CN112573209A - Hollow glass white glass loading machine - Google Patents

Abstract

The invention discloses a hollow glass white glass loading machine, which comprises a control console and an equipment main frame, wherein an X-axis moving mechanism is arranged on the equipment main frame, a Y-axis moving mechanism is vertically arranged on the X-axis moving mechanism, a Z-axis moving mechanism is vertically arranged on the Y-axis moving mechanism, a glass grabbing mechanism is arranged on the Z-axis moving mechanism, the glass grabbing mechanism comprises a connecting support, vacuum chucks and an angle adjusting cylinder, the position of the connecting support, which is close to the middle part, is hinged with the lower end of the Z-axis moving mechanism, a plurality of rows of vacuum chucks are symmetrically arranged on two sides of the connecting support, each vacuum chuck is connected with a vacuum pump, the fixed end of the angle adjusting cylinder is hinged with the Z-axis moving mechanism, and the telescopic end of the angle adjusting cylinder is hinged with the position of the connecting support, which is close to the upper end, so that the invention not only can, and the glass loading efficiency is improved, and the glass quality in the loading process is ensured.

Description

Hollow glass white glass loading machine

Technical Field

The invention relates to the technical field of glass deep processing equipment, in particular to a hollow glass white glass loading machine.

Background

Along with the increasing social demand of hollow glass, the quality requirement of people on the hollow glass is continuously improved, the hollow glass with two glass cavities and one glass cavity and three glass cavities is more and more pursued by people, the matching production of coated glass and white glass is required in the production process of the hollow glass, the orientation of the two kinds of glass is strictly required, the performance of the hollow glass is damaged in order to prevent the film layer from being oxidized due to the contact with air, and therefore the film layer is required to be arranged at the inner side. The same white glass also has the branch of air side and tin face, need make the tin face outwards when producing cavity glass, but the glass generally is the air side in the glass frame when falling the shelf, if take traditional piece mode of inhaling, adsorb glass's tin face and overturn to conveyor on, the tin face is inside when carrying to on the cavity glass production line, can't satisfy cavity glass orientation requirement, need the manual work to turn over glass, so not only inefficiency, intensity of labour is big, also cause glass to scrape the thing emergence of flower, fingerprint etc. influence glass quality easily simultaneously.

Disclosure of Invention

In order to overcome the defects of the prior art, the invention aims to provide the hollow glass white glass loading machine which can meet the orientation requirement of hollow glass production, has high automation degree, reduces the labor intensity, improves the glass loading efficiency and ensures the glass quality in the loading process.

The purpose of the invention is realized by adopting the following technical scheme:

the hollow glass white glass loading machine comprises a control console and an equipment main frame, wherein an X-axis moving mechanism is arranged on the equipment main frame, a Y-axis moving mechanism is vertically arranged on the X-axis moving mechanism, and the X-axis moving mechanism is used for driving the Y-axis moving mechanism to slide along the length direction of the equipment main frame;

a Z-axis moving mechanism is vertically arranged on the Y-axis moving mechanism, and the Y-axis moving mechanism is used for driving the Z-axis moving mechanism to slide along the width direction of the equipment main frame;

the Z-axis moving mechanism is provided with a glass grabbing mechanism and is used for driving the glass grabbing mechanism to slide along the height direction of the equipment main frame;

the glass grabbing mechanism comprises a connecting support, vacuum suckers and an angle adjusting cylinder, wherein the position, close to the middle part, of the connecting support is hinged to the lower end of the Z-axis moving mechanism, a plurality of rows of the vacuum suckers are symmetrically arranged on two sides of the connecting support, each vacuum sucker is connected with a vacuum pump arranged on the Y-axis moving mechanism and used for sucking and grabbing white glass, the fixed end of the angle adjusting cylinder is hinged to the Z-axis moving mechanism, and the telescopic end of the angle adjusting cylinder is hinged to the position, close to the upper end, of the connecting support and used for driving the connecting support to adjust the angle;

and the control console is electrically connected with the X-axis moving mechanism, the Y-axis moving mechanism, the Z-axis moving mechanism and the vacuum pump respectively.

