fins, so that when the hollow glass is released, the bottom edge of the last piece of glass is taken as a reference and the large piece of glass is laid on the conveying wheel, and the glass can be conveyed out of the conveying wheel 7 without dropping and staggering the glass), and when the glass is conveyed out of an in-plate sheet combination inflator, the riding wheel device is reset and hidden in the plate pressing front plate 20 to finish the production cycle, and the next piece of hollow glass is processed. The subsequent equipment (the output conveyor with the function of the four-side large and small sheets and the automatic gluing machine with the function of the four-side large and small sheets) in the hollow glass production line has corresponding structures of supporting sheets, so that the falling and dislocation of the hollow glass can be avoided from the automatic production to the completion of the final gluing process. Therefore, the all-round type plate inner laminating (inflating) machine with the supporting wheel device capable of being accurately positioned effectively solves the problem of wrong lamination caused by self-weight falling in the synthetic process of the hollow glass, can accurately process large-plate, multi-layer and multi-edge large and small hollow glass sheets, and really achieves all functions of one machine.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and should not be taken as limiting the scope of the present invention, which is intended to cover any modifications, equivalents, improvements, etc. within the spirit and scope of the present invention.

Claims (6)

1. The riding wheel device for processing and manufacturing the hollow glass is characterized in that: including lifting beam (5), the lower extreme of lifting beam (5) is equipped with telescopic machanism, the rear end of lifting beam (5) is equipped with elevating system, the preceding terminal surface of lifting beam (5) is connected with a plurality of hoisting frames (6), the bottom of hoisting frame (6) is connected with riding wheel (7), the rear end of lifting beam (5) still is equipped with and is used for driving respectively telescopic machanism elevating system's first actuating mechanism and second actuating mechanism.

2. The riding wheel device for processing and manufacturing hollow glass as claimed in claim 1, wherein: the telescopic mechanism comprises a support mounting base plate (4), the lower end of the support mounting base plate (4) is connected with a first sliding block, and the first sliding block is connected with a telescopic motion guide rail (3) in a sliding mode.

3. The riding wheel device for processing and manufacturing of hollow glass as claimed in claim 2, wherein: the telescopic motion guide rail (3) is arranged on the fixing seat (2), the fixing seat (2) is connected to the base mounting base plate (1), and the base mounting base plate (1) is fixed to the bottom of a front plate frame (19) of the in-plate laminating machine through screws.

4. The riding wheel device for processing and manufacturing hollow glass as claimed in claim 3, wherein the riding wheel device comprises: the lifting mechanism comprises a lifting support (8), a lifting guide rail (9) positioned on the lifting support (8) and a second sliding block connected to the rear end face of the lifting beam (5), and the lifting support (8) is fixedly installed on the support installation base plate (4).

5. The riding wheel device for processing and manufacturing hollow glass as claimed in claim 1, wherein: the first driving mechanism comprises two first speed reducers, a first synchronizing shaft (13) is connected between the two first speed reducers through a first coupler, an output shaft of the first speed reducer is a telescopic ball screw (10), the first speed reducer is driven through a first servo motor (11), and a telescopic ball screw nut (12) matched with the telescopic ball screw (10) is arranged on the support mounting base plate (4).

6. The riding wheel device for processing and manufacturing hollow glass as claimed in claim 1, wherein: the second driving mechanism comprises two second speed reducers (14), the two second speed reducers (14) are connected with a second synchronizing shaft (15) through a second coupler, the output shafts of the second speed reducers (14) are lifting ball screws (16), the second speed reducers (14) are driven through second servo motors (17), lifting beam supports (18) are further connected onto the lifting beams (5), and lifting ball screw nuts matched with the lifting ball screws (16) are arranged on the lifting beam supports (18).

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