Further, X axle moving mechanism includes X axle guide rail, X axle slip table, X axle motor, X axle gear and X axle rack, the X axle guide rail is followed the length direction setting of equipment body frame, X axle slip table sliding connection be in on the X axle guide rail, X axle motor sets up on the X axle slip table, X axle gear with the drive shaft of X axle motor links to each other, X axle rack is in along length direction the inboard of X axle guide rail, X axle rack with X axle gear meshes mutually.

Further, Y axle moving mechanism includes Y axle guide rail, Y axle slip table, Y axle motor, action wheel, follows driving wheel and driving belt, Y axle guide rail is followed the width direction of equipment body frame sets up, Y axle slip table sliding connection be in on the Y axle guide rail, the smooth one side of Y axle is provided with the castellated plate, Y axle motor sets up the one end of Y axle guide rail, the action wheel with the drive shaft of Y axle motor links to each other, it is in to rotate the setting from the driving wheel the other end of Y axle guide rail, driving belt walks around in proper order the action wheel with from the driving wheel, driving belt with the castellated plate cooperatees.

Further, Z axle moving mechanism is including fixed casing, lift post, Z axle motor, Z axle gear and Z axle rack, fixed casing is fixed to be set up on the Y axle slip table, the lift post slides and sets up in the fixed casing, the Z axle motor is fixed to be set up on the Y axle slip table, Z axle gear with the drive shaft of Z axle motor links to each other, Z axle rack sets up along the direction of height setting the lateral wall of lift post, Z axle rack with Z axle gear meshes mutually.

Furthermore, a plurality of bearings are arranged at the upper end and the lower end of the fixed shell, and the bearings are abutted to the side wall of the lifting column.

Further, one side of X axle guide rail is provided with photoelectric sensor, photoelectric sensor is used for detecting the position of X axle slip table.

Furthermore, the distance between each row of vacuum chucks is gradually decreased from top to bottom.

Further, still be provided with supplementary elevating system on the Z axle moving mechanism, supplementary elevating system is the lift cylinder, the stiff end setting of lift cylinder is in on the lateral wall of fixed casing, the flexible end of lift cylinder with the lateral wall of lift post links to each other.

Furthermore, one side of the fixed shell is provided with an auxiliary control support, and the auxiliary control support is used for arranging a touch screen or a control button.

Compared with the prior art, the invention has the beneficial effects that:

the glass grabbing mechanism is arranged, the angle of the connecting support is adjusted through the angle adjusting cylinder to be consistent with the angle of the white glass on the white glass storage rack, the glass grabbing mechanism is driven to move to the white glass storage rack through the X-axis moving mechanism, the Y-axis moving mechanism and the Z-axis moving mechanism, the white glass is grabbed through the vacuum chuck in an adsorption mode and is transported to a conveying table of a hollow glass production line, the tin surface of the white glass is kept outwards without overturning in the whole process, the orientation requirement of hollow glass production is met, manual operation is not needed, and the defects of glass scratching, handprints and the like are avoided; the invention not only can meet the orientation requirement of hollow glass production, but also has high automation degree, reduces the labor intensity, improves the glass loading efficiency and ensures the glass quality in the loading process.

Drawings

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

FIG. 2 is a side view of an embodiment of the present invention;

FIG. 3 is a schematic structural diagram of an X-axis moving mechanism according to an embodiment of the present invention;

FIG. 4 is an enlarged view of the portion A in FIG. 3 according to an embodiment of the present invention;

FIG. 5 is a schematic structural diagram of a Y-axis moving mechanism according to an embodiment of the present invention;

fig. 6 is a schematic structural diagram of a Z-axis moving mechanism in an embodiment of the present invention.

In the figure: 1. a console; 11. a photosensor; 2. a main equipment frame; 3. an X-axis moving mechanism; 31. an X-axis guide rail; 32. an X-axis sliding table; 33. an X-axis motor; 34. an X-axis gear; 35. an X-axis rack; 4. a Y-axis moving mechanism; 41. a Y-axis guide rail; 42. a Y-axis sliding table; 421. a toothed plate; 43. a Y-axis motor; 44. a driving wheel; 45. a driven wheel; 46. a drive belt; 5. a Z-axis moving mechanism; 51. a stationary housing; 511. a bearing; 52. a lifting column; 53. a Z-axis motor; 54. a Z-axis gear; 55. a Z-axis rack; 6. a vacuum pump; 7. a glass gripping mechanism; 71. connecting a bracket; 72. a vacuum chuck; 73. an angle adjusting cylinder; 8. an auxiliary lifting mechanism; 9. an auxiliary control bracket; 10. a white glass storage rack; 101. white glass.

Detailed Description

The present invention will be further described with reference to the accompanying drawings and the detailed description, and it should be noted that any combination of the embodiments or technical features described below can be used to form a new embodiment without conflict.

As shown in fig. 1 to 6, the hollow glass white glass coating machine comprises a control console 1 and an equipment main frame 2, wherein an X-axis moving mechanism 3 is arranged on the equipment main frame 2, the X-axis moving mechanism is arranged along the length direction of the equipment main frame 2, namely, extends left and right, a Y-axis moving mechanism 4 is vertically arranged on the X-axis moving mechanism 3, the Y-axis moving mechanism 4 is arranged along the width direction of the equipment main frame 2, namely, extends front and back, and the X-axis moving mechanism 3 is used for driving the Y-axis moving mechanism 4 to slide along the length direction of the equipment main frame 2;

the Y-axis moving mechanism 4 is vertically provided with a Z-axis moving mechanism 5, the Z-axis moving mechanism 5 is arranged along the height direction of the equipment main frame 2, namely extends up and down, and the Y-axis moving mechanism 4 is used for driving the Z-axis moving mechanism 5 to slide along the width direction of the equipment main frame 2;

the Z-axis moving mechanism 5 is provided with a glass grabbing mechanism 7, and the Z-axis moving mechanism 5 is used for driving the glass grabbing mechanism 7 to slide along the height direction of the equipment main frame 2;

the glass grabbing mechanism 7 comprises a connecting support 71, vacuum suckers 72 and an angle adjusting cylinder 73, the position, close to the middle, of the connecting support 71 is hinged to the lower end of the Z-axis moving mechanism 5, a plurality of rows of vacuum suckers 72 are symmetrically arranged on two sides of the connecting support 71, each vacuum sucker 72 is connected with a vacuum pump 6 arranged on the Y-axis moving mechanism 4 and used for sucking and grabbing the white glass 101, the fixed end of the angle adjusting cylinder 73 is hinged to the Z-axis moving mechanism 5, and the telescopic end of the angle adjusting cylinder 73 is hinged to the position, close to the upper end, of the connecting support 71 and used for driving the connecting support 71 to adjust the angle; specifically, the preferred embodiment is a six-row vacuum chuck 72, and the first to third rows from top to bottom each include four vacuum chucks 72, the fourth to fifth rows each include three vacuum chucks 72, and the sixth row includes two vacuum chucks 72.

The control console 1 is respectively electrically connected with the X-axis moving mechanism 3, the Y-axis moving mechanism 4, the Z-axis moving mechanism 5 and the vacuum pump 6, and the control console 1 comprises a control panel and a PLC (programmable logic controller).

Can control angle modulation cylinder 73 through control cabinet 1, make its angle of adjusting linking bridge 71 to with white glass storage rack 10 on white glass 101 the angle keep unanimous, and through X axle moving mechanism 3, Y axle moving mechanism 4 and Z axle moving mechanism 5 drive glass snatch mechanism 7 and remove to white glass storage rack 10 on, and adsorb through vacuum chuck 72 and snatch white glass 101, transport to cavity glass production line conveying platform, whole process need not the upset and keeps white glass 101 tin face outwards, satisfy the orientation requirement of cavity glass production, need not manual operation, glass has been avoided scraping flowers, defects such as fingerprint.

In a preferred embodiment, the X-axis moving mechanism 3 includes an X-axis guide rail 31, an X-axis sliding table 32, an X-axis motor 33, an X-axis gear 34, and an X-axis rack 35, the X-axis guide rail 31 is disposed along a length direction of the apparatus main frame 2, the X-axis sliding table 32 is slidably connected to the X-axis guide rail 31, the X-axis sliding table 32 is slidable left and right along the X-axis guide rail 31, the X-axis motor 33 is disposed on the X-axis sliding table 32, the X-axis gear 34 is connected to a driving shaft of the X-axis motor 33, the X-axis rack 35 is disposed inside the X-axis guide rail 31 along the length direction, the X-axis rack 35 is engaged with the X-axis gear 34, the control console 1 controls the X-axis motor 33 to rotate forward and backward, and drives the X-axis sliding table 32 to slide left or right through an engagement relationship between the X-axis gear 34 and the.

As a preferred embodiment, the Y-axis moving mechanism 4 includes a Y-axis guide rail 41, a Y-axis sliding table 42, a Y-axis motor 43, a driving wheel 44, a driven wheel 45 and a transmission belt 46, the Y-axis guide rail 41 is disposed along the width direction of the apparatus main frame 2, the Y-axis sliding table 42 is slidably connected to the Y-axis guide rail 41, the Y-axis sliding table 42 can slide back and forth along the Y-axis guide rail 41, a toothed plate 421 is disposed on one side of the Y-axis slide, the Y-axis motor 43 is disposed at one end of the Y-axis guide rail 41, the driving wheel 44 is connected to a driving shaft of the Y-axis motor 43, the driven wheel 45 is rotatably disposed at the other end of the Y-axis guide rail 41, the transmission belt 46 sequentially passes around the driving wheel 44 and the driven wheel 45, the transmission belt 46 is engaged with the toothed plate 421, a tooth surface of the transmission belt 46 is matched with the toothed plate 421, the Y, so that the driving belt 46 rotates forward or backward, and the power is transmitted to the Y-axis sliding table 42 through the toothed plate 421, thereby realizing the displacement in the Y-axis direction.

In a preferred embodiment, the Z-axis moving mechanism 5 includes a fixed housing 51, a lifting column 52, a Z-axis motor 53, a Z-axis gear 54, and a Z-axis rack 55, the fixed housing 51 is fixedly disposed on the Y-axis sliding table 42, the lifting column 52 is slidably disposed in the fixed housing 51, the lifting column 52 can slide up and down along the fixed housing 51, the Z-axis motor 53 is fixedly disposed on the Y-axis sliding table 42, the Z-axis gear 54 is connected to a driving shaft of the Z-axis motor 53, the Z-axis rack 55 is disposed on a side wall of the lifting column 52 in the height direction, the Z-axis rack 55 is engaged with the Z-axis gear 54, the control console 1 controls the forward and reverse rotation of the Z-axis motor 53, and the power is transmitted to the lifting column 52 through the engagement relationship between the Z-axis gear 54 and the Z-axis rack 55, so as to realize the displacement in the Z-axis direction.

In a preferred embodiment, a plurality of bearings 511 are provided at both upper and lower ends of the fixed housing 51, the bearings 511 are in contact with the side walls of the lifting column 52, specifically, the bearings 511 are provided at each side wall of the fixed housing 51, and the bearings 511 are in contact with the side walls of the lifting column 52 through the inner wall of the fixed housing 51, so that the lifting column 52 is slidably connected to the fixed housing 51.

In a preferred embodiment, a photoelectric sensor 11 is disposed on one side of the X-axis guide rail 31, the photoelectric sensor 11 is used for detecting the position of the X-axis sliding table 32, when the X-axis sliding table 32 passes through the photoelectric sensor 11, the photoelectric sensor 11 transmits a signal to the control console 1, so that the control console 1 receives a signal indicating that the X-axis sliding table 32 is moved to the white glass storage rack 10, and at this time, the X-axis motor 33 can be controlled to stop, thereby improving the accuracy of the control console 1 in controlling the X-axis motor 33.

As a preferred embodiment, the distance between each row of vacuum suction cups 72 decreases gradually from top to bottom in sequence, so that the suction force of each row of vacuum suction cups 72 is uniformly distributed on the white glass 101 to be sucked and grabbed, wherein the vacuum suction cups 72 close to the upper side are relatively dispersed, and the vacuum suction cups 72 at the lower side are relatively concentrated, so that the sucking and grabbing are more stable.

In a preferred embodiment, the Z-axis moving mechanism 5 is further provided with an auxiliary lifting mechanism 8, the auxiliary lifting mechanism 8 is a lifting cylinder, a fixed end of the lifting cylinder is arranged on a side wall of the fixed housing 51, a telescopic end of the lifting cylinder is connected with a side wall of the lifting column 52, the telescopic end of the lifting cylinder is controlled by the console 1 to extend and retract up and down, the lifting column 52 is driven to slide up and down along the fixed housing 51, the lifting column 52 is driven synchronously with the Z-axis motor 53 of the Z-axis moving mechanism 5, and the pressure of the Z-axis motor 53 is reduced.

As a preferred embodiment, an auxiliary control bracket 9 is disposed on one side of the fixed casing 51, the auxiliary control bracket 9 is used for disposing a touch screen or a control button, one end of the auxiliary control bracket 9 is connected to one side of the fixed casing 51, and the other end is disposed with a support panel, which is used for disposing the touch screen and the control button, so that an operator can quickly perform program commands such as emergency stop, start or close.

The working process of the invention is as follows:

firstly, the angle adjusting cylinder 73 is controlled by the control console 1 to adjust the angle of the connecting bracket 71 to be consistent with the angle of the white glass 101 on the white glass storage rack 10 through the telescopic end, and the connecting bracket is moved to the position of the white glass storage rack 10 through the X-axis moving mechanism 3, and then the connecting bracket is moved to be in surface contact with the white glass 101 on the outer side through the Y-axis moving mechanism 4, at the moment, the vacuum chuck 72 is enabled to have strong suction force through the vacuum pump 6 to adsorb and grab the white glass 101, after the height is raised through the Z-axis moving mechanism 5, the connecting bracket is moved to the position of the hollow glass production line conveying platform through the X-axis moving mechanism 3 and the Y-axis moving mechanism 4, the white glass 101 is stably placed on the hollow glass production line conveying platform through the Z-axis moving mechanism 5, and finally the vacuum pump 6 is controlled to stop running, so that the vacuum chuck 72 loosens, the whole process does not need to turn over to keep the tin surface of the white glass 101 outward, the orientation requirement of hollow glass production is met, manual operation is not needed, and the defects of glass scraping, handprints and the like are avoided.

The above embodiments are only preferred embodiments of the present invention, and the protection scope of the present invention is not limited thereby, and any insubstantial changes and substitutions made by those skilled in the art based on the present invention are within the protection scope of the present invention.

Claims (9)

1. Hollow glass white glass goes up mascerating machine, including control cabinet and equipment body frame, its characterized in that: the X-axis moving mechanism is vertically arranged on the X-axis moving mechanism and is used for driving the Y-axis moving mechanism to slide along the length direction of the equipment main frame;

a Z-axis moving mechanism is vertically arranged on the Y-axis moving mechanism, and the Y-axis moving mechanism is used for driving the Z-axis moving mechanism to slide along the width direction of the equipment main frame;

the Z-axis moving mechanism is provided with a glass grabbing mechanism and is used for driving the glass grabbing mechanism to slide along the height direction of the equipment main frame;

the glass grabbing mechanism comprises a connecting support, vacuum suckers and an angle adjusting cylinder, wherein the position, close to the middle part, of the connecting support is hinged to the lower end of the Z-axis moving mechanism, a plurality of rows of the vacuum suckers are symmetrically arranged on two sides of the connecting support, each vacuum sucker is connected with a vacuum pump arranged on the Y-axis moving mechanism and used for sucking and grabbing white glass, the fixed end of the angle adjusting cylinder is hinged to the Z-axis moving mechanism, and the telescopic end of the angle adjusting cylinder is hinged to the position, close to the upper end, of the connecting support and used for driving the connecting support to adjust the angle;

and the control console is electrically connected with the X-axis moving mechanism, the Y-axis moving mechanism, the Z-axis moving mechanism and the vacuum pump respectively.

2. The hollow glass white glass loader of claim 1, characterized in that: x axle moving mechanism includes X axle guide rail, X axle slip table, X axle motor, X axle gear and X axle rack, X axle guide rail is followed the length direction of equipment body frame sets up, X axle slip table sliding connection is in on the X axle guide rail, X axle motor sets up on the X axle slip table, X axle gear with the drive shaft of X axle motor links to each other, X axle rack is in along length direction the inboard of X axle guide rail, X axle rack with X axle gear meshes mutually.

3. The hollow glass white glass loader of claim 2, characterized in that: y axle moving mechanism includes Y axle guide rail, Y axle slip table, Y axle motor, action wheel, follows driving wheel and driving belt, Y axle guide rail is followed the width direction of equipment body frame sets up, Y axle slip table sliding connection be in on the Y axle guide rail, the smooth one side of Y axle is provided with the castellated plate, Y axle motor sets up the one end of Y axle guide rail, the action wheel with the drive shaft of Y axle motor links to each other, it sets up to rotate from the driving wheel the other end of Y axle guide rail, driving belt has walked around in proper order the action wheel with from the driving wheel, driving belt with the castellated plate cooperatees.

4. The hollow glass white glass loader of claim 3, characterized in that: z axle moving mechanism is including fixed casing, lift post, Z axle motor, Z axle gear and Z axle rack, fixed casing is fixed to be set up on the Y axle slip table, the lift post slides and sets up in the fixed casing, the Z axle motor is fixed to be set up on the Y axle slip table, Z axle gear with the drive shaft of Z axle motor links to each other, Z axle rack sets up and is in along the direction of height setting the lateral wall of lift post, Z axle rack with Z axle gear meshes mutually.

5. The hollow glass white glass loader of claim 4, characterized in that: the upper end and the lower end of the fixed shell are provided with a plurality of bearings, and the bearings are abutted to the side walls of the lifting columns.

6. The hollow glass white glass loader of claim 2, characterized in that: one side of X axle guide rail is provided with photoelectric sensor, photoelectric sensor is used for detecting the position of X axle slip table.

7. The hollow glass white glass loader of claim 1, characterized in that: and the distance between the vacuum suckers in each row is gradually decreased from top to bottom.

8. The hollow glass white glass loader of claim 4, characterized in that: still be provided with supplementary elevating system on the Z axle moving mechanism, supplementary elevating system is the lift cylinder, the stiff end setting of lift cylinder is in on the lateral wall of fixed casing, the flexible end of lift cylinder with the lateral wall of lift post links to each other.

9. The hollow glass white glass loader of claim 4, characterized in that: and an auxiliary control support is arranged on one side of the fixed shell and used for arranging a touch screen or a control button.

Images